This application claims priority to Japanese Patent Application No. 2014-081709 filed on Apr. 11, 2014. The entire disclosure of Japanese Patent Application No. 2014-081709 is hereby incorporated herein by reference.
1. Technical Field
The present invention relates to a liquid container and an adapter that are configured to be detachably attached to a liquid ejecting apparatus, and a liquid ejecting apparatus to which a liquid container and an adapter are detachably attached.
2. Related Art
In the prior art, there is a liquid ejecting apparatus which is provided with a liquid ejecting section which ejects liquid such as ink where an ink container which retains liquid is able to be attached and detached. JP-A-2005-138545 (PTL 1) discloses an example of this type of liquid ejecting apparatus. An ink jet recording apparatus (a liquid ejecting apparatus) in PTL 1 is provided with a mounting section where an ink cartridge (a liquid container) is mounted so as to be able to be attached and detached and an ink extraction pipe is provided in the mounting section. In addition, an ink supply chamber, where a sealing member is arranged in a joint portion where the ink extraction pipe is connected, is provided in the ink cartridge. When the ink cartridge is mounted in the mounting section, the sealing member is pressed and changes shape due to the ink extraction pipe, and the ink supply chamber and an inner section flow path of the ink extraction pipe are linked.
In PTL 1, the ink supply chamber, where the sealing member is arranged in the joint section of the ink cartridge, is provided and this functions as a check valve. Accordingly, when the ink cartridge is removed, ink which is in an inner section of the ink cartridge does not leak due to the check valve being closed. However, a means for stopping outflow of ink from the ink extraction pipe is not provided in the ink jet recording apparatus. Accordingly, there is a concern that there will be leakage of ink inside the ink jet recording apparatus when the ink cartridge is removed.
Considering these points, the problem of the present invention is to propose a liquid container, an adapter, and a liquid ejecting apparatus which are appropriate in preventing leakage of liquid at a liquid flow path in the apparatus which is a liquid ejecting apparatus where a liquid container is able to be attached and detached.
In order to solve the problem described above, the present invention is a liquid container configured to be detachably attached to a liquid container containing section in a liquid ejecting apparatus that includes the liquid container containing section, a supply flow path that supplies liquid from a liquid supply section that is provided in the liquid container containing section to a liquid ejecting section, and an opening and closing section that opens and closes the supply flow path, the liquid container including an operation section configured to switch an opening and closing state of the opening and closing section by working together with an attaching and detaching operation with regard to the liquid container containing section.
In addition, in order to solve the problem described above, the present invention is an adapter configured to be detachably attached to a liquid container containing section in a liquid ejecting apparatus that includes the liquid container containing section, a supply flow path that supplies liquid from a liquid supply section in the liquid container containing section to a liquid ejecting section, and an opening and closing section that opens and closes the supply flow path, and configured to be attached to a liquid containing body that is contained in the liquid container containing section, the adapter including an operation section configured to switch an opening and closing state of the opening and closing section by working together with an attaching and detaching operation with regard to the liquid container containing section.
In addition, in order to solve the problem described above, a liquid ejecting apparatus according to the present invention includes a liquid container containing section, a supply flow path that supplies liquid from a liquid supply section that is provided in the liquid container containing section to a liquid ejecting section, and an opening and closing section that opens and closes the supply flow path, wherein an opening and closing state of the opening and closing section is switched by an operation section that is provided in a liquid container by working together with an attaching and detaching operation of the liquid container with regard to the liquid container containing section.
According to the present embodiment, when the liquid container (for example, the liquid container where the adapter is attached to the liquid containing body) is removed from the liquid container containing section, it is possible for the operation section to move to work together with this operation and for the opening and closing section to be closed. Accordingly, it is possible to reliably close the opening and closing section even when the liquid container is extracted in a state where the power of the liquid ejecting apparatus is turned off. As such, it is possible to prevent leakage of liquid from the supply flow path. In addition, it is possible to prevent connection faults since it is possible to reliably open the opening and closing section when the liquid container is mounted.
In the present invention, it is desirable that the operation section is movable in a mounting direction of the liquid container (or the adapter) with regard to the liquid container containing section. In addition, it is desirable that the opening and closing state of the opening and closing section be switched by the operation section that moves in the mounting direction of the liquid container with regard to the liquid container containing section. By doing this, it is possible for the operation section to have a simple configuration. Accordingly, it is advantageous in terms of reducing size and saving space.
In the present invention, it is desirable that the operation section abuts with one end of an intermediate member that is arranged between the opening and closing section and the operation section, and that the opening and closing section abuts with the other end of the intermediate member. In addition, it is desirable that the opening and closing section is abuttable with the other end of the intermediate member that is arranged between the opening and closing section and the operation section and one end of which is abuttable with the operation section. By doing this, it is possible to reduce the dimensions of the operation section. Accordingly, it is possible to reduce damage to the operation section in a case where shocks are applied such as when the liquid container is mounted or dropped.
