The present invention relates to an ink cartridge and an ink jet printer capable of printing on a print medium using ink supplied from the ink cartridge.
The ink cartridge detachably mountable to a receiver (cartridge mounting portion) of a main assembly of the ink jet printer is provided with a cartridge side interface portion connectable with an interface portion provided in a main assembly side of the printer (International Publication No. 2012-054050). In International Publication No. 2012-054050, there are provided an electrical contact, an ink supply opening (ink discharge opening, tube inserting opening), a cartridge side locking portion as the cartridge side interface portion. As for the interface portion of the main assembly side of the printer, a receiver is provided with an electrical connecting portion electrically connectable with the electrical contact, an ink receiving tube to be inserted into the ink supply port, a locking mechanism of the main assembly side of the printer for engaging with the cartridge side locking portion. When the ink cartridge is inserted into the receiver, the electrical contact of the ink cartridge is connected with the electrical connecting portion of the receiver, and the ink receiving tube of the receiver is inserted into the supply opening of the ink cartridge. In addition, the cartridge side locking portion is engaged with the locking portion of the main assembly side of the printer, by which the ink cartridge is locked with the receiver. By this, the connection between the ink cartridge and the main assembly of the printer is completed.
As will be understood from FIGS. 6-9 of International Publication No. 2012-054050, the electrical contact is provided adjacent to a right-hand surface of a cartridge parallel with a cartridge mounting direction (Y axis direction). The cartridge side locking portion for fixing the cartridge to the receiver is provided on a cartridge bottom surface far from the electrical contact.
The cartridge side interface portion disclosed in International Publication No. 2012-054050 involves a point which can be improved. For example, in International Publication No. 2012-054050, an electrical contact is provided on a surface parallel with a cartridge mounting direction, and therefore, an electrical connecting portion of the main assembly of the printer significantly rubs the electrical contact of the ink cartridge when the ink cartridges mounted to or dismounted. For this reason, by the repeated mounting and dismounting operations, the electrical connecting portion of the main assembly is worn with the result of adverse affect to the electrical connection. Thus, in the prior art, the structures and arrangements of the parts in the cartridge side interface portion involves a point which can be improved.
The present invention provides *
An improved ink cartridge is provided. In addition, a novel ink jet printer with which a satisfactory connection is accomplished between the ink cartridge and the cartridge mounting portion is provided.
An ink cartridge and an ink jet printer according to embodiments of the present invention will be described in detail in conjunction with accompanying drawings. The embodiments are preferable ones that implement the present invention which is not limited to these embodiments.
The printer main assembly 30 comprises a carriage 31, an ink jet head 32, a mounting portion 33, a feeding means 34, a controller 35 and an input/output portion 36, and in addition, an opening and closing outer cover, a feeding means, a feeding cassette, a discharging tray, an operating portion and so on which are unshown. The printer main assembly 30 is connectable with an external device (unshown) such as a computer, a digital camera, a memory card or the like, through the input/output portion 36.
The controller 35 carries out overall control, control of information communication with the ink cartridge 1, analysis and processing of the information inputted from the external device through the input/output portion 36, and outputting of information to the input/output portion 36. For example, the controller 35 produces instructions for actuating devices such as the carriage 31, the ink jet head 32, the feeding means 34 and the feeding means and for controlling the devices. In addition, the controller 35 can control the devices for reading ink colors, initial ink filling amounts, ink consumption amounts and other individuality information of the cartridges out of a storing element provided in the ink cartridge 1, and for writing the information of the ink consumption amounts in the storing element provided in the ink cartridge 1. Furthermore, the controller 35 can analyze and process print instructions and/or image data inputted through the input/output portion 36 from the external device, and can output the information such as the remaining ink amount to the input/output portion 36.
The carriage 31 is provided with a mounting portion (cartridge mounting portion or cartridge holder) 33 to which the ink jet head 32 and ink cartridge 1 are detachably mountable. In this embodiment, a head unit (cartridge mounting unit) 38 integrally including the ink jet head 32 and the mounting portion 33 is detachably mounted to the carriage 31, as shown in
On the mounting portion 33 of the carriage 31, ink cartridges 1C, 1Bk, 1M, 1Y containing cyan (C) ink, black (Bk) ink, magenta (M) ink and yellow (Y) ink, respectively can be detachably mounted. The ink cartridge 1Bk has a larger capacity than those of the other three ink cartridges 1C, 1M, 1Y. In addition, the ink jet head 32 is provided with respective color head portions for ejecting the cyan (C), black (Bk), magenta (M) and yellow (Y) inks supplied from the ink cartridges 1.
When a user mounts and dismounts or exchanges the ink cartridge 1 relative to such a carriage 31, the user opens the outer cover (unshown) covering the carriage 31 and the feeding means 34. When the printer main assembly detects the opening state of the outer cover, the carriage 31 moves to a cartridge exchange position (unshown). The user can insert the ink cartridge 1 into the carriage 31 placed in the cartridge exchange position, and can take the ink cartridge 1 out of the carriage 31 placed in the cartridge exchange position.
After the mounting and dismounting or the exchange of the ink cartridge 1, the user closes the outer cover, and then the closed state of the outer casing is detected. When the closed state is detected, the controller 35 of the printer main assembly reads the ink color information from the storing element of the ink cartridge 1 mounted to the carriage 31. The controller 35 discriminates whether or not the ink cartridges for all colors (four colors in this example) to be mounted to the carriage 31 are mounted, on the basis of the read ink color information. If the result of the discrimination indicates that an ink cartridge for a particular color is not mounted to the carriage 31, the controller 35 produces error display instructions to the operating portion and/or the external device to display an error message on the display panel of the operating portion (unshown) and/or the display portion of the external device (unshown). On the other hand, if the result of discrimination indicates that all the color ink cartridges to be mounted are mounted to the carriage 31, the ink jet printer becomes operable for printing.
When the print instructions is inputted to the controller 35 from the external device (unshown) or the operating portion (unshown), the controller 35 discriminates whether or not the printer is in the operable state. If it is in the operable state, the feeding means (unshown) picks up the print medium 37 stacked in the feeding cassette (unshown) and feeds the picked-up print medium 37 toward the feeding means 34. The feeding means 34 is provided with a platen for supporting the print medium at the bottom surface thereof, a feeding roller capable of intermittently feeding the print medium, driving means for rotating the feeding roller and so on, and feeds the print medium 37 toward the discharging tray (unshown). In the period between adjacent the feeding operations for the print medium 37, the carriage 31 moves above the print medium along the X axis direction perpendicular to the feeding direction of the print medium 37. During the movement of the carriage 31, the inks are ejected toward the print medium 37 from the ink jet head 32, so that an image is formed on the print medium. In this manner, an image is formed on the print medium by the repetition of the carriage movement and the print medium feeding.
In this embodiment, the head unit (cartridge mounting unit) 38 is detachably mounted to the carriage 31, but the present invention is not limited to such a structure. The ink jet head 32 and the mounting portion 33 may be detachably mounted to the carriage 31, individually. In addition, the mounting portion 33 may be integral with the carriage 31, and only the ink jet head 32 may be detachably mounted to the carriage 31. Furthermore, both of the ink jet head 32 and the mounting portion 33 may be integral with the carriage 31. It will suffice if the carriage 31 is capable of mounting the ink jet head 32, and the ink cartridge 1 is mountable and dismountable thereto.
Referring to
As shown in
The casing 2 comprises an upper surface 2a which is an outer wall surface of an upper wall thereof, a lower surface (bottom surface) 2b which is an outer wall surface of a lower wall (bottom wall) thereof, a plurality of side surfaces 2c-2f which are outer wall surfaces of side walls connecting the upper wall and the lower wall with each other. These upper wall, the upper surface, the bottom wall, the bottom surface, the plurality of side walls and the plurality of side surfaces are defined on the basis of the orientation (attitude) of the ink cartridge at the time when the ink cartridge is mounted to the mounting portion, that is, on the basis of the state in use.
The plurality of the side surfaces include a front surface (front side) 2c which is a first side surface, a rear surface (rear side) 2d which is a second side surface, a left surface 2e which is a third side surface connecting the first side surface and the second side surface with each other, and a right-hand surface 2f which is a fourth side surface connecting the first side surface and the second side surface with each other. The front surface 2c is on the leading side with respect to the mounting direction of the ink cartridge. The rear surface (rear side) 2d is on the trailing side with respect to the mounting direction of the ink cartridge and is at the opposite side of the front surface 2c across the ink accommodating chamber 11. The left surface 2e is on the left side as the ink cartridge is seen from a front side. The right-hand surface 2f is on the right side as the ink cartridge is seen from the front side and is at the opposite side of the left surface 2e across the ink accommodating chamber 11.
In this embodiment, the casing 2 is substantially in the form of a rectangular parallelepiped including six major surfaces or sides. The left surface 2e and the right-hand surface 2f of the six surfaces have the maximum area, and the front surface (front side) 2c and the rear surface 2d have the minimum area. The size relationships are the front surface 2c and the rear surface 2d<the upper surface 2a; and the lower surface (bottom surface) 2b<the left surface 2e and the right-hand surface 2f.
In this embodiment, the sizes of the casing 2 are approx. 4.7 cm in height (measured in the Z axis direction), approx. 8.4 cm in the depth (measured in the Y axis direction), and approx. 1.6 mm in the width (measured in the X axis direction). Therefore, an area of the left surface 2e (and the right-hand surface 2f) is approx. 39.48 (=4.7×8.4) cm̂2. The area of the upper surface 2a (and the lower surface 2b) is approx. 13.44 (=1.6×8.4) cm̂2. The area of the front surface (front side) 2c (and the rear surface (rear side)) is approx. 7.52 (=1.6×4.7) cm̂2. The specific sizes of the height, the depth and the width are merely examples, and the sizes of the casing 2 of this embodiment are not limited to these examples.
Here, the first side wall having the first side surface which is the front surface 2c is called “front wall”, the second side wall having the second side surface which is the rear surface 2d is called “rear wall”, the third side wall having the third side surface which is the left surface 2e is called “left-hand wall” or “left wall”, and the fourth side wall having the fourth side surface which is the right-hand surface 2f is called “right-hand wall”. The front wall and the rear wall are opposed to each other across the ink accommodating chamber 11, and the left-hand wall and the right-hand wall are opposed to each other across the ink accommodating chamber 11.
In
In this embodiment, the casing has the rectangular parallelepiped shape, and therefore, the X axis direction is perpendicular to the left surface 2e and the right-hand surface 2f, and the Y axis direction is perpendicular to the front surface (front side) and to the rear surface 2d, and the Z axis direction is perpendicular to the upper surface 2a and to the lower surface (bottom surface) 2b.
However, as will be described hereinafter, the configuration of the casing usable with this embodiment is not limited to the rectangular parallelepiped shape, and all or a part of the surfaces constituting the casing may be curved surface or inclined surface, for example. When the all or a part of the surface is a curved surface or an inclined surface, the X axis, the Y axis and the Z axis are not necessarily perpendicular to one another.
As shown in
The electrical contact 4, the positioning hole 6, the through-opening 27, the tube inserting opening 8 and the discrimination portion 9 are connected with or engaged with an electrical connecting portion 55, a positioning pin 53, an unsealing pin 51, an ink receiving tube 52 and a discrimination member 60 of the printer main assembly side interface portion, respectively. The details of the structures of the printer main assembly side interface portion will be described hereinafter in conjunction with
The structure of the ink cartridge, particularly the cartridge side interface portion will be described.
As shown in
As shown in
In the ink cartridge mounted state, the ink reception tube 52 is in the tube inserting opening 8, and therefore, the movement of the casing 2 is limited in the direction perpendicular to the cartridge mounting direction (X axis direction and Z axis direction, for example, which are along the front surface 2c). That is, the tube inserting opening 8 as the tube inserting portion functions also to suppress a positional deviation in a plane of the front surface 2c.
