The present invention relates to a cartridge and an image forming apparatus.
Conventionally, image forming apparatuses that form images on sheet-shaped recording media such as papers according to an electrophotographic system or the like have been known. Examples of the image forming apparatuses include copiers, facsimile machines, printers (such as laser beam printers and LED printers), and their multi-function machines (multi-function printers).
Among such image forming apparatuses, image forming apparatuses of a cartridge type have been known. A cartridge is a unit detachably attachable to an image forming apparatus and is, for example, a process cartridge. The process cartridge includes a photosensitive member, process means (such as a charging member, a developing member, and a cleaning member) acting on the photosensitive member, or the like. By the use of the cartridge, a developer replenishing operation for the image forming apparatus or the maintenance of various process means is facilitated. That is, the photosensitive member, the charging member, the developing member, the cleaning member, and the like are collectively made into a cartridge inside a frame body, and the cartridge is made detachably attachable to the main body of the image forming apparatus. Thus, since a user himself/herself is allowed to conduct the maintenance of the apparatus through the replacement of the cartridge, operability is improved.
Some cartridges have a memory such as IC memory mounted thereon and enable the transmission and reception of information between the main body of an apparatus and the cartridges when the cartridges are mounted on the main body of the apparatus. Examples of information stored in the memory mounted on the cartridges include the lot numbers of the cartridges, the characteristics of the image forming apparatus, and the characteristics of process means. Thus, the maintenance of the main body of the apparatus or the cartridges is facilitated. In addition, the control of image formation according to information stored in the memory makes it possible to perform the image formation under optimum conditions.
Japanese Patent Application Laid-open No. 2014-102506 discloses a method for fixing a memory to the frame body or the component of a cartridge by adhesive or the like in an image forming apparatus using the cartridge on which such a memory is mounted.
There has been demanded a method for more reliably preventing a memory from falling off when the memory is provided in the cartridge of an image forming apparatus.
The present invention has been made in view of the above problem and has an object of providing a technology for preventing a memory provided in a cartridge installed in an image forming apparatus from falling off.
The present invention provides a cartridge detachably attachable to a main body of an image forming apparatus, the cartridge comprising:
a memory member that stores information relating to the cartridge; and
a supporting body that has a memory mounting portion on which the memory member is mounted, wherein
the memory member has a first surface, a second surface on a side opposite to the first surface, and a lateral surface extending in a direction crossing the first surface and the second surface,
the first surface is provided with a contact portion that is connected to a main-body electrode portion of the main body of the image forming apparatus in a case where the cartridge is installed in the main body of the image forming apparatus,
the memory mounting portion has a first opposing portion that is a surface opposing the second surface and a second opposing portion that opposes the lateral surface in a case where the memory member is mounted, and
the memory member is mounted on the memory mounting portion by arrangement of adhesive between the second surface and the first opposing portion and between the lateral surface and the second opposing portion.
According to the present invention, it is possible to provide a technology for preventing a memory provided in a cartridge installed in an image forming apparatus from falling off.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
Hereinafter, modes for carrying out the present invention will be exemplarily described in detail with reference to the drawings and embodiments. However, the functions, materials, dimensions, shapes, their relative arrangements, or the like of constituting components described in the embodiments will not intend to limit the scope of the present invention unless otherwise specifically noted. Further, the functions, materials, dimensions, shapes, their relative arrangements, or the like of members once described in the following description will be the same as those initially described unless otherwise particularly noted.
In the following description, a laser beam printer will be exemplified as an electrophotographic image forming apparatus, and a process cartridge used in the laser beam printer will be exemplified as a cartridge. The present invention may be grasped as an invention relating to a cartridge on which a memory member is mountable, or may be an invention relating to an image forming apparatus including the cartridge and the main body of an image forming apparatus. Further, the present invention may be grasped as a method for manufacturing the cartridge or a method for manufacturing the image forming apparatus, the method including a step of mounting a memory member on the cartridge.
Note that in the following description, the longitudinal direction of the cartridge will be the rotational axis direction of an electrophotographic photosensitive drum and will be a direction substantially orthogonal to a direction in which the cartridge is attached to and detached from the main body of the image forming apparatus. Further, in the longitudinal direction, a side on which the photosensitive drum receives a driving force from the main body of the image forming apparatus is defined as a driving side, and the side opposite to the driving side is defined as a non-driving side. The “front side” of the image forming apparatus is defined as a direction in which the driving side is positioned on the right and the non-driving side is positioned on the left when the main body of the image forming apparatus is seen from the front side.