In the present invention, it is desirable that the operation section have an abutting section that abuts with the one end of the intermediate member, and that an area of the abutting section be larger than an area of the one end of the intermediate member. By doing this, it is possible to maintain a state of abutting between the one end of the intermediate member and the abutting section even when there is positional deviation between the abutting section and the one end of the intermediate member due to an environmental change such as a change in temperature or humidity. Accordingly, it is possible to reliably open and close the opening and closing section.
In the present invention, it is desirable that the operation section includes a protrusion, that a circuit board that is configured to connect with a connection terminal in the liquid ejecting apparatus is provided in the operation section, and that the abutting section is arranged more to a tip end side than the circuit board in the mounting direction of the liquid container. By doing this, it is possible to prevent damage to the circuit board due to a part that protrudes even further than the circuit board such as when the liquid container is mounted or dropped. In addition, it is advantageous in terms of saving space and simplifying the configuration since it is not necessary to separately secure a part for attaching the circuit board.
In the present invention, it is desirable that the abutting section is provided below the circuit board in a vertical direction. By doing this, it is difficult for foreign matter, which is generated due to contact between the abutting section and the intermediate member, to fall onto the circuit board. Accordingly, it is possible to prevent contact faults between the circuit board and the connection terminal due to foreign matter.
According to the present invention, when a liquid container (for example, a liquid container where an adapter is attached to a liquid containing body) is removed from a liquid container containing section, it is possible for an operation section to move to work together with this operation and for an opening and closing section to be closed. Accordingly, it is possible to prevent leakage of liquid from a supply flow path. In addition, it is possible to prevent connection faults since it is possible to reliably open the opening and closing section when the liquid container is mounted.
Referring now to the attached drawings which form a part of this original
An embodiment of a liquid ejecting apparatus and a liquid container which is attached to and detached from a liquid container containing section in the liquid ejecting apparatus where the present invention is applied will be described below with reference to the drawings. In the following embodiment, the present invention is applied to an ink container which is attached to and detached from an ink container containing section in the ink jet printer, but it is possible to apply the present invention to a liquid container in a liquid ejecting apparatus which ejects liquids other than ink.
(Overall Configuration)
An ink jet head 11 (a liquid ejecting section), a platen unit 12, a medium transport mechanism (which is omitted from the drawings), a head moving mechanism (which is omitted from the drawings), and the like are provided at an inner section of the printer body section 10. The printing medium P is transported along a platen surface by the medium transport mechanism which is provided with a paper feeding roller, a paper feeding motor, and the like. The ink jet head 11 is moved back and forth by the head moving mechanism in a direction which cuts across the platen surface. The head moving mechanism is provided with a carriage which is mounted with the ink jet head 11, a carriage guide shaft which extends in a direction which cuts across the platen surface, a carriage moving mechanism which moves the carriage back and forth along the carriage guide shaft, a carriage motor, and the like. When the printing medium P passes over the platen surface, printing is performed using the ink jet head 11.
In addition, the printer body section 10 is provided with a cartridge mounting section 13. One each of intermediate tanks 14 which contain ink of each color of cyan ink C, magenta ink M, yellow ink Y, and black ink Bk are mounted in the cartridge mounting section 13. The ink jet head 11 and the intermediate tanks 14 are connected by supply tubes 15 which are flexible. On the other hand, the ink containing unit 20 is provided with the same number of main tanks 21 as the number of the intermediate tanks 14 (four in the present embodiment). The four main tanks 21 are supported by a support frame of the ink containing unit 20. The intermediate tanks 14 and the main tanks 21 are connected by supply tubes 16 which are flexible. Check valves 4 (opening and closing sections) are provided in the supply tubes 16 at sections which connects with the main tank 21. As will be described later, opening and closing of the check valves 4 is switched according to the attaching and detaching states of the ink containers 23 in the main tanks 21. Here, the number of the intermediate tanks 14 and the main tanks 21 may be a number other than four, and the types of ink which are contained may be different to the four inks described above. In addition, pressurizing sections (which are omitted from the drawings) are provided in each of the main tanks 21 inside the ink containing unit 20. The main tanks 21 are pressurized using pressurized air which is fed from the pressurizing sections.
As shown in
(Main Tank)
(Structure for Opening and Closing Ink Container Containing Section)
The blow tank 40 is a container which is manufactured from resin with a substantially rectangular shape which is long in the container forward and backward direction Y. A circular opening 41 (refer to
On the other hand, a rear side opening (which is omitted from the drawings) which is an opening in the −Y direction is formed in the blow tank 40 at an end section which is at the opposite side to the circular opening 41, and an opening and closing door 43 which opens and closes the rear side opening is attached. The opening and closing door 43 opens and closes by swinging with one end side in the container width direction X as the center. The ink container 23 and the tray 24 move in and out from the rear side opening to the inside of the blow tank 40 due to the opening and closing door 43 being opened. When the opening and closing door 43 is closed, the rear side opening is blocked off in the air-tight state.