In this embodiment, a tube inserting opening (opening) is employed as the tube inserting portion, but the tube inserting portion is not limited to an opening. It will suffice if the tube inserting portion 8 permits the insertion of the ink receiving tube 52, and therefore, it is not necessarily open in the state prior to the insertion of the ink receiving tube 52. For example, the tube inserting portion 8 may be closed when the ink receiving tube 52 is not inserted, but is open only when the ink receiving tube 52 is inserted.
From the standpoint of the functions, the tube insertion path, the tube inserting opening and the tube inserting portion can be called as follows. For example, the tube insertion path 22 is a portion for receiving the ink receiving tube 52, and therefore, it can be called “tube receiving path”. The tube inserting opening 8 is positioned at one end portion of the tube receiving path and functions to receive the ink receiving tube 52, and therefore, it can be called “tube receiving opening”. The tube inserting portion 8 is positioned at one end portion of the tube receiving path and functions to receives the ink receiving tube 52, and therefore, it can be called “tube receiving portion”.
From the standpoint of the functions, the tube insertion path, the tube inserting opening and the tube inserting portion can be called as follows. For example, the tube insertion path 22 functions to supply the ink from the inside of the ink accommodating chamber 11 to an outside (ink receiving tube 52) of the cartridge, and therefore, it can be called “ink supply path”. The tube inserting opening 8 is positioned at one end portion of the ink supply passage and functions to supply the ink from the inside of the ink accommodating chamber 11 to an outside (ink receiving tube 52), and therefore, it can be called “ink supply opening”. The tube inserting portion 8 is positioned at one end portion of the ink supply passage and functions to supply the ink from the inside of the ink accommodating chamber 11 to an outside of the cartridge (ink receiving tube 52), and therefore, it can be called “ink supplying portion”.
From the standpoint of the functions, the tube insertion path, the tube inserting opening and the tube inserting portion can be called as follows. For example, the tube insertion path 22 is a discharging path capable of discharging the ink from the inside of the ink accommodating chamber 11 to an outside of the cartridge, and therefore, it can be called “ink discharging path”. The tube inserting opening 8 is positioned at one end portion of the ink discharging path and is an opening capable of discharging the ink from the inside of the ink accommodating chamber 11 to an outside of the cartridge, and therefore, it can be called “ink discharge opening”. The tube inserting portion 8 is positioned at the one end portion of the ink discharging path and is a portion capable of discharging the ink from the inside of the ink accommodating chamber 11 to a outside of the cartridge, and therefore, it can be called “ink discharging portion”.
As shown in part (a) of
The substrate 3 provided with an electrode pad as an electrical contact (cartridge side electrical contact) 4 is provided in a position above the supply opening 8 on the front surface 2c of the casing 2, more particularly, in the neighborhood of the upper surface 2a. As shown in
The storing element 5 is an IC chip provided with an information storing portion (memory portion) and a control circuit. The information storing portion stores cartridge individuality information. The cartridge individuality information is information relating to a color of the ink accommodated in the ink accommodating chamber, information relating to an initial filling amount of the ink, information relating to an ink consumption amount supplied to the outside from the ink accommodating chamber, information relating to the date of manufacturing of the cartridge, and so on, for example. The structure of the information storing portion (memory portion) is not limited to a particular one, and it may be EEPROM, FeRAM or another element. On the other hand, the control circuit can analyze the information supplied from the controller 35 of the printer main assembly 30, can write information in the information storing portion, can read the information out of the information storing portion, and can output information to the controller 35. For example, the control circuit can analyze the ink consumption amount information and the ink color information supplied from the controller 35 and can write the ink consumption amount information and the ink color information in the information storing portion. In addition, the control circuit can read the ink color information and the ink consumption amount information out of the information storing portion and output the read information to the controller 35.
The electrode pad as the cartridge side electrical contact 4 is electrically connectable with an electrical terminal as a main assembly side electrical contact 55 (electrical connecting portion), and as shown in part (a) of
In this embodiment, it will suffice if the electrode pads 4 are disposed at the positions at which they are connectable with the electrical terminals 55 provided in the mounting portion 33 as indicated in
It is particularly preferable that the plurality of electrode pads 4 are arranged in a direction crossing with the height direction (Z axis direction) of the cartridge on the surface crossing with the above-described cartridge mounting direction. Furthermore, it is further preferable that the plurality of electrode pads 4 are arranged in the widthwise direction (horizontal direction) of the cartridge which is an example of the direction crossing with the height direction (Z axis direction) of the cartridge.
In the example of part (a) of
The arrangement of the electrode pad shown in part (a) of
As described, the electrode pad 4 preferably includes (1) the area crossing with the cartridge mounting direction, (2) the area crossing with the Y axis direction, (3) the area crossing with the cartridge depth direction, (4) the area crossing with the direction parallel with the normal line of the formation surface of the tube inserting opening (ink discharge opening) 8, (5) the area crossing with the direction parallel with the direction in which the tube insertion path (ink discharging path) 22 extends, or (6) the area crossing with the direction parallel with the center line of the tube inserting opening (ink discharge opening).
By the connection between the electrode pad 4 and the electrical terminal 55, the storing element 5 of the ink cartridge 1 is electrically connected with the controller 35 of the printer main assembly 30. By this, the controller 35 becomes capable of reading out the information (the cartridge individuality information) stored in the storing element 5 by a known method. Similarly, the controller 35 becomes capable of writing the information (information relating to the ink consumption amount, for example) in the storing element 5.
As shown in
As shown in
Into the air vent 7 and the through-opening 27, the unsealing pin 51 is inserted. The through-opening 27 is a through hole provided in the front wall, and the unsealing pin can penetrate it. On the other hand, the air vent 7 is an opening provided at one end portion of an air vent path 16 in a rear side beyond the through-opening 27, more particularly, it is provided in an air vent formation wall which is an inner wall provided between the front wall and the ink accommodating chamber 11 in the cartridge depth direction. As will be described hereinafter, when the ink cartridge 1 is mounted to the mounting portion 33, the unsealing pin 51 is inserted through the through-opening 27 and is then inserted into the air vent 7 after penetrating the through-opening 27.
As shown in part (a) of
As shown in part (a) of
The air vent sealing film 17 functions as means for suppressing ink evaporation and/or ink leakage before the start of the use of the cartridge such as during transportation thereof. Therefore, it is preferable that the timing of the unsealing of the air vent sealing film 17 is immediately before the start of use of the ink cartridge. To assure this, in this embodiment, the air vent sealing film 17 is unsealed by the unsealing pin 51 of the printer main assembly, so that the air vent sealing film 17 is unsealed at the time of the mounting of the ink cartridge 1 to the printer main assembly.
In addition, in this embodiment, as shown in part (a) of
The discrimination portion 9 mechanically functions to prevent the ink cartridge 1 from being mounted to a wrong mounting position (the position to which the cartridge of another ink color is to be mounted) and has unique configurations peculiar to the respective ink colors. As shown in
As shown in
As described in the foregoing, the front surface 2c of the casing 2 is provided concentrically with cartridge side interface portions including the electrical contact 4, the positioning portion (positioning opening) 6, the through-opening 27, the tube inserting opening 8, the discrimination portion 9, the ejection spring contact portion (force receiving portion) 23 or the like. By the concentric arrangement of the cartridge side interface portions, the printer main assembly side interface portions can be concentrically arranged, so that the printer main assembly side interface portions can be made as a unit, which can be downsized.
The cartridge side interface portion is provided not only on the front surface 2c of the casing 2 but also on the upper surface 2a of the casing 2. The upper surface 2a of the casing 2 is provided with an engaging portion 24 engageable with a locking portion 54 of a locking lever 58 provided in the mounting portion 33 shown in
As shown in
In the engaged state (locked state) between the engaging portion 24 and the locking portion 54, the connected state between the cartridge side interface portions and the printer main assembly side interface portions (the connected state between the electrical contact 4 and the electrical connecting portion 55, the connected state between the positioning portion 6 and the positioning pin 53 (engaged state between the positioning portion 6 and the positioning pin 53), the connected state between the tube inserting opening 8 and the ink reception tube 52 (the inserted state of the ink reception tube in the tube inserting opening 8), the fluid-communication state between the ink accommodating chamber 11 and the ink reception tube 52, or the like, for example) are maintained to retain the ink cartridge 1 in the mounting completion position. On the other hand, when the engaged state (locked state) between the engaging portion 24 and the locking portion 54 is released, the ink cartridge 1 is moved in the dismounting direction by the urging force of the ejection spring 57, and the connected state between the cartridge side interface portion and the printer main assembly side interface portion is also released. In this manner, the engaging portion 24 functions together with the locking portion 54 as the means for maintaining the connected state between the cartridge side interface portion and the printer main assembly side interface portion.
From another standpoint, the engaging portion 24 functions as a portion capable of receiving a regulating force for regulating movement of the casing 2 in the dismounting direction (the direction from the front surface toward the rear surface, for example) against the urging force of the ejection spring 57. In the case of this embodiment, the area 24a of the engaging portion 24 receives the regulating force from the locking projection 54 of the locking lever 58. In this manner, the engaging portion 24 is a regulating member for limiting the movement of the casing 2 caused by the force (external force) received from the outside of the ink cartridge 1.
As shown in
In this embodiment, the engaging portion 24 is disposed in a position closer to the electrical contact than to the tube inserting opening 8, and therefore, the satisfactory connection between the ink cartridge and the printer main assembly can be easily accomplished. That is, regarding the connection between the ink cartridge and the printer main assembly, the movement tolerable range of electrical contact in the front-rear direction (Y axis direction) is narrower than that of the tube inserting opening 8. In other words, the tolerance of the electrical contact 4 is smaller than that of the tube inserting opening 8, with respect to the deviation in the front-rear direction (Y axis direction) of the cartridge. On the other hand, upon the engagement (locking) between the engaging portion 24 and the locking portion 54, the movement may occur in the front-rear direction with the movement of the casing 2 about the engaging portion 24 in a θx direction. It is preferable that the positional relations between the engaging portion 24, the tube inserting opening 8 and the electrical contact are selected such that the movement distance of the electrical contact 4 of the casing 2 in the front-rear direction with the movement of the casing 2 in the θx direction about the engaging portion 24 is smaller than that of the tube inserting opening 8. In a example to accomplish this, the engaging portion 24 is disposed on the upper surface 2a of the casing 2, by which the engaging portion 24 is disposed closer to the electrical contact than to the tube inserting opening 8.
As shown in
As shown in
The inside structures of the ink cartridge will be described particularly about the structure of the ink accommodating chamber.
A sealing member unit 20 is a member to be inserted into the tube insertion path 22 of the first casing member 40. The sealing member unit 20 includes a cylindrical sealing member 19 having an opening and closing slit at one end portion thereof and having an opening on the other end and an outer casing 21 integral with the outer peripheral surface of the sealing member 19. When the sealing member unit 20 is inserted into the tube insertion path 22, the opening at the other end constitutes the tube inserting opening 8.
Inside the ink accommodating chamber 11, there are provided a negative pressure generation spring 13 as a negative pressure producing member and a plate member 14 which is slightly smaller than the inner wall circumference of the first casing member 40. One end portion of the negative pressure generation spring 13 is engaged with the inner wall of the left surface 2e of the first casing member 40, and the other end portion of the negative pressure generation spring 13 is engaged with the plate member 14. The negative pressure generation spring 13 urges the flexible member 12 through the plate member 14 in the direction of expanding the ink accommodating chamber, by which the ink accommodating chamber is maintained under a predetermined range of the negative pressure. When the ink amount in the ink accommodating chamber decreases by the ink supply to the outside of the ink accommodating chamber 11, the negative pressure in the ink accommodating chamber 11 tends to increase, but the negative pressure generation spring 13 contracts, so that the plate member 14 moves in the direction of reducing the inside volume of the ink accommodating chamber 11, thus suppressing the increase of the negative pressure.