First, the entire configuration and image forming process of a first embodiment will be described.
Entire Configuration
The image forming apparatus 10 shown in
According to the control of a control unit 15, the image forming apparatus 10 performs an image forming process on the sheet materials P on the basis of image information acquired by reception or the like from the outside of the apparatus.
In the apparatus main body A, a pickup roller 7a, a pair of feeding rollers 7b, a transfer roller 6, a transport guide 8, a fixing apparatus 21, a discharge roller 22, a discharge tray 23, and the like are also sequentially arranged along the transporting direction of the sheet materials P. The fixing apparatus 21 is constituted by a heat roller 21a and a pressurization roller 21b. The apparatus main body A further includes cartridge pressure members 27 and cartridge pressure springs 28 that will be described later.
The cartridge B has the photosensitive drum 1 serving as an image bearing member, a charging roller 2 serving as a charging member, a developing unit 4 serving as a developing apparatus, and a cleaning unit 5 serving as cleaning means. The developing unit 4 has a developing roller 40 (developer bearing member) including a magnet roller 36, a developing container 41 in which toner T (developer) is accommodated and retained in a toner chamber 29, a transport member 43 serving also as a stirring member, and a developing blade 42. A cleaning unit 5 includes a cleaning frame body 51 including a waste toner chamber 51a or the like and a cleaning blade 52.
Image Forming Process
Next, the image forming process will be described. On the basis of the print start signal of the control unit 15, a drive coupling 26 (see
The exposure apparatus 3 of the apparatus main body A outputs laser light L according to image information with the control of the control unit 15. When the laser light L performs scanning exposure on the outer peripheral surface of the photosensitive drum 1, an electrostatic latent image corresponding to the image information is formed on the outer peripheral surface of the photosensitive drum 1.
On the other hand, toner T accommodated in the toner chamber 29 of the developing unit 4 is stirred and transported by the rotation of the transport member 43 and delivered to a toner supply chamber 31. The toner T of the toner supply chamber 31 is born on the surface of the developing roller 40 by the magnetic force of the magnet roller 36 (stationary magnet). The developing blade 42 controls a layer thickness on the peripheral surface of the developing roller 40, while friction-charging the toner T born on the developing roller 40. Then, the toner T supplied to the photosensitive drum 1 develops an electrostatic latent image to be visualized as a toner image.
Further, in conjunction with the output timing of the laser light L, the pickup roller 7a and the pair of feeding rollers 7b transport a sheet material P accommodated in the sheet tray 17 at the lower portion of the apparatus main body A to the transfer position between the photosensitive drum 1 and the transfer roller 6. A toner image on the photosensitive drum 1 is transferred onto the sheet material P at the transfer position. The sheet material P onto which the toner image has been transferred is separated from the photosensitive drum 1 and transported to the fixing apparatus 21 along the transport guide 8. The fixing apparatus 21 performs pressurization/heat fixation processing on the sheet material P passing through the nip portion between the heat roller 21a and the pressurization roller 21b to fix the toner image onto the sheet material P. Subsequently, the sheet material P is transported to the discharge roller 22 and discharged to the discharge tray 23.
On the other hand, the cleaning blade 52 removes residual toner on the outer peripheral surface of the photosensitive drum 1 from which the toner image has been transferred and stores the removed residual toner in the waste toner chamber 51a as shown in
Entire Configuration of Cartridge
Next, the entire configuration of the cartridge B will be described.
In
As shown in
The developing unit 4 has the developing roller 40, the developing container 41 that supports the developing roller 40, the developing blade 42, and the like. The developing roller 40 is rotatably mounted on the developing container 41 by a driving-side developing bearing 46 (see
Further, the magnet roller 36 is provided in the developing roller 40. In the developing unit 4, the developing blade 42 used to control a toner layer on the developing roller 40 is arranged. As shown in
A procedure for connecting the developing unit 4 and the cleaning unit 5 to each other to constitute the cartridge B will be described. First, the center of a developing first supporting boss 46a of the driving-side developing bearing 46 corresponding to a first hanging hole 51i on the driving side of the cleaning frame body 51 and the center of a developing second supporting boss 47a of the non-driving-side developing bearing 47 corresponding to a second hanging hole 51j on the non-driving side thereof are aligned with each other. Specifically, when the developing unit 4 is moved in an arrow G direction, the developing first supporting boss 46a and the developing second supporting boss 47a are fitted into the first hanging hole 51i and the second hanging hole 51j, respectively. Thus, the developing unit 4 is rotatably connected to the cleaning unit 5. As a result, the developing roller 40 is connected so as to be capable of contacting and separating from the photosensitive drum 1. After that, the drum bearing 73 is mounted on the cleaning unit 5 to constitute the cartridge B.