(Ink Supply Section)
The cover 30 is mounted in a state of being able to rotate with regard to the circular opening 41 of the blow tank 40 with the central axis line of the cylindrical section 42 as the center. An ink supply section 32 (a liquid supply section) is provided in the cover 30 at a position which is slightly deviated from a center of rotation A (refer to
On the other hand, the mounting member 50 is provided with a mounting member body section 50A with a substantially rectangular shape which is long in the container width direction X, and end plate sections 50B and 50C which are provided at either end of the mounting member body section 50A in the container width direction X. A through hole section 51 is formed in the mounting member body section 50A in a region which overlaps with the ink supply section 32 in the container forward and backward direction Y. The through hole section 51 passes through the mounting member body section 50A in the container forward and backward direction Y. In the ink container containing section 22, the mounting member 50 is arranged inside the blow tank 40 on the circular opening 41 side, and the cover 30 is arranged outside the blow tank 40 on the circular opening 41 side. That is, the mounting member 50 and the cover 30 are arranged so as to interpose the cylindrical section 42 of the blow tank 40 and are fixed using the structure for fixing which will be described below. At this time, the ink supply needle of the ink supply section 32 is flush with the through hole section 51 and opposes the ink container 23 which is mounted on the rear surface side of the mounting member body section 50A.
(Structure for Fixing Cover and Mounting Member)
As shown in
In addition, boss sections 35 and 36 are formed in the cover body section 31 at two locations, which are different to the positions of the positional alignment protrusions 33 and 34 in the circumferential direction, at positions which are away from the center of rotation A. The boss sections 35 and 36 are arranged at two locations which are point symmetrical with the center of rotation A as a reference and protrude from the cover body section 31 in the −Y direction. Fixing holes 35a and 36a, which pass through the cover body section 31 and the boss sections 35 and 36 in the container forward and backward direction Y, are formed in the cover 30. The fixing holes 35a and 36a are arranged at positions which are closer to the center of rotation A of the cover 30 than the positional alignment protrusions 33 and 34. On the other hand, boss sections 54 and 55 are formed in the mounting member body section 50A at positions which overlap with the fixing holes 35a and 36a in the container forward and backward direction Y. Fixing holes 54a and 55a are openings in the end surfaces of the boss sections 54 and 55 on the +Y direction side. The fixing holes 54a and 55a are concave sections which do not pass through the mounting member body section 50A.
As described above, the cover 30 and the mounting member 50 are fixed with screws so as to interpose the cylindrical section 42, which is provided at the opening edge of the circular opening 41 in the blow tank 40, from both sides in the container forward and backward direction Y. As shown in
The mounting member 50 and the cover 30 are positionally aligned by the positional alignment protrusions 33 and 34 engaging with the positional alignment holes 52a and 53a. Out of the engaging sections at the two locations, one is an engaging section which sets a reference position and the other is an engaging section for stopping rotation where a relative rotation position where the reference position is the center is set. When the mounting member 50 is positionally aligned with regard to the cover 30, the fixing holes 35a and 36a on the cover 30 side and the fixed holes 54a and 55a at the mounting member body section 50A side overlap in the container forward and backward direction Y. In this state, fixing screws 37 are attached to each of the fixing holes 35a and 36a from the outer side of the tank (the +Y direction side), and the tip ends of the fixing screws 37 are screwed into the fixed holes 54a and 55a until locked. Due to this, the mounting member 50 is fixed by screws with regard to the cover 30.
(Pressurizing Hole)
As shown in
(Terminal Arrangement Section)
As shown in
(Ink Container)
(Ink Pack)
The ink pack 70 is a liquid containing bag which is flexible and encloses ink in an inner section. The planar shape of the ink pack 70 is substantially rectangular and has a size which fits into the tray 24. A linking section 71 (refer to
(Adapter)
The adapter 80 is provided with a front plate section 80A which is long in the container width direction X, end plate sections 80B and 80C which are provided on either end of the front plate section 80A in the container width direction X, and an ink pack attachment section 80D which is provided on the rear surface side (on the −Y direction side) of the front plate section 80A. The ink pack attachment section 80D is fixed so as to interpose an end edge on the +Y direction side of the ink pack 70. The end plate sections 80B and 80C extend from both ends of the front plate section 80A in the −Y direction.