The space (non-ink-accommodating space) between the ink accommodating chamber 11 and the second casing member 41 is in fluid communication with the outside of the ink cartridge 1 through the fluid communication path (unshown) provided in the rear wall of the ink cartridge 1 and through the ambient air opening 26 (
By the movement of the plate member 14, the ink supply is carried out, but when the negative pressure in the ink accommodating chamber 11 exceeds the meniscus force as a result of further consumption of the ink, the air is introduced into the ink accommodating chamber 11 passing through the filter 15 from the air vent path 16, as described above. Subsequently, the ambient air is introduced into the ink accommodating chamber through the air vent path 16 by the amount corresponding to the supply of the ink, and therefore, the negative pressure in the ink accommodating chamber is maintained within a predetermined range, so that the negative pressure does not increase unnecessarily. By the introduction of the ambient air into the ink accommodating chamber from a certain stage of the ink supply, the almost all the ink in the ink accommodating chamber can be used up.
In this embodiment, the method of injecting the ink into the ink cartridge 1 is not limited to a particular method. For example, an empty ink cartridge (free of the tube inserting opening sealing film 18) as shown in
In the case that the air vent sealing film 17 and the flexible member 12 are separate members as described hereinbefore, the ink cartridge can be manufactured through the following steps. First, an empty ink cartridge (free of the air vent sealing film 17 and the tube inserting opening sealing film 18) as shown in
Referring to
As described hereinbefore, the cartridge mounting unit (head unit) 38 integrally comprises the ink jet head 32 and the cartridge mounting portion 33 and is detachably mountable to the carriage 31 of
As shown in
As shown in
The unsealing pin 51 is an unsealing member for unsealing the air vent sealing film 17 piercing the air vent sealing film 17 upon the mounting of the ink cartridge 1. In this embodiment, the unsealing pin 51 is first inserted through the through-opening 27 and then through the air vent sealing film 17 into the air vent 7.
The ink receiving needle as the ink reception tube 52 is an ink receiving member for piercing the tube inserting opening sealing film 18 to unseal it, and insertable into the tube inserting opening 8 to connect with the tube insertion path 22, thus receiving the ink through the tube insertion path 22. The ink receiving tube 52 is in fluid communication with the ink jet head 32 to supply the ink received through the tube insertion path 22 into the ink jet head 32. That is, the ink receiving tube 52 functions as an ink supply tube for supplying the ink into the ink jet head 32. In this example, the ink receiving tube 52 is in the form of a tapered hollow cylindrical needle having the opening at the free end, but the present invention is not limited to such a configuration, and it will suffice if it is a hollow member capable of being inserted through the tube inserting opening 8 and having an opening capable of receiving the ink from the ink cartridge 1. The position of the opening is not necessarily at the free end, and the configuration is not necessarily a tapered cylinder.
The positioning pin 53 is a position regulation member insertable into the positioning portion 6 to limit the movement of the casing 2 in the direction (X axis direction and/or Z axis direction which is the direction along the front surface 2c, for example) perpendicular to the mounting direction of the ink cartridge 1, by engagement with the positioning portion 6.
The electrical terminals 55 are the electrical connecting portions (main assembly side electrical contacts) electrically connectable with the electrode pads 4, and the number of the electrical terminals 55 corresponds to the number of the electrode pads 4. In this embodiment, five electrical connecting portions (electrical terminals) 55 are provided corresponding to the five electrode pads 4, but the numbers are not limited to five. It will suffice if a plurality of electrical connecting portions (electrical terminals) 55 are provided corresponding to the plurality of electrode pads 4. The electrical connecting portions (electrical terminals) 55 are electrically connected with the controller 35 of the printer main assembly 30.
As shown in
As shown in
The ejection spring 57 is an urging member for contacting to the ejection spring contact portion 23 of the front surface 2c of the ink cartridge and to elastically urge the ink cartridge 1 in the cartridge dismounting direction in order to dismount the ink cartridge 1 from the mounting portion 33. The ejection spring 57 is a coil spring provided so as to surround the unsealing pin 51 and expandable and contractable in the Y axis direction. The ejection spring 57 is in the expanded state when it is not contacted by the ink cartridge, and is contracted with the mounting of the ink cartridge. In the dismounting of the cartridge, the ink cartridge 1 is moved in the cartridge dismounting direction by the expansion of the ejection spring 57. By this movement, the connected state between the electrical contact 4 and the electrical connecting portion 55, the fluid-communication state between the ink accommodating chamber 11 and the ink receiving tube 52, the engaged state (connected state) between the positioning portion 6 and the positioning pin 53, the connected state between the tube inserting opening 8 and the ink receiving tube 52 (the state that the ink receiving tube 52 is inserted in the tube inserting opening 8) are broken, so that the ink cartridge is placed in a dismountable state.
In this example, the function of the ejection spring 57 is to break (1) connected state between the electrical contact 4 and the electrical connecting portion 55, (2) the fluid-communication state between the ink accommodating chamber 11 and the ink receiving tube 52, (3) the engaged state between the positioning portion 6 and the positioning pin 53 (the state that the positioning pin 53 is inserted in the positioning portion 6) and (4) the inserted state in which the ink receiving tube 52 is inserted in the tube inserting opening 8, are broken, in addition to the movement of the ink cartridge in the dismounting direction with the release of the engaged state between the engaging portion 24 and the locking portion 54. It is possible that the ink cartridge is dismounted even when a part of the ink receiving tube 52 remains in the tube insertion path 22, or a part of the positioning pin 53 remains in the positioning portion 6, for example, and the dismounting operation of the ink cartridge by the user is made easy if the ink cartridge is moved in the dismounting direction. It will suffice if the ejection spring 57 is capable of applying the urging force for moving the ink cartridge in the dismounting direction. Therefore, the force receiving portion 23 for receiving the urging force from the ejection spring 57 preferably receives from the ejection spring 57 the force urging the ink cartridge 1 in the dismounting direction to break the connected state, the fluid-communication state, the engagement and the inserted state, but such a structure is not restricted to the present invention, and it will suffice if the ink cartridge 1 is capable of receiving the force for moving the ink cartridge in the dismounting direction.
The discrimination member 60 is the projection configuration portion engageable with the recess which is the discrimination portion 9 of the ink cartridge. The positions of the projections of different mounting portions are different from each other to prevent mounting of non-corresponding color ink cartridges. That is, the discrimination member 60 engages with the discrimination portion 9 only of the corresponding color ink cartridge, and does not engage with a discrimination portion 9 of another color ink cartridge.
The above-described unsealing pin 51, ink receiving tube 52, positioning pin 53, electrical terminal 55, positioning walls 56, ejection spring 57 and discrimination member 60 are arranged in the positional relation shown in
As shown in
As shown in
As shown in
On the other hand, when the ink cartridge 1 is dismounted from the mounting portion 33, the user moves the locking lever 58 to disengage the locking projection 54 of the locking lever 58 from the engaging portion 24 of the ink cartridge 1. When the engaged state is released, the ink cartridge 1 is moved in the dismounting direction by the urging force of the ejection spring 57, by which the ink cartridge becomes dismountable.
As shown in part (a) of
When the ink cartridge 1 this is further inserted against the urging force of the ejection spring 57, the recess of the discrimination portion 9 of the ink cartridge 1 is checked in effect as to whether or not it matches the projection of the discrimination member 60 of the mounting portion 33. If the correspondence (correspondence in the color) between the ink cartridge 1 and the mounting position is correct, the recess of the discrimination portion 9 and the projection of the discrimination member 60 are complementary with each other, and therefore, the ink cartridge 1 can be further inserted. On the other hand, if the correspondence (correspondence in the color) between the ink cartridge 1 and the mounting position is not correct, the recess of the discrimination portion 9 and the projection of the discrimination member 60 are not complementary with each other, and therefore, the ink cartridge 1 cannot been inserted any further. At this stage, the air vent sealing film 17 or the tube inserting opening sealing film 18 are not yet unsealed. Therefore, if the ink cartridge is inserted into a wrong mounting position, the air vent sealing film 17 and the tube inserting opening sealing film 18 are kept unsealed.
The ink cartridge 1 is further inserted after the engagement between the discrimination portion 9 and the discrimination member 60, the tube inserting opening sealing film 18 is unsealed by the free end of the ink receiving tube 52, and the ink receiving tube 52 is inserted into the tube inserting opening 8. Then, the positioning pin 53 is inserted into the positioning portion 6, and two position regulation surfaces 10 are sandwiched between the two positioning walls 56, so that the positional deviation is suppressed thereafter. By the two position regulation surfaces 10, the position regulation is effected at two positions adjacent to the bottom surface, and by the positioning portion 6, the position regulation is effected at one position above the two position regulation surfaces 10, so that the movement of the ink cartridge 1 is generally limited in the directions (X axis direction, Z axis direction) along the front surface (XZ flat surface) 2c of the ink cartridge 1 and the θy direction.
Subsequently, the air vent sealing film 17 is unsealed by the unsealing pin 51 piercing into the through-opening 27, and the unsealing pin 51 is inserted into the air vent 7. Then, the ink receiving tube 52 is inserted into the slit of the sealing member 19 provided in the tube insertion path 22, by which the ink accommodating chamber 11 and the ink receiving tube 52 are brought into fluid communication with each other. Thereafter, the electrical contacts 4 are brought into contact to the electrical connecting portion 55.
Finally, the ink cartridge is pushed in until the engaging portion 24 is engaged with the locking projection 54, by which the ink cartridge 1 is fixed, and the mounting operation is completed, as shown in part (b) of
On the other hand, as described hereinbefore, when the ink cartridge 1 is dismounted from the mounting portion 33, the locking lever 58 is rotated to disengage the locking projection 54 from the engaging portion 24. When the engaged state is disestablished, the ink cartridge 1 is pushed back by the urging force of the ejection spring 57 to the position shown in part (a) of
The connection steps between the ink cartridge and the printer main assembly having been described in conjunction with
As shown in
In this embodiment, the electrical contacts 4 are provided on the surface crossing with the inserting direction of the cartridge (XZ surface perpendicular to the Y axis direction in the example of
As shown in
In this embodiment, the engaging portion 24 is disposed in a position closer to the electrical contact than to the tube inserting opening 8, and therefore, the satisfactory connection between the ink cartridge and the printer main assembly can be easily accomplished. That is, regarding the connection between the ink cartridge and the printer main assembly, the movement tolerable range of electrical contact in the front-rear direction (Y axis direction) is narrower than that of the tube inserting opening 8. In the other words, the tolerance of the electrical contact 4 is smaller than that of the tube inserting opening 8, with respect to the deviation in the front-rear direction (Y axis direction) of the cartridge. On the other hand, upon the engagement (locking) between the engaging portion 24 and the locking portion 54, the movement may occur in the front-rear direction with the movement of the casing 2 about the engaging portion 24 in a θx direction. It is preferable that the positional relations between the engaging portion 24, the tube inserting opening 8 and the electrical contact are selected such that the movement distance of the electrical contact 4 of the casing 2 in the front-rear direction with the movement of the casing 2 in the θx direction about the engaging portion 24 is smaller than that of the tube inserting opening 8. In order to accomplish this, it is preferable that the engaging portion 24 is provided on the upper surface 2a, so that the engaging portion 24 is disposed in the position closer to the electrical contacts 4 than to the tube inserting opening 8. If the engaging portion is provided on the bottom surface as disclosed in International Publication 2012-054050, the engaging portion is not closer to the electrical contact than to the tube inserting opening, and therefore, the above-described advantageous effects are not provided.