Developing urging members 48 (a non-driving-side developing urging member 48L and a driving-side developing urging member 48R) formed of compression springs urge the developing unit 4 to the cleaning unit 5 by an urging force. Thus, the interval retention members 38 provided at the developing roller 40 are brought into contact with the photosensitive drum 1.
Installation of Cartridge
Next, the installation of the cartridge B will be described using
As shown in
Further, the drum bearing 73 provided on the driving side of the cartridge B is provided with a rotation stopped portion 73c (see
The rotation stopped portion 73c on the driving side of the cartridge B inserted into the apparatus main body A is guided by the driving-side guide rail 24h of the apparatus main body A. At the same time, the positioned portion 51d and the rotation stopped portion 51e on the non-driving side of the cartridge B are guided by the non-driving-side upper guide rail 25d and the non-driving-side lower guide rail 25e of the apparatus main body A, respectively.
Next, a state in which an opening/closing door 30 is closed will be described. As shown in
Further, the cartridge pressure members 27 (27R and 27L) are rotatably mounted at both ends in the axial direction of the opening/closing door 30. The cartridge pressure springs 28 (28R and 28L) are, respectively, mounted at both ends in the longitudinal direction of a front plate 29 provided in the apparatus main body A. The drum bearing 73 has a pressed portion 73e serving as an urging force receiving portion, and the cleaning frame body 51 has a pressed portion 51o on the non-driving side. When the opening/closing door 30 is closed, the pressed portions 73e and 510 of the cartridge B are pressed by the cartridge pressure members 27 (27R and 27L) urged by the cartridge pressure springs 28 (28R and 28L) of the apparatus main body A.
When the cartridge B receives a pressing force, the upper positioned portion 73d, the lower positioned portion 73f, and the rotation stopped portion 73c of the cartridge B are fixed to the upper positioning portion 24a, the lower positioning portion 24b, and the rotation stopping portion 24c of the apparatus main body A, respectively. Further, on the non-driving side, the positioned portion 51d and the rotation stopped portion 51e of the cartridge B are fixed to the non-driving-side positioning portion 25a and the non-driving-side rotation stopping portion 25c of the apparatus main body A, respectively. Thus, the cartridge B and the photosensitive drum 1 are positioned on both the driving side and the non-driving side.
Note that a configuration for positioning the cartridge B in the apparatus main body A is not limited to the above example. For example, the opening/closing door 30 may directly tuck the cartridge B or a user may tuck the cartridge B without using the cartridge pressure members 27. Further, the positions and the numbers of the positioning configurations on the side of the apparatus main body A and the positions and the numbers of the positioning configurations on the side of the cartridge B are not limited to the above example.
Tag Connector and Positioning of Memory Tag
As shown in
Meanwhile, the non-driving-side developing bearing 47 of the cartridge B is provided with the memory mounting portion 200 for mounting the memory tag 100. In the memory mounting portion 200, positioning ribs 202a and 202b and lateral wall portions 200a and 200b are provided at positions opposing the contact positioning portions 34a and 34b of the tag connector 32 when the cartridge B is installed.
As the cartridge B is inserted into the apparatus main body A, the lateral wall portions 200a and 200b and the positioning ribs 202a and 202b engage the opposing contact positioning portions 34a and 34b, respectively. When the memory mounting portion 200 is positioned with respect to the tag connector 32 in the manner described above, the cartridge B is positioned in the apparatus main body A. As a result, the contact portions 101 of the memory tag 100 contact the main-body electrode portions 33 of the tag connector 32 to establish electrical connection. Thus, the transmission and reception of information between the cartridge B and the apparatus main body A is made possible.
Configurations of Memory Tag and Memory Mounting Portion
The detailed configurations of the memory tag 100 and the memory mounting portion 200 will be described.