(Ink Leading Section)
The front plate section 80A is provided with an adapter front end surface with a substantially rectangular shape which faces the +Y direction. A protruding section 81a which protrudes in the +Y direction is formed at the center of the front plate section 80A in the container width direction X. In addition, a raised section 81b, which is formed on an upper surface (a surface in the +Z direction) of the ink pack attachment section 80D, extends from the rear side (the −Y direction side) of the protruding section 81a in the container forward and backward direction Y. An ink flow path, which passes through the protruding section 81a and the raised section 81b in the container forward and backward direction Y, is provided in the adapter 80, and one end of the ink flow path is an opening in the tip end surface of the protruding section 81a. The linking section 71 of the ink pack 70 is connected with the other end of the ink flow path. An ink leading section 81 (a liquid leading section) which leads ink from the ink pack 70 is configured using the protruding section 81a, the raised section 81b, and the linking section 71. The protruding section 81a is substantially a cylindrical shape and four ribs 81c which extend in the container forward and backward direction Y are formed on the outer circumference surface of the protruding section 81a at intervals with equal angles in the circumference direction. The protruding dimensions of each of the ribs 81c from the outer circumference surface of the protruding section 81a in accompaniment with heading toward the −Y direction increases and each of the ribs 81c are connected with the front plate section 80A.
When the ink container 23 is mounted in the ink container containing section 22, the ink leading section 81 is connected with the ink supply section 32 of the cover 30. Accordingly, ink which is fed from the ink leading section 81 is supplied to the intermediate tank 14 through the ink supply section 32 and the supply tube 16. At this time, when the ink container containing section 22 is pressurized, feeding of ink into the inner section is promoted by the ink pack 70 being flattened due to air pressure.
(Structure for Fitting of Ink Container and Tray)
Moving the ink container 23 in and out of the ink container containing section 22 is performed in a state where the ink container 23 is loaded on the tray 24. The ink container 23 is arranged so that the adapter 80 is loaded on the end edge of the tray 24 on the +Y direction side. The ink container 23 and the tray 24 are inserted from the rear side opening in the ink container containing section 22 in a mounting direction B (the +Y direction in the present embodiment) in the ink container containing section 22 with the side where the adapter 80 is arranged as the front.
As shown in
As shown in
(Board Holding Section and Connector Unit)
As shown in
An inclined surface 82c and an abutting surface 82e (an abutting section) are formed at the tip end of the board attachment section 82b. The inclined surface 82c is a surface where an XZ plane is inclined in a direction of inclination so as to move in the +Y direction in accompaniment with heading toward the −Z direction. The circuit board 83 is attached to the inclined surface 82c. A memory element which stores information such as the amount of ink which is inside the ink container 23 is provided in the circuit board 83. On the other hand, the abutting surface 82e is a surface which is perpendicular to the mounting direction B (the +Y direction) of the ink container 23 in the ink container containing section 22 and is provided on the −Z direction side of the inclined surface 82c at a position which protrudes even further than the inclined surface 82c in the +Y direction. The abutting surface 82e is positioned below the circuit board 83 in a vertical direction G when there is a posture (refer to
The connector unit 60 is provided with a connector housing 65 which is fixed to the terminal arrangement section 39 of the cover 30 and an intermediate member 67 which is mounted in the connector housing 65 so as to be able to slide in the container forward and backward direction Y. The connector housing 65 is provided with a fixing section 65a with a plate shape which is arranged along the front surface of the cover 30 on the +Y direction side and a housing body section 65b which is inserted inside the through hole section 39a by protruding to the rear surface side (the −Y direction side) of the fixing section 65a. The connector housing 65 is fixed to the cover 30 due to the fixing section 65a being fixed by screws with regard to the cover 30. An inclined surface 61 which opposes the inclined surface 82c of the board holding section 82 is provided in the housing body section 65b. The inclined surface 61 is a surface which is parallel to the inclined surface 82c and the connection terminal 62 is arranged on the inclined surface 61. A wiring 63 which conducts with the connection terminal 62 is drawn around to the rear surface side of the inclined surface 61. The wiring 63 is drawn out to the front surface side of the cover 30 by passing through a hole which is formed in the fixing section 65a and is drawn around to the printer body section 10 side along with the supply tube 16 which is for supplying of ink.