In addition, in this embodiment, as shown in
In this embodiment, the plurality of electrode pads 4 are arranged in the horizontal direction (widthwise direction of the cartridge, X axis direction) on the surface (preferably XZ surface) crossing with the cartridge mounting direction (Y axis direction). As described hereinbefore, when the ink cartridge is mounted, the movement of the cartridge in the direction (X axis direction or Z axis direction) along the front surface 2c and the θy direction are limited by the position regulation surface 10 provided adjacent to the bottom surface and the positioning portion 6 provided thereabove, when the ink cartridge is mounted. However, the movement in the θx direction occurs to a some extent. When the movement in the θx direction occurs, the lower end side of the substrate 3 is farther from the electrical connecting portion 55 in the Y axis direction than the upper end side. In other words, the deviation amount of the substrate 3 is larger in the lower end side than in the upper end side. Therefore, with the structure in which the plurality of electrode pads are arranged along the cartridge height direction (Z axis direction), the deviation amounts of the different electrode pads from the electrical terminal 55 are significantly different, and therefore, the contact pressures are different correspondingly, with the possible result of difficulty in assuring the stabilized electrical connection. If the entirety design is carried out to suit the contact pressure proper between the upper end side electrode pad of the substrate and the main assembly side electrical terminal 55, the contact pressure may be too low between the lower end side electrode pad and the main assembly side electrical terminal. On the other hand, if the entirety design is carried out to suit the contact pressure proper between the lower end side electrode pad of the substrate and the main assembly side electrical terminal 55, the contact pressure may be too high between the upper end side electrode pad and the main assembly side electrical terminal. If the main assembly side electrical terminals are designed to suit the respective electrode pads, the part have to be separate parts with the result in the increase in cost and design load. On the contrary, according to this embodiment in which the plurality of electrode pads are arranged in the horizontal direction (widthwise direction of the cartridge, X axis direction), even if the movement in the θx direction is produced, the deviation amounts from the electrical terminals 55 are not significantly different from each other, and therefore, the above-described disadvantages will not result.
With this structure of this example in which the movement in the θx direction may occur, the positional deviation may be produced in the Z axis direction. In this case, the size of the electrode pad is to be designed, taking the positional deviation in the Z axis direction into account. If the electrode pads are arranged along the Z axis direction, the substrate size in the Z axis direction is relatively large because of the size of the electrode pad. When the size of the electrode pad and/or the substrate is large, the possibility of deposition of the ink and/or foreign matter which may be a cause of the failure of the substrate increases, and in addition, the possibility of the user contacting the substrate also increases. Furthermore, the increase in cost arises. According to this embodiment, the substrate size measured in the Z axis direction can be made smaller than that in the case in which the electrode pads are arranged along the Z axis direction.
With the structure of this embodiment in which the electrical contacts 4 are arranged in the horizontal direction (widthwise direction of the cartridge, X axis direction), even if the ink or liquid deposited on the main assembly side electrical connecting portion 55 is transferred onto the electrical contacts of the ink cartridge, the possibility of the short circuit between the electrical contacts due to the bridge of the ink or liquid therebetween is lower than in the case in which the electrical contacts are arranged in the cartridge height direction (Z axis direction).
For example, when an empty cartridge from which the ink has been used up is dismounted, and a fresh cartridge is mounted, the user might remount the empty cartridge erroneously. If the liquid leaks from the empty cartridge when the empty cartridge is dismounted, the liquid or ink may be deposited on the electrical contact of the empty cartridge. Then, the liquid and/or ink deposited on the empty cartridge may be transferred onto the main assembly side electrical connecting portion 55. If the fresh cartridge is mounted thereafter, the liquid and/or ink now deposited on the main assembly side electrical connecting portion 55 may be transferred onto the electrical contact 4 of the fresh cartridge.
In another case, in the case of an ink jet printer with which the printing operation can be carried out under the condition that a great amount of ink mist is produced, the ink mist floating in the printer main assembly may be deposited on the printer main assembly side electrical connecting portion 55. If this occurs, when the fresh ink cartridge is mounted to the printer main assembly, the ink mist deposited on the electrical connecting portion 55 of the printer main assembly side may be transferred onto the electrical contact 4 of the cartridge. And, the ink transfer amount may be great.
In such a case, if the electrical contacts 4 are arranged in the cartridge height direction (Z axis direction), the liquid deposited on the upper side electrical contact 4 may fall to the lower side electrical contact 4 with the result of short circuit between the upper and lower electrical contacts 4. The short circuit may lead to a malfunction of the electrical contacts. On the other hand, according to this embodiment, the electrical contacts 4 are arranged in the widthwise direction (X axis direction) of the cartridge, and therefore, if the liquid deposited on the electrical contact 4 falls, the possibility of the short-circuit between the electrical contacts is lower than in the case that the electrical contacts 4 are arranged in the cartridge height direction (Z axis direction).
As shown in
In this embodiment, the ejection spring contact portion 23 is disposed between the tube inserting opening 8 and the electrical contact 4, more particularly between the tube inserting opening 8 and the positioning portion 6, and therefore, the ejection spring contact portion 23 is not remote from the tube inserting opening 8, the electrical contact 4 and the positioning portion 6. Therefore, in addition to the disconnection between the ink receiving tube 52 and the sealing member 19, the smooth disconnection is easily accomplished as to the engagement between the positioning portion 6 and the positioning pin 53 and as to the connection between the electrical contact 4 and the electrical connecting portion 55.
In addition, as shown in
Furthermore, as shown in
A major difference between the black ink cartridge 1Bk and the color ink cartridge is that the width of the black ink cartridge 1Bk is larger than those of the color ink cartridges, and that the cartridge interface portions are offset to one side (more particularly to the right side) of the front surface. By the offset structure, the width of the cartridge interface portions of the black cartridge is the same as those of the color cartridges. By this, the size and the general structure of the joint unit 59 can be made common between the black and the other colors.
The specific structures of the ink cartridge is merely an example of this embodiment, and this embodiment is not limited to the exemplary specific structures. It is possible to modify the structure of the ink cartridge of this embodiment in various aspects. Some of such modified examples will be described.
The arrangement of the electrical contacts (electrode pads) on the substrate of this embodiment is not limited to that shown in
In
The configuration of the casing (body of the cartridge) 2 of this embodiment is not restricted to the rectangular parallelepiped shape shown in
For example, as shown in part (a) of
In the mounting method for mounting the substrate 3 usable in this embodiment, the substrate 3 is directly mounted on the casing 2 as shown in
(Surface on which Electrical Contacts are Arranged)
The examples shown in
As described hereinbefore, in this embodiment, it will suffice if the electrode pads 4 are provided in the position capable of connecting with the electrical terminals 55 shown in
Referring to
As shown in
As shown in
The mounting operation of the ink cartridge in this embodiment is as shown in
As shown in part (a) of
As described, in the second embodiment, too, similarly to the first embodiment, the cartridge side interface portions are properly connected with the printer main assembly side interface portions.
The structures of this embodiment shown in
Referring to
As will be understood from
The size of the casing 1802 is larger than that of the casing 2 of the first embodiment. More particularly, the size (height) of the casing 1802 in the Z axis direction is larger than that of the casing 2 of the first embodiment, and the size (depth) of the casing 1802 in the Y axis direction is larger than that of the casing 2 of the first embodiment. For example, in the example of the sizes of the casing 1802, the height is approx. 7.8 cm, the depth is approx. 9.5 cm which are larger than the height of approx. 4.7 cm and the depth of approx. 8.4 cm of the casing 2 of the first embodiment, respectively. On the other hand, the size (width) of the casing 1802 measured in the X axis direction is the same as that of the casing 2 of the first embodiment (approx. 1.6 cm, for example). The specific dimensions are merely preferable examples, and this embodiment is not limited to such dimensions.
The casing 1802 has a generally rectangular parallelepiped shape having six major sides. The left surface 2e and the right-hand surface 2f of the 6 surfaces have the maximum area, and the front surface (front side) 2c and the rear surface (rear side) 2d have the minimum area. The relationship of the areas of the six sides is the front surface 2c and the rear surface 2d<upper surface 2a and the lower surface (bottom surface) 2b<the left surface 2e and right-hand surface 2f The areas of the left surface 2e and the right-hand surface 2f are approx. 74.10 (=7.8×9.5) cm̂2 The areas of the upper surface 2a and the lower surface 2b are approx. 15.20 (=1.6×9.5) cm̂2. The areas of the front surface (front side) 2c and the rear surface (rear side) is each approx. 12.48 (=1.6×7.8) cm̂2.
As described above, the positional relation in the cartridge side interface portions are the same as that of the first embodiment, and for example, the tube inserting opening 8, the through-opening 27, the positioning hole 6 and the substrate 3 are disposed in the order named from the bottom side toward the upper side. However, as contrasted to the ink cartridge 1 of the first embodiment, in the ink cartridge 1801 according to the third embodiment, the electrical contacts 4 are disposed in the neighborhood of the center of the front surface 1802c in the height direction. More particularly, the electrical contacts are disposed slightly above the center portion of the front surface 1802c with respect to the height direction. That is, the electrical contacts 4 are disposed on the positions in an upper side of the front surface 1802c (the portion above the center with respect to the height direction) and closer to the center portion than to the upper surface. With such a structure, the relative positional relationship between the tube inserting opening 8, the electrical contact and the engaging portion 24 are the same as that of the first embodiment. More particularly, even if the electrical contacts 4 are provided adjacent to the neighborhood of the center of the front surface 1802c, the engaging portion 24 it is still disposed in the position closer to the electrical contacts 4 than to the tube inserting opening 8, and therefore, the advantageous effects of the first embodiment are provided. In the third embodiment, the engaging portion 24 is provided on the upper surface 1802a (more particularly, the position closer to the front surface 1802a than to the rear surface 1802d on the upper surface 1802a) in order to dispose engaging portion 24 in the position closer to the electrical contact than to the tube inserting opening 8, but the structure for disposing the engaging portion 24 to the position closer to the electrical contact the than to the tube inserting opening 8 is not limited to the above-described structure.
In addition, in the third embodiment, the positioning portion 6 is disposed in the position closer to the electrical contact than to the tube inserting opening 8, similarly to the first embodiment, and therefore, the advantageous effects similar to those of the first embodiment in this respect are provided in the third embodiment. Similarly to the first embodiment, the electrical contacts 4 are arranged along the X axis direction in the third embodiment, and therefore, the same advantageous effects similar to the first embodiment in this respect can be provided in the third embodiment.
The mounting operation of the ink cartridge 1801 in the third embodiment is shown in
As shown in part (a) of
As described, in the third embodiment, too, similarly to the first embodiment, the cartridge side interface portions are properly connected with the printer main assembly side interface portions.
A major difference between the black ink cartridge 1801Bk and the color ink cartridge 1801 is that the width of the black ink cartridge 1801Bk is larger than those of the color ink cartridges, and that the cartridge interface portions are offset to one side (more particularly to the right side) of the front surface. By the offset structure, the width of the cartridge interface portions of the black cartridge is the same as those of the color cartridges. By this, the size and the general structure of the joint unit 59 can be made common between the black and the other colors.
Referring to
In the foregoing embodiments, in order to provide the engaging portion 24 in the position closer to the electrical contact than to the tube inserting opening 8, the engaging portion 24 is placed on the upper surface of the casing, but the structure of placing the engaging portion 24 in the position closer to the electrical contact than to the tube inserting opening 8 is not limited to the structures of the foregoing embodiments. The engaging portion may be disposed in the position closer to the electrical contact than to the tube inserting opening 8, by placing the engaging portion in a portion different from the upper surface of the casing. In order to place the engaging portion 24 in the position closer to the electrical contact 4 than to the tube inserting opening 8, it is preferable that the engaging portion is placed in a position closer to the upper surface than to the bottom surface.