Memory Tag
The memory tag 100 includes a storage element that stores information relating to the cartridge B. The information includes, for example, the lot number of the cartridge, the characteristic information of the cartridge, the characteristic information of the image forming apparatus to which the cartridge is installed, or the like. By referring to these information items, it is possible to facilitate the maintenance of the apparatus main body A or the cartridge B.
The memory tag 100 exemplified in
Memory Mounting Portion
A configuration for mounting the memory tag 100 on the cartridge B will be specifically described with reference to
The memory mounting portion 200 for accommodating and fixing the memory tag 100 is formed as a substantially quadrangular depressed portion in a plan view at the prescribed position of the non-driving-side developing bearing 47 serving as the exterior portion of the cartridge B (see
Note that in the following description, a direction perpendicular to the surface of the bottom surface opposing portion 201b will be defined as a height direction and a distance from the surface of the bottom surface opposing portion 201b in the height direction will be defined as a height for the sake of convenience.
As shown in
In the accommodation portion 201, the positions of the respective lateral surfaces 100c of the memory tag 100 are restricted by the lateral surface restriction portions 201c opposing the respective lateral surfaces 100c. Here, in order to cause the main-body electrode portions 33 of the apparatus main body A to reliably contact the contact portions 101 of the memory tag 100, the movement of the memory tag 100 inside the accommodation portion 201 is needed to be suppressed to a greater extent. In the present embodiment, a width Lb between the opposing lateral surface restriction portions 201c is therefore set to be slightly greater than a width Lmb of the memory tag 100 (Lb<Lmb). Thus, both the smooth accommodation of the memory tag 100 in the accommodation portion 201 and the prevention of the free movement of the memory tag 100 inside the accommodation portion 201 are achieved.
Mounting and Fixation of Memory Tag on Memory Mounting Portion
The memory tag 100 is fixed onto the memory mounting portion 200 via the adhesive 300. In a fixed state, the adhesive 300 exists between the bottom surface 100b and the bottom surface opposing portion 201b and between the lateral surfaces 100c and the lateral surface restriction portions 201c. As the adhesive 300, one having adequate bonding strength for the respective materials of the memory tag 100 and the memory mounting portion 200 is preferably used. For example, when an epoxy resin or a glass epoxy resin is used as the memory tag 100 and a PPE resin (polyphenylene ether), a PE resin (polyethylene), a PS resin (polystyrene), or a PP resin (polypropylene) is used as the memory mounting portion 200, a cyanoacrylate adhesive may be used. However, the types of the materials of the memory tag 100, the memory mounting portion 200, and the adhesive 300 are not limited to the above materials.
In the mounting of the memory tag 100, the adhesive 300 is first applied onto the accommodation portion 201 as shown in
Further, when the adhesive 300 is applied by such an amount that the height of the upper surface 300a of the adhesive 300 becomes lower than that of the contact surface 100a, the adhesive 300 is prevented from adhering to the contact surface 100a. Accordingly, it is possible to secure the electrical connection between the main-body electrode portions 33 of the tag connector 32 and the contact portions 101 of the memory tag 100.
In the present embodiment, the lateral surface buffer portions 201d and the inclination surfaces 201e are provided at regions closer to the contact surface 100a than the lateral surface restriction portions 201c as shown in
Here, as shown in
Here, in manufacturing a multiplicity of cartridges B, the upper surface 300a of the adhesive 300 in the respective cartridges B preferably has a prescribed height. However, in a manufacturing step, there is a likelihood that the height of the upper surface 300a fluctuates since the application amount of the adhesive 300 slightly fluctuates. Therefore, by providing the lateral surface buffer portions 201d and the inclination surfaces 201e in the accommodation portion 201 as in the present embodiment, it is possible to reduce a fluctuation in the height of the upper surface 300a even if the application amount of the adhesive 300 fluctuates.
In addition, according to the present embodiment, the memory tag 100 is put in the lateral surface restriction portions 201c along the inclination surfaces 201e even if the memory tag 100 contacts the accommodation portion 201 when the memory tag 100 is inserted into the accommodation portion 201. Thus, since the bottom surface 100b adheres closely to the bottom surface opposing portion 201b, it is possible to reliably mount the memory tag 100 on the memory mounting portion 200.