A holding member 66 is arranged at a position on the −Z direction side with regard to the housing body section 65b and on the −Y direction side with regard to the fixing section 65a. The holding member 66 is fixed by screws to the fixing section 65a. A through hole (which is omitted from the drawings), which passes through in the container forward and backward direction Y, is formed in the holding member 66. In addition, a through hole 65c is formed in the fixing section 65a at a position which overlaps with the through holes in the holding member 66 and the intermediate member 67 is inserted into the through hole 65c. The intermediate member 67 is a member with a linear shape and is inserted into the holding member 66 and the fixing section 65a in a state so as to be able to move in the container forward and backward direction Y. In addition, the intermediate member 67 is pushed in the −Y direction by a coil spring which is built into the through hole in the holding member 66. An end section of the intermediate member 67 in the +Y direction is a first protruding section 67a which protrudes from the through hole 65c of the fixing section 65a to the front surface side (the +Y direction side) of the cover 30. On the other hand, an end section of the intermediate member 67 in the −Y direction is a second protruding section 67b which protrudes from the holding member 66 in the −Y direction. As will be described later, the intermediate member 67 is arranged between the check valve 4 (refer to
While the ink container 23 is mounted in the ink container containing section 22, the board holding section 82 is inserted into the through hole section 39a of the cover 30 in accompaniment with the ink container 23 moving in the mounting direction B. At this time, the intermediate member 67 moves in the mounting direction B (in the +Y direction) due to being pressurized by the abutting surface 82e of the board holding section 82. The connection terminal 62, which is arranged at the inclined surface 61 of the connector unit 60, comes into contact with the circuit board 83 which is arranged on the inclined surface 82c of the adapter 80 as shown in
(Positional Alignment of Ink Container and Mitigating Shocks Using Dampers)
A first guide hole 86 and a second guide hole 87 are formed in the front plate section 80A of the adapter 80. The first guide hole 86 and the second guide hole 87 are arranged symmetrically in the container width direction X with the YZ plane (the YZ plane which includes the line C-C in
In addition, a first concave section 88 is formed in the front plate section 80A of the adapter 80 further to the +X direction side with regard to the first guide hole 86 and a second concave section 89 is formed in the front plate section 80A of the adapter 80 further to the −X direction side with regard to the second guide hole 87. The first concave section 88 and the second concave section 89 are concave sections which are recessed in the −Y direction. The first concave section 88 and the second concave section 89 are arranged symmetrically in the container width direction X with the line C-C as a reference and are arranged equal distances from the protruding section 81a of the ink leading section 81. The first concave section 88, the first guide hole 86, the second guide hole 87, and the second concave section 89 are arranged on the front end surface of the adapter in a straight line which is parallel with the container width direction X. The ink leading section 81 is arranged more to the upper side (the +Z direction side) of the container than the arrangement positions of the first concave section 88, the first guide hole 86, the second guide hole 87, and the second concave section 89. In addition, a straight line D which passes through the center of a bottom surface 88a of the first concave section 88 and the center of a bottom surface 89a of the second concave section 89 overlaps with first and second fitted sections 84 and 85 (refer to
On the other hand, two guide pins 56 and 57 (a mounting member side engaging section), which protrude from the mounting member body section 50A in the −Y direction, are provided in the mounting member 50. The guide pin 56 is arranged on the +X direction side with regard to the through hole section 51 and the guide pin 57 is arranged on the −X direction side with regard to the through hole section 51. The diameters of the guide pins 56 and 57 are larger than the protruding section 81a of the ink leading section 81 in the same manner of the first guide hole 86 and the second guide hole 87. In addition, dampers 58 and 59 are arranged on the outer side with regard to the guide pins 56 and 57 in the container width direction X. The damper 58 is arranged on the +X direction side with regard to the guide pin 56 and the damper 59 is arranged on the −X direction side with regard to the guide pin 57. Tip end sections of the dampers 58 and 59 protrude from the mounting member body section 50A in the −Y direction. The damper 58, the guide pin 56, the guide pin 57, and the damper 59 are arranged in a straight line which is parallel with the container width direction X.
The ink container 23 is inserted into the ink container containing section 22 with the adapter 80 which is arranged at the front opposing the mounting member 50 in the container forward and backward direction Y. At this time, the guide pin 56 of the mounting member 50 opposes the first guide hole 86 of the adapter 80 and the guide pin 57 of the mounting member 50 opposes the second guide hole 87 of the adapter 80. In addition, the damper 58 of the mounting member 50 opposes the first concave section 88 of the adapter 80 and the damper 59 of the mounting member 50 opposes the second concave section 89 of the adapter 80. When the ink container 23 is moved in the mounting direction B (that is, in the +Y direction), the adapter 80 which is arranged in the front gets closer to the mounting member 50. At this time, first, inserting of the dampers 58 and 59 into the first and second concave sections 88 and 89 is started. Next, inserting of the guide pins 56 and 57 into the first and second guide holes 86 and 87 starts before the tip ends of the dampers 58 and 59 come into contact with the bottom surfaces 88a and 89a of the first and second concave sections 88 and 89.