As shown in
In this embodiment, the engaging portion is provided in a portion different from the upper surface of the casing, as shown in
As will be understood from the description of this embodiment, the engaging portion used in the present invention is not limited to the recess configuration, but it may be a projected configuration as shown in
Referring to
The mounting operation of the ink cartridge 301 of the fifth embodiment is shown in
Similarly to the area 24a shown in
Referring to
The mounting operation of the ink cartridge 401 in the sixth embodiment is shown in
Similarly to the area 24a shown in
Referring to
The mounting operation of the ink cartridge 501 in the seventh embodiment is shown in
Referring to
The mounting operation of the ink cartridge 601 according to the eighth embodiment is shown in
Referring to
The mounting operation of the ink cartridge 701 according to the ninth embodiment is shown in
Referring to
The electrical contact 4 shown in
Referring to
With this structure of
The electrical contact 4 shown in
Referring to
With this structure shown in
In the non-use state of the cartridge, the electrical contact 1004 shown in
Referring to
With this structures shown in
The electrical contacts 1104 and 1204 shown in
Referring to
With this structure of
As is different from the substrates 3 shown in
Referring to
In addition, an ink cartridge 1501 shown in part (b) of
The ink cartridge 1601 shown in part (c) of
As described above, the positioning portion of the present invention is not limited to the positioning hole 6 provided in the front surface 2c of the casing 2 of the first embodiment. The positioning portion 6 may be any if it can act on the positioning pin 53 to position the ink cartridge.
Referring to
Referring to
When the ink cartridge 1901 is to be dismounted from the cartridge mounting portion 33, the rear side end portion 1927 of the engagement lever 1926 is raised (Z axis direction). By this, the engaged state between the engaging portion 1924 and the engageable member 1954 is released, by which the ink cartridge 1901 is moved in the dismounting direction by the urging force of the ejection spring 57, thus permitting the user to dismount the ink cartridge 1901 from the cartridge mounting portion 33. When the user operates the locking lever 1926 to disengage the engaging portion 1924 from the engageable member 1954, the ink cartridge 1901 is moved in the dismounting direction by the spring force, and at this time, a hand of the user is in the neighborhood of the dismounting position, and therefore, if the spring force is strong, the ink cartridge 1901 popped out by the spring force can be easily caught by the hand of the user, and the stronger popping out of the ink cartridge 1901 than is necessary can be suppressed.
As will be understood from the description of this embodiment, the engaging portion usable in the ink cartridge of the present invention is not limited to the structure engageable with the locking lever 58 of the cartridge mounting portion 33. The engaging portion may be replaced with any of various structures engageable with the element of the cartridge mounting portion 33.
Referring to
The ink cartridge 2001 shown in part (a) of
With such a structure, no positioning portion 6 or positioning pin 53 is provided, and therefore, the ink cartridge 2001 is positioned by the tube inserting opening 8 and the ink receiving tube 52 and by the position regulation surface 10 and the positioning wall 56. For this reason, the accuracy of the positioning is it not as good as in the first embodiment. However, the engaging portion 24 is disposed in the position closer to the electrical contact 4 than to the tube inserting opening 8, and the engaging portion 24 is disposed in the position of the upper surface 2c or adjacent to the upper surface which is close to the electrical contact 4, similarly to the first embodiment, and therefore, the same advantageous effects as of the first embodiment can be provided in these respects.
With the structure of part (a) of
The ink cartridge 2101 shown in part (b) of
The ink cartridge 2201 shown in part (c) of
The ink cartridge 2301 shown in part (d) of
The preferable aspects of the ink cartridge or the ink jet printer of the embodiments having been described in the foregoing are as follows.
An ink cartridge mountable, in a mounting direction crossing with a direction of gravity, to a cartridge mounting portion provided with an ink receiving tube and a plurality of electrical connecting portions, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to said ink receiving tube, said casing having a first side surface in a position at a leading end with respect to the mounting direction, an upper surface and a bottom surface;
a tube inserting portion into which the ink receiving tube is insertable and which is provided at said first side surface in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing and having an area above said tube inserting portion, the area crossing with the mounting direction; and
a plurality of electrical contacts electrically connectable with the plurality of electrical connecting portions, said electrical contacts being arranged in the area in a direction crossing with a direction of height which is from said bottom surface toward said upper surface.
An ink cartridge according to Aspect 1, wherein said area of said substrate is parallel with said first side surface.
An ink cartridge according to Aspect 1 or 2, wherein said substrate is provided on said first side surface.
(Aspect 4) An ink cartridge according to Aspect 1, wherein said area of said substrate is inclined relative to said first side surface and to said upper surface.
An ink cartridge according to Aspect 1 or 4, wherein said substrate is provided on an inclined surface between said first side surface and said upper surface.
An ink cartridge mountable, in a mounting direction crossing with a direction of gravity, to a cartridge mounting portion provided with an ink receiving tube and a plurality of electrical connecting portions, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to said ink receiving tube, said casing having a first side surface in a position at a leading end with respect to the mounting direction, an upper surface and a bottom surface;
a tube inserting portion into which the ink receiving tube is insertable and which is provided at said first side surface in a position closer to said bottom surface than to said upper surface; and
a substrate provided on said upper surface; and
a plurality of electrical contacts provided on said substrate and electrically connectable the plurality of electrical connecting portions,
wherein each of said electrical contacts has an area crossing with the mounting direction, and the areas of said electrical contacts are arranged in a direction crossing with a direction of height which is from said bottom surface toward said upper surface.
An ink cartridge according to Aspect 1 or 6, wherein the direction crossing with the direction of height is a horizontal direction perpendicular to the direction of height.
An ink cartridge according to Aspect 1 or 7, wherein said casing has a second side surface at a trailing end portion with respect to the mounting direction, a third side surface connected with said first side surface, said second side surface, said upper surface and said bottom surface, a fourth side surface opposite from the third side surface across said ink accommodating chamber and connected with said first side surface, said second side surface, said upper surface and said bottom surface, and wherein the direction crossing with the direction of height is perpendicular to said third side surface and to said fourth side surface.
An ink cartridge according to Aspect 8, wherein said third side surface has a area larger than that of any one of said first side surface, said second side surface, said upper surface and said bottom surface, and said fourth side surface has an area larger than that of any one of said first side surface, said second side surface, said upper surface and said bottom surface, and wherein said first side surface has an area smaller than that of any one of said third side surface, said fourth side surface, said upper surface and said bottom surface, and said second side surface has an area smaller than that of any one of said third side surface, said fourth side surface, said upper surface and said bottom surface.
An ink cartridge mountable, in a mounting direction crossing with a direction of gravity, to a cartridge mounting portion provided with an ink receiving tube and a plurality of electrical connecting portions, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to said ink receiving tube, said casing having a first side surface in a position at a leading end with respect to the mounting direction, a second side surface in a position at a trailing end with respect to the mounting direction, a third side surface connecting said first side surface and said second side surface with each other, a fourth side surface opposite from said third side surface across said ink accommodating chamber and connecting said first side surface and said second side surface with each other, an upper surface and a bottom surface;
a tube inserting portion into which the ink receiving tube is insertable and which is provided at said first side surface in a position closer to said bottom surface than to said upper surface;
a substrate provided on said first side surface in a position above said tube inserting portion; and
a plurality of electrical contacts electrically connectable with the plurality of electrical connecting portions, said electrical contacts being arranged on said substrate in a direction perpendicular to said third side surface and to said fourth side surface.
An ink cartridge according to Aspect 10, wherein said third side surface has a area larger than that of any one of said first side surface, said second side surface, said upper surface and said bottom surface, and said fourth side surface has an area larger than that of any one of said first side surface, said second side surface, said upper surface and said bottom surface, and wherein said first side surface has an area smaller than that of any one of said third side surface, said fourth side surface, said upper surface and said bottom surface, and said second side surface has an area smaller than that of any one of said third side surface, said fourth side surface, said upper surface and said bottom surface.
An ink cartridge according to Aspect 1 or 10, further comprising a tube insertion path provided in said casing and connecting said tube inserting portion and said ink accommodating chamber with each other, and an elastic member provided in said tube insertion path and elastically deformable in accordance with insertion of the ink receiving tube into said tube insertion path.
An ink cartridge according to Aspect 12, wherein said elastic member includes a rubber member contactable to an outer peripheral surface of the ink receiving tube inserted in said tube insertion path.
An ink cartridge according to Aspect 1 or 13, further comprising an engaging portion engageable with a locking lever provided in said cartridge mounting portion to maintain an inserted state in which the ink receiving tube is inserted in said tube inserting portion and a connected state in which said electrical contacts are connected with the electrical connecting portions.
An ink cartridge according to Aspect 14, wherein said engaging portion is disposed in the position close to said upper surface than to said bottom surface.
An ink cartridge according to Aspect 14, wherein said engaging portion is disposed on said upper surface.
An ink cartridge according to Aspect 14 or 16, wherein said engaging portion is a recess engageable with a projection of the locking lever.
An ink cartridge according to Aspect 14 or 17, wherein the engaging portion is provided in the position close to said electrical contacts than to said tube inserting portion.
An ink cartridge according to Aspect 1 or 18, further comprising a positioning portion provided in a position above said tube inserting portion and below said electrical contacts and engageable with a positioning member provided in the cartridge mounting portion to limit movement of said casing in a direction perpendicular to the mounting direction.
An ink cartridge according to Aspect 19, wherein said positioning portion is disposed in a position closer to said electrical contacts than to said tube inserting portion.
An ink cartridge according to Aspect 20, wherein said positioning portion includes a positioning opening into which the positioning member is inserted, and said positioning opening provided in said first side surface.
An ink cartridge according to Aspect 19 or 21, wherein the direction perpendicular to the mounting direction is a direction of height which is from said bottom surface toward said upper surface.
An ink cartridge according to Aspect 19 or 21, wherein the direction perpendicular to the mounting direction is along said first side surface.
An ink cartridge comprising:
a casing including a plurality of side surfaces, an upper surface and bottom surface as defined on the basis of use state of said ink cartridge and provided with an ink accommodating chamber and the ink discharge opening configured to discharge the ink from said ink accommodating chamber to an outside, said side surface including a first side surface, said ink discharge opening being provided at said first side surface in a position closer to said bottom surface than to said upper surface;
a substrate provided on said first side surface; and
a plurality of electrical contacts provided above said ink discharge opening, said electrical contacts being arranged in a direction crossing with a direction of height which is from said bottom surface toward said upper surface.
An ink cartridge comprising:
a casing including a plurality of side surfaces, an upper surface and bottom surface as defined on the basis of use state of said ink cartridge and provided with an ink accommodating chamber and the ink discharge opening configured to discharge the ink from said ink accommodating chamber to an outside, said side surface including a first side surface, said ink discharge opening being provided at said first side surface in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing and having an area crossing with a normal line of said first side surface; and
a plurality of electrical contacts provided above said ink discharge opening, said electrical contacts being arranged in the area in a direction crossing with a direction of height which is from said bottom surface toward said upper surface.
An ink cartridge according to Aspect 24 or 25, wherein said plurality of side surfaces further include a second side surface opposite from said first side surface across said ink accommodating chamber, a third side surface connecting said first side surface and said second side surface with each other, a fourth side surface opposite from said third side surface across said ink accommodating chamber and connecting said first side surface and said second side surface with each other, and wherein the direction crossing with the direction of height is perpendicular to said third side surface and to said fourth side surface.
An ink cartridge according to Aspect 26, wherein wherein said third side surface has a area larger than that of any one of said first side surface, said second side surface, said upper surface and said bottom surface, and said fourth side surface has an area larger than that of any one of said first side surface, said second side surface, said upper surface and said bottom surface, and wherein said first side surface has an area smaller than that of any one of said third side surface, said fourth side surface, said upper surface and said bottom surface, and said second side surface has an area smaller than that of any one of said third side surface, said fourth side surface, said upper surface and said bottom surface)
An ink cartridge according to Aspect 24 or 27, further comprising an engaging portion provided in a position closer to said electrical contacts than to said ink discharge opening)
An ink cartridge according to Aspect 28, wherein said engaging portion is disposed in the position close to said upper surface than to said bottom surface)
An ink cartridge according to Aspect 28, wherein said engaging portion is disposed on said upper surface.
An ink cartridge according to Aspect 28 or 30, wherein said engaging portion includes a recess having an area crossing with a direction parallel with a normal line of said substrate.
An ink cartridge according to Aspect 24 or 31, further comprising a hollow path provided in said casing and connecting said ink accommodating chamber and said ink discharge opening with each other, and a rubber member provided in said hollow path.