As described above, according to the present embodiment, it is possible to firmly fix the memory tag 100 onto the memory mounting portion 200 by the adhesive 300 and prevent the memory tag from falling off the memory mounting portion. In addition, it is possible to reduce a fluctuation in the height of the upper surface 300a of the adhesive 300. In addition, it is possible to smoothly mount the memory tag 100 on the memory mounting portion 200.
In the above description, the non-driving-side developing bearing 47 of the developing unit 4 is given as an example as a supporting body on which the memory mounting portion 200 is provided. However, the present invention is not limited to this example. As another example to which the present invention is applicable,
In addition, the memory tag mounting configuration of the present embodiment is also applicable to a cartridge other than a process cartridge. Examples of other cartridges include a drum cartridge having a photosensitive drum and a developing cartridge including a developer bearing member for supplying developer to an image bearing member on which a toner image is formed and a developer accommodation portion accommodating the developer. In addition, examples of other cartridges include a developer cartridge accommodating developer and an inkjet cartridge accommodating ink used in an inkjet recording apparatus. Besides, the present invention is applicable in a case in which a memory tag is mounted on a cartridge detachably attachable to the apparatus main body of an image forming apparatus.
Subsequently, a second embodiment will be described. Since the present embodiment is roughly characterized in the configuration of a memory mounting portion and the mounting and fixing method of a memory tag, the portions will be mainly described. The descriptions of the same configurations as those of the first embodiment will be simplified.
Lenticulation and Scattering of Adhesive
Here, the lenticulation, scattering, or the like of adhesive 1300 that could occur when a memory tag 100 is mounted on an accommodation portion 1201 as shown in the first embodiment by adhesive 1300 having low viscosity as a material characteristic will be described.
When the memory tag 100 is inserted into the accommodation portion 1201 to which the adhesive 1300 is applied, the adhesive 1300 is pressed and expanded to the memory tag 100. Here, when the adhesive 1300 has low viscosity (for example, about 2 mpa·s), lenticulation 1301 is likely to occur in the pressed and expanded adhesive 1300 as shown in
In addition, when a speed at which the memory tag 100 is mounted is fast, the adhesive extruded by the memory tag 100 sometimes flies out as a droplet 1302 as shown in
Accordingly, when the adhesive 1300 having low viscosity is used under the configuration of the first embodiment, there is a need to accurately manage the application amount of the adhesive 1300 and prevent the lenticulated adhesive 1300 from running on the contact surface 100a. Further, there is a need to decrease the mounting speed of the memory tag 100 to reduce the scattering of the adhesive 1300.
Memory Mounting Portion
In view of this problem, the present embodiment provides a configuration for stably mounting the memory tag 100 on a cartridge B even when the adhesive 1300 having low viscosity is used.
Like the first embodiment, the memory tag 100 is accommodated in a memory mounting portion 1200 and fixed by the adhesive 1300 to be mounted on the cartridge B. Further, the memory mounting portion 1200 of the present embodiment is also provided at a non-driving-side developing bearing 47 serving as the exterior portion of the cartridge B as a substantially quadrangular depressed portion having its one end opened. The depressed portion is constituted as the accommodation portion 1201. The accommodation portion 1201 includes a bottom surface opposing portion 1201b (first opposing portion) opposing a bottom surface 100b of the memory tag 100 and lateral surface restriction portions 1201c (second opposing portions) opposing lateral surfaces 100c.
In addition, as shown in
Note that the shape of the flow path groove 1201f is not limited to the example shown in
For example, the shape of the flow path groove 1201f is not limited to a cross shape including crosswise grooves at the central portion of the bottom surface opposing portion 1201b. Alternatively, the number of grooves in a lengthwise direction and/or a widthwise direction may be increased, or grooves in an oblique direction may be added. Further, for example, the flow path groove 1201f may be provided only at the central portion of the bottom surface opposing portion 1201b. In this case, the shape is not limited to a cross shape. As opposed to this, only the flow path groove 1201f surrounding the bottom surface opposing portion 1201b may be provided.
In the present embodiment, lateral surface buffer portions 1201d, accumulation groove portions 1201g, slant portions 1201e, and overflow step portions 1201h are further provided at positions more distant from the bottom surface opposing portion 1201b than the lateral surface restriction portions 1201c.