The guide pins 56 and 57 are inserted into the first and second guide holes 86 and 87 and engage with the first and section guide holes 86 and 87 while being guided by the taper sections which are formed in the tip ends of the guide pin 56 and 57. Except for the tapered sections, the diameters of the guide pins 56 and 57 are constant circular column shapes. When portions with the circular column shapes in the guide pins 56 and 57 are inserted into the first and second guide holes 86 and 87, the adapter 80 is positionally aligned on the XZ plane with regard to the mounting member 50. At this time, the second guide hole 87 is a reference for positional alignment since the second guide hole 87 is a perfect circle. On the other hand, rotation of the adapter 80 with regard to the mounting member 50 is stopped since the first guide hole 86 is a long hole. After positional alignment on the XZ plane using the guide pins 56 and 57 and the first and second guide holes 86 and 87 is completed, the tip ends of the dampers 58 and 59 abut with the bottom surfaces 88a and 89a of the first and second concave sections 88 and 89 (refer to
The dampers 58 and 59 are air dampers which are able to expand and contract in the container forward and backward direction Y. The dampers 58 and 59 are provided with a concave section space (which is omitted from the drawings), which is formed in the protruding sections 58a and 59a which protrude from the mounting member body section 50A in the −Y direction, and pistons 58b and 59b which seal one end of the concave space. The concave section space extends in the container forward and backward direction Y, and the pistons 58b and 59b are able to move in the +Y direction, in which air in the concave section space is compressed, and the opposite direction to the +Y direction. A coil spring (which is omitted from the drawings) is arranged between the bottom section of the concave section space and the pistons 58b and 59b.
After the tip end surfaces of the pistons 58b and 59b abut with the bottom surfaces 88a and 89a of the first and second concave sections 88 and 89, the dampers 58 and 59 press and move the pistons 58b and 59b in the +Y direction in accompaniment with the ink container 23 moving further in the mounting direction B (that is, in the +Y direction). At this time, since the pistons 58b and 59b compress air in the concave section space, a buffering force, which resists the force of inertia of the ink container 23 which moves in the mounting direction B, is generated in the dampers 58 and 59. Accordingly, after the dampers 58 and 59 abut with the bottom surfaces 88a and 89a of the first and second concave sections 88 and 89, the force of shocks, which act on the protruding parts of the ink container containing section 22 and the ink container 23, is reduced using the buffering action of the dampers 58 and 59.
As described above, the ink container 23 is provided with the ink leading section 81 which protrudes from the adapter 80 in the +Y direction. On the other hand, the ink supply section 32, which protrudes from the through hole section 51 of the mounting member 50 to the ink container 23 side, is provided in the ink container containing section 22. When positional alignment of the adapter 80 on the XZ plane is carried out with regard to the mounting member 50 by the guide pins 56 and 57 engaging with the first and second guide holes 86 and 87, the ink leading section 81 of the ink container 23 opposes the ink supply section 32 of the ink container containing section 22. After a state is reached where the guide pins 56 and 57 engaging with the first and second guide holes 86 and 87 and buffering action acts due to the dampers 58 and 59 starting to compress, the ink leading section 81 is connected with the ink supply section 32. A sealing member (which is omitted from the drawings), which is pushed in the +Y direction by a spring seat, is provided at the tip end section of the ink leading section 81. When the ink leading section 81 is not connected with the ink supply section 32, the sealing member stops ink from flowing out by blocking off the ink leading section 81. When the ink leading section 81 is connected with the ink supply section 32, the sealing member is pressured and moved in the −Y direction by the ink supply needle, and as a result, the flow path inside the ink leading section 81 and the flow path inside the ink supply section 32 are linked.
After the ink supply section 32 and the ink leading section 81 are connected, the ink container 23 moves further in the mounting direction B (the +Y direction). At this stage, connecting of the connection terminal 62, which is held in the cover 30 of the ink container containing section 22, and the circuit board 83, which is held in the adapter 80 of the ink container 23, is performed. That is, when the ink supply section 32 and the ink leading section 81 are connected, the board holding section 82 which holds the circuit board 83 is already inserted into the tip end side of the through hole section 39a where the connector unit 60 is attached.
Grooves 82d (refer to
When the ink container 23 moves further in the mounting direction B from this state, first, the O-ring (which is omitted from the drawings), which is mounted in the base end section 82a of the board holding section 82, is flattened by the tip end surface of the terminal arrangement section 39. Due to this, the through hole section 39a is no longer linked with the pressurized space inside the ink container containing section 22 and it is possible to perform connecting of the circuit board 83 and the connection terminal 62 outside of the pressurized space. Next, the connection terminal 62, which is attached to the inclined surface 61 of the connector unit 60, and the circuit board 83, which is attached to the inclined surface 82c of the board attachment section 82b, come into contact inside the through hole section 39a. During contact, the circuit board 83 and the connection terminal 62 are in sliding contact along the inclination direction of the inclined surfaces 61 and 82c.