An ink cartridge comprising:
a casing having a substantially rectangular parallelepiped shape and including an ink accommodating chamber, said casing including (a) a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, (b) a second surface opposite from said first surface across said ink accommodating chamber, (c) a third surface crossing with said first surface and said second surface and having an area larger than those of said first surface and said second surface, (d) a fourth surface opposite from said third surface across said ink accommodating chamber and having an area larger than those of said first surface and said second surface, (e) a fifth surface crossing with said first surface, said second surface, said third surface and said fourth surface and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, (f) a sixth surface opposite from said fifth surface across said ink accommodating chamber and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, and (g) said ink discharge opening being disposed closer to said third surface than to said fourth surface;
a substrate provided on said first surface in a position above said ink discharge opening in a state that said third surface is a bottom surface; and
a plurality of electrical contacts provided on said substrate, said electrical contacts and being arranged in a direction crossing with a direction from said third surface toward said fourth surface.
An ink cartridge according to Aspect 33, wherein the direction from said third surface toward said fourth surface is perpendicular to said fifth surface and to said sixth surface.
An ink cartridge according to Aspect 33 or 34, further comprising an engaging portion in the form of a recess having an area crossing with a direction parallel with a normal line of said substrate, said engaging portion being provided in a position closer to said electrical contacts than to said ink discharge opening.
An ink cartridge according to Aspect 35, wherein said engaging portion is disposed on said fourth surface in the position closer to said first surface than to said second surface.
An ink cartridge according to Aspect 24 or 36, further comprising a hollow path provided in said casing and connecting said ink accommodating chamber and said ink discharge opening with each other, and a rubber member provided in said hollow path.
An ink cartridge comprising:
a casing including an ink accommodating chamber, an ink discharge opening configured to discharge ink from said ink accommodating chamber, a hollow path connecting said ink accommodating chamber and said ink discharge opening, said casing including a side surface provided with said ink discharge opening, an upper surface and a bottom surface, said ink discharge opening being provided in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing; and
a plurality of electrical contacts provided on said substrate, said electrical contacts being arranged in a direction crossing with a direction of height which is from said bottom surface toward said upper surface,
wherein each of said electrical contacts is disposed above said ink discharge opening and has an area crossing with a direction parallel with a direction in which said hollow path extends.
An ink cartridge comprising:
a casing including a ink accommodating chamber, a side surface provided with a ink discharge opening configured to discharge ink from said ink accommodating chamber to a outside, a upper surface and a bottom surface, said ink discharge opening being disposed in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing; and
a plurality of electrical contacts provided on said substrate, said electrical contacts being arranged in a direction crossing with a direction of height which is from said bottom surface toward said upper surface,
wherein each of said electrical contacts is disposed above said ink discharge opening and has an area crossing with a direction parallel with a center line of said ink discharge opening.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a side surface having a formation region in which an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, an upper surface and a bottom surface, said ink discharge opening being disposed in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing; and
a plurality of electrical contacts provided on said substrate, said electrical contacts being arranged in a direction crossing with a direction of height which is from said bottom surface toward said upper surface,
wherein each of said electrical contacts is disposed above said ink discharge opening and has an area crossing with a direction parallel with a normal line of said formation region.
An ink cartridge according to Aspect 38 or 40, wherein said casing has a second side surface opposite from said first mentioned side surface across said ink accommodating chamber, a third side surface connecting said first mentioned side surface and said second side surface with each other, a fourth side surface opposite from said third side surface a cross said ink accommodating chamber and connecting said first mentioned side surface and said second side surface, and wherein the direction crossing with the direction of height is perpendicular to said third side surface and said fourth side surface.
An ink cartridge according to Aspect 41, wherein said third side surface has a area larger than any one of said first mentioned side surface, said second side surface, said upper surface and said bottom surface, and said fourth side surface has an area larger than any one of said first mentioned side surface, said second side surface, said upper surface and said bottom surface, and wherein said first mentioned side surface has an area smaller than any one of said third side surface, said fourth side surface, said upper surface and said bottom surface, and said second side surface has an area smaller than any one of said third side surface, said fourth side surface, said upper surface and said bottom surface.
An ink cartridge according to Aspect 38 or 42, further comprising an engaging portion provided in a position closer to said electrical contacts than to said ink discharge opening.
An ink cartridge according to Aspect 43, wherein said engaging portion is disposed in the position close to said upper surface than to said bottom surface.
An ink cartridge according to Aspect 43, wherein said engaging portion is disposed on said upper surface.
An ink cartridge according to Aspect 43 or 45, wherein said engaging portion includes a recess having an area crossing with a direction parallel with a normal line of said substrate.
An ink cartridge according to Aspect 38 or 46, further comprising a hollow path provided in said casing and connecting said ink accommodating chamber and said ink discharge opening with each other, and a rubber member provided in said hollow path.
An ink jet printer comprising:
said ink cartridge including,
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to said ink receiving tube, said casing including (A) a first side surface in a position at a leading end with respect to the mounting direction, a second side surface in a position at a trailing end with respect to the mounting direction, an upper surface and a bottom surface; (B) a tube inserting portion into which the ink receiving tube is insertable and which is provided at said first side surface in a position closer to said bottom surface than to said upper surface; and (C) a substrate provided on said casing and having an area crossing with the mounting direction in a position above said tube inserting portion; and (D) a plurality of electrical contacts electrically connectable with the plurality of electrical connecting portions, said electrical contacts being arranged in the area in a direction crossing with a direction of height which is from said bottom surface toward said upper surface.
An ink jet printer according to Aspect 48, wherein the direction crossing with the direction of height is a horizontal direction perpendicular to the direction of height.
An ink jet printer according to Aspect 48 or 49, wherein said casing has a second side surface at a trailing end portion with respect to the mounting direction, a third side surface connected with said first side surface, said second side surface, said upper surface and said bottom surface, a fourth side surface opposite from the third side surface across said ink accommodating chamber and connected with said first side surface, said second side surface, said upper surface and said bottom surface, and wherein the direction crossing with the direction of height is perpendicular to said third side surface and to said fourth side surface.
An ink cartridge detachably mountable to a cartridge mounting portion provided with an unsealing pin, said ink cartridge comprising:
a casing including (i) an ink accommodating chamber, (ii) an air vent path connected with said ink accommodating chamber and capable of introducing ambient air into said ink accommodating chamber, (iii) a through hole formation wall provided with a through hole into which the unsealing pin is insertable, and (iv) an air vent formation wall provided between said through hole formation wall and said ink accommodating chamber and provided with an air vent disposed at an end portion of said air vent path; and
a sealing film covering said air vent, said sealing film is capable of being unsealed by the unsealing pin having passed through said through hole.
An ink cartridge detachably mountable to a cartridge mounting portion provided with an ink receiving tube and an unsealing pin said ink cartridge comprising:
a casing including (i) an ink accommodating chamber configured to accommodate ink to be supplied through said ink receiving tube, (ii) an air vent path connected with said ink accommodating chamber and capable of being producing ambient air into said ink accommodating chamber, (iii) a tube inserting opening into which said ink receiving tube is insertable, (iv) a through hole into which said unsealing pin is insertable, (v) said casing further including a side wall provided with said tube inserting opening and said through hole, an air vent formation wall provided at a position between said side wall and said ink accommodating chamber and provided with an air vent place in an end portion of said air vent path, a bottom wall and an upper wall;
a sealing film covering said air vent, said sealing film is capable of being unsealed by the unsealing pin having passed through said through hole; and
a second sealing film covering said tube inserting opening, said sealing film being capable of being unsealed by said ink receiving tube.
An ink cartridge detachably mountable to a cartridge mounting portion provided with an unsealing pin, said ink cartridge comprising:
a preparation step of preparing a casing including (i) an ink accommodating chamber, (ii) an air vent path connected with said ink accommodating chamber and capable of introducing ambient air into said ink accommodating chamber, (iii) a through hole formation wall Provided with a through hole into which said unsealing pin is insertable, (iv) an air vent formation wall provided at a position between said through hole formation wall and said ink accommodating chamber and provided with an air vent placed in an end portion of said air vent path; and
a sticking step of sticking a sealing film so as to cover said air vent, said sealing film being capable of being unsealed by unsealing pin having passed through said through hole.
An aspect according to Aspect 53 further comprising an injection step of injecting ink into said ink accommodating chamber after said sticking step.
A manufacturing method for manufacturing an ink cartridge detachably mountable to a cartridge mounting portion provided with an ink receiving tube and an unsealing pin, said method comprising:
a preparation step of preparing a casing including (i) an ink accommodating chamber configured to accommodate ink to be supplied through said ink receiving tube, (ii) an air vent path connected with said ink accommodating chamber and capable of being producing ambient air into said ink accommodating chamber, (iii) a tube inserting opening into which said ink receiving tube is insertable, (iv) a through hole into which said unsealing pin is insertable, (v) said casing further including a side wall provided with said tube inserting opening and said through hole, an air vent formation wall provided at a position between said side wall and said ink accommodating chamber and provided with an air vent place in an end portion of said air vent path, a bottom wall and an upper wall;
a sticking step of sticking a sealing film so as to cover said air vent, said sealing film being capable of being unsealed by unsealing pin having passed through said through hole; and
a second sticking step of sticking a second sealing film covering said tube inserting opening, said sealing film being capable of being unsealed by said ink receiving tube.
An aspect according to Aspect 55 further comprising an injecting step of injecting ink into said ink accommodating chamber after said first sticking step and before said second sticking step.
An ink cartridge mountable to a cartridge mounting portion provided with an ink receiving tube, a electrical connecting portion and a positioning member, in a mounting direction crossing with a direction of gravity, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to the ink receiving tube, said casing including a front surface at a leading side with respect to the mounting direction, an upper surface and a bottom surface;
a tube inserting portion into which the ink receiving tube is insertable and which is provided at said front surface in a position closer to said bottom surface than to said upper surface;
an electrical contact electrically connectable the electrical connecting portion, said electrical contact having an area crossing with the mounting direction in a position above said tube inserting portion; and
a positioning portion provided in a position closer to said electrical contact than to said tube inserting portion above said tube inserting portion and below said electrical contact and engageable with the positioning member to limit movement of said casing in a direction perpendicular to the mounting direction.
A aspect according to Aspect 57, wherein said positioning portion includes a positioning opening into which said positioning member is insertable, said positioning opening being provided at said front side.
An ink cartridge mountable to a cartridge mounting portion provided with an ink receiving tube, an electrical connecting portion, a positioning member, an urging spring and a locking lever, in a mounting direction crossing with a direction of gravity, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to the ink receiving tube and a tube inserting opening into which said ink receiving tube is inserted, said casing including a front surface at a leading side with respect to the mounting direction, an upper surface and a bottom surface, and said tube inserting opening is disposed in a position closer to said bottom surface than to said upper surface adjacent to said front surface;
a substrate provided at said front surface in a position above said tube inserting opening;
an electrical contact provided on said substrate and electrically connectable to the electrical connecting portion; and
a positioning opening into which the positioning member is capable of inserting to limit movement of said casing in a direction along said front side, said positioning opening being provided at said front surface in a position above said tube inserting opening and below said electrical contact in a position closer to said electrical contact than to said tube inserting opening.
An ink cartridge mountable to a cartridge mounting portion provided with an ink receiving tube, an electrical connecting portion and a locking lever, in a mounting direction crossing with a direction of gravity, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to the ink receiving tube, said casing including a front surface at a leading side with respect to the mounting direction, an upper surface and a bottom surface;
a tube inserting portion into which the ink receiving tube is insertable and which is provided at said front surface in a position closer to said bottom surface than to said upper surface;
an electrical contact electrically connectable the electrical connecting portion, said electrical contact having an area crossing with the mounting direction in a position above said tube inserting portion; and
an engaging portion provided in a position closer to said electrical contact than to said tube inserting portion, said engaging portion being engageable with the locking lever to maintain an inserted state in which the ink receiving tube is inserted in said tube inserting portion and a connected state in which said electrical contact is connected with the electrical connecting portion.