As above, the ink container 23 is mounted in the ink container containing section 22 through the five steps of (1) to (5) below.
(1) Positionally aligning the tray 24 and the ink container 23 using the fitting sections at two locations
(2) Positionally aligning of the mounting member 50 and the ink container 23 using the two guide pins 56 and 57
(3) Generating buffering action using the dampers 58 and 59
(4) Connecting the ink supply section 32 and the ink leading section 81
(5) Contacting of the connection terminal 62 on the ink container containing section 22 side and the circuit board 83 on the ink container 23 side
(Structure for Preventing Extraction of Ink Container)
When the ink container 23 is mounted in the ink container containing section 22, the end plate section 80B of the adapter 80 is positioned on the inner side of the end plate section 50B of the mounting member 50 in the container width direction X, and the end plate section 80C is positioned on the inner side of the end plate section 50C of the mounting member 50 in the container width direction X. Plate springs 90 are attached to the inner side surfaces of the end plate sections 50B and 50C in the container width direction X as shown in
(Opening and Closing Operation of Check Valve Working Together with Attaching and Detaching Operation of Ink Container)
Connecting of the connection terminal 62 of the connector unit 60 which is mounted to the cover 30 and the circuit board 83 which is provided in the ink container 23 is performed in the final stage as described above when the ink container 23 is mounted in the ink container containing section 22, and at this time, the intermediate member 67 of the connector unit 60 is pressured and moved in the mounting direction B (in the +Y direction) by the abutting surface 82e of the board holding section 82 at the same time. As a result, the protruding dimensions of the first protruding section 67a from the through hole 65c is increased. In addition, when the ink container 23 is removed from the ink container containing section 22, there is a state where movement of the intermediate member 67 is not regulated by the abutting surface 82e and it is possible for the intermediate member 67 to return in the −Y direction. As described below, when the protruding dimensions of the first protruding section 67a to the front surface side (the +Y direction side) of the cover 30 changes due to the intermediate member 67 moving in the container forward and backward direction Y, there is a switch in the opening and closing state of the check valve 4 which is provided in the ink flow path 5 inside the supply tube 16.
The circuit board 83 is separated from the connection terminal 62 and the abutting surface 82e of the board holding section 82 which is provided in the ink container 23 is separated from the second protruding section 67b of the intermediate member 67 to the −Y direction side as shown in
When the ink container 23 moves in the mounting direction B, the abutting surface 82e of the board holding section 82 which is provided in the ink container 23 abuts with the second protruding section 67b of the intermediate member 67 and the intermediate member 67 is pressured and moved in the +Y direction. Due to this, the driving lever 4d swings with a direction which is the reverse of the pushing direction due to the first protruding section 67a moving in the +Y direction. As a result, the one end 4e of the driving lever 4d moves in the −Y direction and moves the diaphragm 4b in the −Y direction via the driving section 4c. Due to this, the ink flow path is linked due to the diaphragm 4b being separated from the valve seat 4a as shown in
The check valve 4 is in the opened state while the ink container 23 is mounted in the ink container containing section 22. When the ink container 23 is removed from the ink container containing section 22, the abutting surface 82e of the board holding section 82 is no longer at the −Y direction side of the intermediate member 67. For this reason, the intermediate member 67 moves in the −Y direction due to the pushing force of the coil spring which is mounted at an inner section of the through hole which is formed in the holding member 66. As a result, the one end of the driving lever 4d moves in the +Y direction and the other end 4f of the driving lever 4d swings in a direction so as to move in the −Y direction. Then, at this time, the one end 4e of the driving lever 4d pushes the diaphragm 4b against the valve seat 4a via the driving section 4c. That is, the check valve 4 is switched from the open state to the closed state by working together with the removing operation of the ink container 23 from the ink container containing section 22. The check valve 4 is in the closed state while the ink container 23 is removed from the ink container containing section 22.
(Actions and Effects)
As above, the ink container 23 of the present embodiment is mounted in the ink container containing section 22, which is provided in the ink containing unit 20 of the printer 1, so as to be able to be attached and detached. Ink in the ink container 23 which is mounted in the ink container containing section 22 is supplied from the ink supply section 32 which is provided in the ink container containing section 22 to the ink jet head 11 via the supply tube 16 and the intermediate tank 14, which are provided in the printer body section 10, and the supply tube 15. The check valve 4 which opens and closes the ink flow path 5 inside the supply tube 16 is provided in the connection section of the supply tube 16 and the ink supply section 32. Then, the intermediate member 67, which switches the opening and closing state of the check valve 4 by working together with the attaching and detaching operation of the ink container 23 in the ink container containing section 22, is provided in the cover 30 of the ink container containing section 22. By doing this, when the ink container 23 is removed from the ink container containing section 22, it is possible for the intermediate member 67 to move to work together with this operation and for the check valve 4 to be closed. Accordingly, it is possible to reliably close the check valve 4 even when the ink container 23 is extracted in a state where the power of the printer 1 is turned off. As such, it is possible to prevent leakage of liquid from the ink flow path 5 inside the supply tube 16. In addition, it is possible to prevent connection faults since it is possible to reliably open the check valve 4 when the ink container 23 is mounted.