An ink cartridge mountable to a cartridge mounting portion provided with an ink receiving tube, an electrical connecting portion and a locking lever, in a mounting direction crossing with a direction of gravity, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to the ink receiving tube and a tube inserting opening into which said ink receiving tube is inserted, said casing including a front surface at a leading side with respect to the mounting direction, an upper surface and a bottom surface, and said tube inserting opening is disposed in a position closer to said bottom surface than to said upper surface adjacent to said front surface;
a substrate provided at said front surface in a position above said tube inserting opening;
an electrical contact provided on said substrate and electrically connectable to the electrical connecting portion; and
an engaging portion provided on said upper surface in a position closer to front surface than to rear surface, said engaging portion is engageable with the locking lever to maintain an inserted state in which the ink receiving tube is inserted in said tube inserting portion and a connected state in which said electrical contact is connected with the electrical connecting portion.
An ink cartridge mountable to a cartridge mounting portion provided with an ink receiving tube, an electrical connecting portion, an urging spring and a locking lever, in a mounting direction crossing with a direction of gravity, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to the ink receiving tube and a tube inserting opening into which said ink receiving tube is inserted, said casing including a front surface at a leading side with respect to the mounting direction, an upper surface and a bottom surface, and said tube inserting opening is disposed in a position closer to said bottom surface than to said upper surface adjacent to said front surface;
a substrate provided at said front surface in a position above said tube inserting opening;
an electrical contact provided on said substrate and electrically connectable to the electrical connecting portion;
a force receiving portion provided on said front surface in a position above said tube inserting opening below said electrical contact and configured to receive from the urging spring an urging force for urging said ink cartridge in a dismounting direction which is opposite the mounting direction; and
an engaging portion provided on said upper surface in a position closer to front surface than to rear surface, said engaging portion is engageable with the locking lever to maintain, against the urging force, an inserted state in which the ink receiving tube is inserted in said tube inserting portion and a connected state in which said electrical contact is connected with said electrical connecting portion.
An ink cartridge mountable to a cartridge mounting portion provided with an ink receiving tube, an electrical connecting portion, a positioning member, an urging spring and a locking lever, in a mounting direction crossing with a direction of gravity, said ink cartridge comprising:
a casing including an ink accommodating chamber configured to accommodate ink to be supplied to the ink receiving tube and a tube inserting opening into which said ink receiving tube is inserted, said casing including a front surface at a leading side with respect to the mounting direction, an upper surface and a bottom surface, and said tube inserting opening is disposed in a position closer to said bottom surface than to said upper surface adjacent to said front surface;
a substrate provided at said front surface in a position above said tube inserting opening;
an electrical contact provided on said substrate and electrically connectable to the electrical connecting portion;
a positioning opening into which the positioning member is capable of inserting to limit movement of said casing in a direction along said front side, said positioning opening being provided at said front surface in a position above said tube inserting opening and below said electrical contact in a position closer to said electrical contact than to said tube inserting opening;
a force receiving portion provided at said front surface in a position above said tube inserting opening below said electrical contact and configured to receive from the urging spring an urging force for urging said ink cartridge in a dismounting direction which is opposite the mounting direction; and
an engaging portion provided on said upper surface in a position closer to front surface than to rear surface, said engaging portion is engageable with the locking lever to maintain, against the urging force, an inserted state in which the ink receiving tube is inserted in said tube inserting portion, a connected state in which said electrical contact is connected with said electrical connecting portion and an inserted state in which the positioning member is inserted in said positioning opening.
An ink cartridge comprising:
a casing including a plurality of side surfaces, an upper surface and bottom surface as defined on the basis of use state of said ink cartridge and provided with an ink accommodating chamber and the ink discharge opening configured to discharge the ink from said ink accommodating chamber to an outside, said side surface including a first side surface and a second side surface at an opposite side from said first side surface across said ink accommodating chamber, said ink discharge opening being provided at said first side surface in a position closer to said bottom surface than to said upper surface;
an electrical contact provided in a position above said ink discharge opening;
a substrate provided at said first side surface and provided with said electrical contact; and
an engaging portion provided at said upper surface in a position closer to said electrical contact than to said ink discharge opening and closer to said first side surface than to said second side surface.
An ink cartridge comprising:
a casing including a plurality of side surfaces, an upper surface and bottom surface as defined on the basis of use state of said ink cartridge and provided with an ink accommodating chamber and the ink discharge opening configured to discharge the ink from said ink accommodating chamber to an outside, said side surface including a first side surface and a second side surface at an opposite side from said first side surface across said ink accommodating chamber, said ink discharge opening being provided at said first side surface in a position closer to said bottom surface than to said upper surface;
an electrical contact provided in a position above said ink discharge opening;
a substrate provided at said first side surface and provided with said electrical contact;
a force receiving portion provided at said first side surface in a position above said ink discharge opening and below said electrical contact and configured to receive an urging force for urging said casing in a direction away from said first side surface toward said second side surface; and
an engaging portion provided at said upper surface in a position closer to said electrical contact than to said ink discharge opening and closer to said first side surface than to said second side surface and configured to receive a limiting force for limiting movement of said casing against the urging force in the direction
An ink cartridge comprising:
a casing including a plurality of side surfaces, an upper surface and bottom surface as defined on the basis of use state of said ink cartridge and provided with an ink accommodating chamber and the ink discharge opening configured to discharge the ink from said ink accommodating chamber to an outside, said side surface including a first side surface and a second side surface at an opposite side from said first side surface across said ink accommodating chamber, said ink discharge opening being provided at said first side surface in a position closer to said bottom surface than to said upper surface;
an electrical contact provided in a position above said ink discharge opening;
a substrate provided at said first side surface and provided with said electrical contact;
a positioning opening provided at said first side surface in a position above said ink discharge opening and below said electrical contact and closer to said electrical contact than to said ink discharge opening;
a force receiving portion provided at said first side surface in a position above said ink discharge opening and below said positioning opening and configured to receive an urging force for urging said casing in a direction away from said first side surface toward said second side surface; and
an engaging portion provided at said upper surface in a position closer to said electrical contact than to said ink discharge opening and closer to said first side surface than to said second side surface and configured to receive a limiting force for limiting movement of said casing against the urging force in the direction.
An ink cartridge comprising:
a casing including a plurality of side surfaces, an upper surface and bottom surface as defined on the basis of use state of said ink cartridge and provided with an ink accommodating chamber and the ink discharge opening configured to discharge the ink from said ink accommodating chamber to an outside, said side surface including a first side surface and a second side surface at an opposite side from said first side surface across said ink accommodating chamber, said ink discharge opening being provided at said first side surface in a position closer to said bottom surface than to said upper surface;
an electrical contact provided in a position above said ink discharge opening;
a substrate provided at said first side surface and provided with said electrical contact;
a positioning opening provided at said first side surface in a position above said ink discharge opening and below said electrical contact and closer to said electrical contact than to said ink discharge opening; and
an engaging portion provided at said upper surface in a position closer to said electrical contact than to said ink discharge opening and closer to said first side surface than to said second side surface.
An ink cartridge comprising:
a casing including an ink accommodating chamber and including a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second surface opposite from said first surface across said ink accommodating chamber, a third surface connecting said first surface and said second surface with each other and having an area larger than those of said first surface and said second surface, and a fourth surface opposite from said third surface across said ink accommodating chamber, said ink discharge opening being disposed in a position closer to said third surface than to said fourth surface;
an electrical contact disposed in a position above said ink discharge opening in the state in which said third surface is a bottom surface;
a substrate provided at said first surface and supporting said electrical contact; and
an engaging portion in the form of a recess and provided at said fourth surface in a position closer to said electrical contact than to said ink discharge opening and closer to said first surface than to said second surface.
An ink cartridge comprising:
a casing including an ink accommodating chamber and including a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second surface opposite from said first surface across said ink accommodating chamber, a third surface connecting said first surface and said second surface with each other and having an area larger than those of said first surface and said second surface, and a fourth surface opposite from said third surface across said ink accommodating chamber, said ink discharge opening being disposed in a position closer to said third surface than to said fourth surface;
an electrical contact disposed in a position above said ink discharge opening in the state in which said third surface is a bottom surface;
a substrate provided at said first surface and supporting said electrical contact;
a force receiving portion provided at said first surface in a position below said substrate and above said ink discharge opening in a state in which said third surface is a bottom surface and configured to receive an urging force for urging said casing in a direction away from said first surface toward said second surface in a state in which said third surface is a bottom surface; and
an engaging portion in the form of a recess and provided at said fourth surface in a position closer to said electrical contact than to said ink discharge opening and closer to said first surface than to said second surface, said engaging portion being capable of receiving a limiting force for limiting movement of said casing in a direction away from said first surface toward second surface.
An ink cartridge comprising:
a casing including an ink accommodating chamber and including a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second surface opposite from said first surface across said ink accommodating chamber, a third surface connecting said first surface and said second surface with each other and having an area larger than those of said first surface and said second surface, and a fourth surface opposite from said third surface across said ink accommodating chamber, said ink discharge opening being disposed in a position closer to said third surface than to said fourth surface;
an electrical contact disposed in a position above said ink discharge opening in the state in which said third surface is a bottom surface;
a substrate provided at said first surface and supporting said electrical contact;
a positioning opening provided at said first surface in a position above said ink discharge opening and below said substrate in a state in which said third surface is a bottom surface and closer to said substrate than to said ink discharge opening and configured to limit movement of said casing in a direction along the first surface;
a force receiving portion provided at said first surface in a position below said positioning opening and above said ink discharge opening in a state in which said third surface is a bottom surface and configured to receive an urging force for urging said casing in a direction away from said first surface toward said second surface in a state in which said third surface is a bottom surface; and
an engaging portion in the form of a recess and provided at said fourth surface in a position closer to said electrical contact than to said ink discharge opening and closer to said first surface than to said second surface, said engaging portion being capable of receiving a limiting force for limiting movement of said casing in a direction from said first surface toward second surface.
An ink cartridge comprising:
a casing including an ink accommodating chamber and including a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second surface opposite from said first surface across said ink accommodating chamber, a third surface connecting said first surface and said second surface with each other and having an area larger than those of said first surface and said second surface, and a fourth surface opposite from said third surface across said ink accommodating chamber, said ink discharge opening being disposed in a position closer to said third surface than to said fourth surface;
an electrical contact disposed in a position above said ink discharge opening in the state in which said third surface is a bottom surface;
a substrate provided at said first surface and supporting said electrical contact;
a positioning opening provided at said first surface in a position above said ink discharge opening and below said substrate in a state in which said third surface is a bottom surface and closer to said substrate than to said ink discharge opening; and
an engaging portion in the form of a recess and provided at said fourth surface in a position closer to said electrical contact than to said ink discharge opening and closer to said first surface than to said second surface, said engaging portion having an area crossing with a direction parallel with a normal line of said substrate.
An ink cartridge comprising:
a casing having a substantially rectangular parallelepiped shape and including an ink accommodating chamber, said casing including (a) a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, (b) a second surface opposite from said first surface across said ink accommodating chamber, (c) a third surface crossing with said first surface and said second surface and having an area larger than those of said first surface and said second surface, (d) a fourth surface opposite from said third surface across said ink accommodating chamber and having an area larger than those of said first surface and said second surface, (e) a fifth surface crossing with said first surface, said second surface, said third surface and said fourth surface and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, (f) a sixth surface opposite from said fifth surface across said ink accommodating chamber and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, and (g) said ink discharge opening being disposed closer to said third surface than to said fourth surface;
a substrate provided at said first surface such that said substrate is in a position above said ink discharge opening in a state in which said third surface is a bottom surface;
a plurality of electrical contacts provided on said substrate and arranged in a direction crossing with a direction away from said third surface toward said fourth surface; and
an engaging portion in the form of a recess and provided at said fourth surface in a position closer to said substrate than to said ink discharge opening and closer to said first surface than to said second surface.