In addition, the ink container 23 of the present embodiment is provided with the ink pack 70 and the adapter 80 which is provided at the front end of the ink pack 70 in the mounting direction B of the ink container containing section 22. The adapter 80 is mounted in the ink container containing section 22 so as to be able to be attached and detached and the ink pack 70 is positionally aligned in the ink container containing section 22. The intermediate member 67 is able to move in the mounting direction B of the ink container 23 and the intermediate member 67 is pressured and moved in the mounting direction B when the ink container 23 moves in the mounting direction B due to the abutting surface 82e of the board holding section 82 which is formed in the adapter 80. The check valve 4 opens and closes by the diaphragm 4b moving due to movement of the intermediate member 67 in the container forward and backward direction Y. In this manner, since the intermediate member 67 is a simple configuration which only slides in the container forward and backward direction Y in the present embodiment, and the configuration is simple and it is advantageous in terms of reducing size and saving space.
In addition, in the present embodiment, the driving lever 4d moves via the intermediate member 67 due to the intermediate member 67 being arranged between the driving lever 4d of the check valve 4 and the abutting surface 82e of the board holding section 82 which is formed in the adapter 80 of the ink container 23. In this manner, it is possible to reduce the protruding dimensions of the board holding section 82 which is provided on the ink container 23 side due to the driving lever 4d being driven via the intermediate member 67. Accordingly, it is possible to reduce damage to the board holding section 82 in a case where shocks are applied such as when the ink container 23 is dropped or mounted.
In addition, in the present embodiment, the area of the abutting surface 82e of the board holding section 82 is larger than the area of the tip end surface of the second protruding section 67b of the intermediate member 67. Accordingly, it is possible to maintain a state of abutting between the second protruding section 67b and the abutting surface 82e even when there is positional deviation between the abutting surface 82e and the second protruding section 67b due to an environmental change such as a change in temperature or humidity or the margin of error in the dimensions of the components, measurement errors in assembly, or the like. Accordingly, it is possible to reliably open and close the check valve 4.
In addition, in the present embodiment, the abutting surface 82e which pressures and moves the intermediate member 67 is formed in the board holding section 82, where the circuit board 83 is attached, more to the tip end side than the circuit board 83. Accordingly, it is possible to prevent damage to the circuit board 83 due to a part which protrudes even further than the circuit board 83 such as when the ink container 23 is mounted or dropped. In addition, it is advantageous in terms of saving space and simplifying the configuration since it is not necessary to separately secure a part for attaching the circuit board 83. In addition, the abutting surface 82e is formed so as to be positioned below the circuit board 83 in the vertical direction G when the ink container 23 is mounted in the ink container containing section 22. For this reason, it is difficult for foreign matter, which is generated due to contact between the second protruding section 67b of the intermediate member 67 and the abutting surface 82e of the board holding section 82, to fall onto the circuit board 83. Accordingly, it is possible to prevent contact faults between the circuit board 83 and the connection terminal 62 due to foreign matter.
Here, in the present embodiment described above, the position and shape of the intermediate member 67 may be different to the embodiment described above. That is, it is sufficient if it is possible for the intermediate member 67 to open and close the check valve 4 by moving in the mounting direction B or a different direction due to the ink container 23 which moves in the mounting direction B.
In understanding the scope of the present invention, the term “comprising” and its derivatives, as used herein, are intended to be open ended terms that specify the presence of the stated features, elements, components, groups, integers, and/or steps, but do not exclude the presence of other unstated features, elements, components, groups, integers and/or steps. The foregoing also applies to words having similar meanings such as the terms, “including”, “having” and their derivatives. Also, the terms “part,” “section,” “portion,” “member” or “element” when used in the singular can have the dual meaning of a single part or a plurality of parts. Finally, terms of degree such as “substantially”, “about” and “approximately” as used herein mean a reasonable amount of deviation of the modified term such that the end result is not significantly changed. For example, these terms can be construed as including a deviation of at least E 5% of the modified term if this deviation would not negate the meaning of the word it modifies.
While only a selected embodiment has been chosen to illustrate the present invention, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made herein without departing from the scope of the invention as defined in the appended claims. Furthermore, the foregoing descriptions of the embodiment according to the present invention are provided for illustration only, and not for the purpose of limiting the invention as defined by the appended claims and their equivalents.
Number | Date | Country | Kind |
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2014-081709 | Apr 2014 | JP | national |