An ink cartridge comprising:
an ink cartridge comprising:
a casing having a substantially rectangular parallelepiped shape and including an ink accommodating chamber, said casing including (a) a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, (b) a second surface opposite from said first surface across said ink accommodating chamber, (c) a third surface crossing with said first surface and said second surface and having an area larger than those of said first surface and said second surface, (d) a fourth surface opposite from said third surface across said ink accommodating chamber and having an area larger than those of said first surface and said second surface, (e) a fifth surface crossing with said first surface, said second surface, said third surface and said fourth surface and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, (f) a sixth surface opposite from said fifth surface across said ink accommodating chamber and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, and (g) said ink discharge opening being disposed closer to said third surface than to said fourth surface;
a substrate provided at said first surface such that said substrate is in a position above said ink discharge opening in a state in which said third surface is a bottom surface;
plurality of electrical contacts provided on said substrate and arranged in a direction crossing with a direction away from said third surface toward said fourth surface;
a force receiving portion provided at said first surface in a position above said ink discharge opening below said substrate in a state in which said third surface is a bottom surface and configured to receive an urging force for urging said casing in a direction away from said first surface toward said second surface; and
an engaging portion in the form of a recess and provided at said fourth surface in a position closer to said substrate than to said ink discharge opening and closer to said first surface than to said second surface and configured to receive a regulating force for limiting movement of said casing in the direction away from said first surface toward said second surface against the urging force.
An ink cartridge comprising:
a casing having a substantially rectangular parallelepiped shape and including an ink accommodating chamber, said casing including (a) a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, (b) a second surface opposite from said first surface across said ink accommodating chamber, (c) a third surface crossing with said first surface and said second surface and having an area larger than those of said first surface and said second surface, (d) a fourth surface opposite from said third surface across said ink accommodating chamber and having an area larger than those of said first surface and said second surface, (e) a fifth surface crossing with said first surface, said second surface, said third surface and said fourth surface and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, (f) a sixth surface opposite from said fifth surface across said ink accommodating chamber and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, and (g) said ink discharge opening being disposed closer to said third surface than to said fourth surface;
a substrate provided at said first surface such that said substrate is in a position above said ink discharge opening in a state in which said third surface is a bottom surface;
a plurality of electrical contacts provided on said substrate and arranged in a direction crossing with a direction away from said third surface toward said fourth surface;
a positioning opening provided at said first surface in a position above said ink discharge opening and below said substrate in a state in which said third surface is a bottom surface and closer to said plurality of electrical contacts than said ink discharge opening and configured to limit movement of said casing in a direction along said first surface;
a force receiving portion provided at said first surface in a position above said ink discharge opening below said positioning opening in a state in which said third surface is a bottom surface and configured to receive an urging force for urging said casing in a direction away from said first surface toward said second surface; and
an engaging portion in the form of a recess and provided at said fourth surface in a position closer to said substrate than to said ink discharge opening and closer to said first surface than to said second surface and configured to receive a regulating force for limiting movement of said casing in the direction away from said first surface toward said second surface against the urging force.
An ink cartridge comprising:
a casing having a substantially rectangular parallelepiped shape and including an ink accommodating chamber, said casing including (a) a first surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, (b) a second surface opposite from said first surface across said ink accommodating chamber, (c) a third surface crossing with said first surface and said second surface and having an area larger than those of said first surface and said second surface, (d) a fourth surface opposite from said third surface across said ink accommodating chamber and having an area larger than those of said first surface and said second surface, (e) a fifth surface crossing with said first surface, said second surface, said third surface and said fourth surface and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, (f) a sixth surface opposite from said fifth surface across said ink accommodating chamber and having an area larger than those of said first surface, said second surface, said third surface and said fourth surface, and (g) said ink discharge opening being disposed closer to said third surface than to said fourth surface;
a substrate provided at said first surface such that said substrate is in a position above said ink discharge opening in a state in which said third surface is a bottom surface;
plurality of electrical contacts provided on said substrate and arranged in a direction crossing with a direction away from said third surface toward said fourth surface;
a positioning opening provided at said first surface in a position above said ink discharge opening and below said substrate in a state in which said third surface is a bottom surface and closer to said plurality of electrical contacts than to said ink discharge opening; and
an engaging portion in the form of a recess and provided at said fourth surface in a position closer to said substrate than to said ink discharge opening and closer to said first surface than to said second surface.
An ink cartridge comprising:
a casing including an ink accommodating chamber, an ink discharge opening configured to discharge ink from said ink accommodating chamber, a hollow path connecting said ink accommodating chamber and said ink discharge opening, said casing including a first side surface provided with said ink discharge opening, a second side surface opposite to said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being provided in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate in a position above said ink discharge opening and having an area crossing with a direction parallel with an extending direction of said hollow path; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening and having an area crossing with a direction parallel with the extending direction.
An ink cartridge comprising:
a casing including an ink accommodating chamber, an ink discharge opening configured to discharge ink from said ink accommodating chamber, a hollow path connecting said ink accommodating chamber and said ink discharge opening, said casing including a first side surface provided with said ink discharge opening, a second side surface opposite to said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being provided in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate in a position above said ink discharge opening and having an area crossing with a direction parallel with an extending direction of said hollow path; and
a force receiving portion provided at said first side surface in a position above said ink discharge opening and below said electrical contact and configured to receive an urging force for urging said casing in a depth direction which is parallel with the extending direction and which is away from said first side surface toward said second side surface; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening and including an area crossing with a direction parallel with the extending direction and capable of receiving a limiting force for limiting movement of said casing in the depth direction and against the urging force.
An ink cartridge comprising:
a casing including an ink accommodating chamber, an ink discharge opening configured to discharge ink from said ink accommodating chamber, a hollow path connecting said ink accommodating chamber and said ink discharge opening, said casing including a first side surface provided with said ink discharge opening, a second side surface opposite to said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being provided in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate in a position above said ink discharge opening and having an area crossing with a direction parallel with an extending direction of said hollow path; and
a positioning portion provided on said casing in a position above said ink discharge opening and below said substrate and configured to limit movement of said casing in a direction perpendicular to the extending direction;
a force receiving portion provided at said first side surface in a position above said ink discharge opening and below said positioning opening and configured to receive an urging force for urging said casing in a depth direction which is parallel with the extending direction and which is away from said first side surface toward said second side surface; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening and including an area crossing with a direction parallel with the extending direction and capable of receiving a limiting force for limiting movement of said casing in the depth direction against the urging force.
An ink cartridge comprising:
a casing including an ink accommodating chamber, an ink discharge opening configured to discharge ink from said ink accommodating chamber, a hollow path connecting said ink accommodating chamber and said ink discharge opening, said casing including a first side surface provided with said ink discharge opening, a second side surface opposite to said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being provided in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate in a position above said ink discharge opening and having an area crossing with a direction parallel with an extending direction of said hollow path;
a positioning portion provided on said casing in a position above said ink discharge opening and below said substrate; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening and including an area crossing with a direction parallel with the extending direction.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a first side surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second side surface opposite from said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being disposed in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate in a position above said ink discharge opening and having an area crossing with a direction parallel with a center line of said ink discharge opening; and
an engaging portion provided in a position closer to said electrical contact than to said ink discharge opening and having an area crossing with a direction parallel with the center line.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a first side surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second side surface opposite from said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being disposed in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate in a position above said ink discharge opening and having an area crossing with a direction parallel with a center line of said ink discharge opening; and
a force receiving portion provided at said first side surface in a position above said ink discharge opening and below said electrical contact and configured to receive an urging force for urging said casing in depth direction which is parallel with the center line and which is away from said first side surface toward second side surface; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening and having an area crossing with a direction parallel with the center line and capable of receiving a limiting force for limiting movement of said casing in the depth direction against the urging force.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a first side surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second side surface opposite from said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being disposed in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate in a position above said ink discharge opening and having an area crossing with a direction parallel with a center line of said ink discharge opening; and
a positioning portion provided on said casing in a position above said ink discharge opening and below said electrical contact and configured to limit movement of said casing in a direction perpendicular to a direction parallel with the center line;
a force receiving portion provided at said first side surface in a position above said ink discharge opening and below said positioning portion and configured to receive an urging force for urging said casing in depth direction which is parallel with the center line and which is away from said first side surface toward second side surface; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening and having an area crossing with a direction parallel with the center line and capable of receiving a limiting force for limiting movement of said casing in the depth direction against the urging force.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a first side surface provided with an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second side surface opposite from said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being disposed in a position closer to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate in a position above said ink discharge opening and having an area crossing with a direction parallel with a center line of said ink discharge opening; and a positioning portion provided on said casing in a position above said ink discharge opening and below said electrical contact and closer to said first side surface than to said second side surface; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening and having an area crossing with a direction parallel with the center line.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a first side surface having a formation region in which an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, an upper surface and a bottom surface, said ink discharge opening being disposed in a position close to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate and including an area in a position above said ink discharge opening, the area crossing with a direction parallel with a normal line of said formation region; and
an engaging portion provided in a position closer to said electrical contact than to said ink discharge opening, said engaging portion including an area crossing with a direction parallel with the normal line of said formation region.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a first side surface having a formation region in which an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second side surface opposite from said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being disposed in a position close to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate and including an area in a position above said ink discharge opening, the area crossing with a direction parallel with a normal line of said formation region;
a force receiving portion provided at said first side surface in a position above said ink discharge opening below said electrical contact capable of receiving an urging force for urging said casing in a depth direction which is in parallel with the normal line of said formation region and away from said first side surface toward said second side surface; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening, said engaging portion including an area crossing with a direction parallel with the normal line of said formation region and capable of receiving a limiting force for limiting movement of said casing in the depth direction against the urging force.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a first side surface having a formation region in which an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, a second side surface opposite from said first side surface across said ink accommodating chamber, an upper surface and a bottom surface, said ink discharge opening being disposed in a position close to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate and including an area in a position above said ink discharge opening, the area crossing with a direction parallel with a normal line of said formation region;
a positioning portion provided on said casing above said ink discharge opening below said electrical contact and configured to limit movement of said casing in a direction perpendicular to a direction parallel with a normal line of said formation region;
a force receiving portion provided at said first side surface in a position above said ink discharge opening below said positioning portion capable of receiving an urging force for urging said casing in a depth direction which is in parallel with the normal line of said formation region and away from said first side surface toward said second side surface; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening, said engaging portion including an area crossing with a direction parallel with the normal line of said formation region and capable of receiving a limiting force for limiting movement of said casing in the depth direction against the urging force.
An ink cartridge comprising:
a casing including an ink accommodating chamber, a first side surface having a formation region in which an ink discharge opening configured to discharge ink from said ink accommodating chamber to an outside, an upper surface and a bottom surface, said ink discharge opening being disposed in a position close to said bottom surface than to said upper surface;
a substrate provided on said casing;
an electrical contact provided on said substrate and including an area in a position above said ink discharge opening, the area crossing with a direction parallel with a normal line of said formation region;
a positioning portion provided on said casing above said ink discharge opening below said electrical contact; and
an engaging portion provided on said casing in a position closer to said electrical contact than to said ink discharge opening, said engaging portion including an area crossing with a direction parallel with the normal line of said formation region.
A novel ink cartridge and a novel ink jet printer with which the satisfactory connection between the ink cartridge and the cartridge mounting portion can be accomplished are provided.
Number | Date | Country | Kind |
---|---|---|---|
2013-193043 | Sep 2013 | JP | national |
2014-171029 | Aug 2014 | JP | national |
Number | Date | Country | |
---|---|---|---|
Parent | 15063087 | Mar 2016 | US |
Child | 15712076 | US |
Number | Date | Country | |
---|---|---|---|
Parent | PCT/JP2014/075336 | Sep 2014 | US |
Child | 15063087 | US |