The height of the lateral surface restriction portions 1201c in its direction perpendicular to a surface forming the bottom surface opposing portion 1201b is set to fall within a range not greater than the thickness of the memory tag. By setting such a height, it is possible to prevent the adhesive 1300 from rebounding after hitting the lateral surface restriction portions 1201c when the memory tag 100 is inserted. In the present embodiment, the lateral surface restriction portions 1201c are set to have a height of 0.8 mm (see
The accumulation groove portions 1201g are groove-shaped portions formed at positions lower than the apexes of the lateral surface restriction portions 1201c in their direction perpendicular to the surface forming the bottom surface opposing portion 1201b. In the present embodiment, the accumulation groove portions 1201g are provided at two right and left spots that are parts of the four sides of the bottom surface opposing portion 1201b as shown in
The lateral surface buffer portions 1201d are provided at positions more distant from the bottom surface opposing portion 1201b than the lateral surface restriction portions 1201c so as to surround the lateral surface restriction portions 1201c in all directions. About the spots at which the accumulation groove portions 1201g are provided, the lateral surface buffer portions 1201d are provided at positions more distant from the bottom surface opposing portion 1201b than the accumulation groove portions 1201g. It can be said that the lateral surface buffer portions 1201d generally define the outermost periphery of the entire accommodation portion 1201.
The upper surfaces of the lateral surface restriction portions 1201c are called lateral-surface restriction upper surface portions 1201i. On the lateral-surface restriction upper surface portions 1201i, the slant portions 1201e and the overflow step portions 1201h are provided. The overflow step portions 1201h are provided so as to connect the lateral surface restriction portions 1201c and the accumulation groove portions 1201g to each other. The height of the overflow step portions 1201h is lower than that of the lateral-surface restriction upper surface portions 1201i and higher than those of the accumulation groove portions 1201g and the bottom surface opposing portion 1201b in a direction perpendicular to the surface of the bottom surface opposing portion 1201b.
The slant portions 1201e have a slant shape that is lower on its side close to the lateral surface restriction portions 1201c and higher on its side close to the accumulation groove portions 1201g in the direction perpendicular to the surface of the bottom surface opposing portion 1201b of the lateral surface restriction portions 1201c. The slant portions 1201e play a role in luring the memory tag 100 when the memory tag 100 is mounted.
Mounting and Fixation of Memory Tag on Memory Mounting Portion
First, as shown in
The applied adhesive 1300 circulates around the surface of the bottom surface opposing portion 1201b along the flow path grooves 1201f provided in a cross shape at the center of the bottom surface opposing portion 1201b (as indicated by arrows Ya in
In addition, the configuration of the present embodiment is also applicable to a case in which the application amount of the adhesive 1300 fluctuates within the surface of the adhesive 1300 and the adhesive 1300 partially overflows. That is, the overflowing adhesive 1300 flows into the accumulation groove portions 1201g along the overflow step portions 1201h lower in height than the lateral-surface restriction upper surface portions 1201i (as indicated by arrows Yb in
Next, as shown in
Then, as shown in
In addition, the surplus adhesive 1300 that overflows after being pressed and expanded by the memory tag 100 gets over the lateral-surface restriction upper surface portions 1201i and flows out in the direction of the lateral surface buffer portions 1201d. At this time, since the overflowing surplus adhesive 1300 runs down the accumulation groove portions 1201g before hitting the lateral walls of the lateral surface buffer portions 1201d with the provision of the accumulation groove portions 1201g (as indicated by arrows Yc in
Further, as shown in
Like the first embodiment, the positions of the respective lateral surfaces 100c of the memory tag 100 are restricted by the opposing lateral surface restriction portions 1201c in the accommodation portion 1201. Therefore, in order to make main-body electrode portions 33 of an apparatus main body A reliably contact portions 101 of the memory tag 100 to enable information communication in the present embodiment as well, the width between the opposing lateral surface restriction portions 1201c may only be slightly greater than that of the memory tag 100.
The above configuration makes it possible to cause the surplus adhesive 1300 overflowing during the application of the adhesive 1300 or during the mounting of the memory tag 100 to positively flow into the accumulation groove portions 1201g. Therefore, it is possible to prevent the lenticulation of the adhesive 1300 or prevent the overflow of the adhesive 1300 to the contact surface 100a of the memory tag 100. As a result, it is possible to prevent the overflowing surplus adhesive 1300 from adhering to the contact portions 101 of the contact surface 100a of the memory tag 100 or prevent the same from scattering to the accommodation portion 1201 or the outside of the cartridge B. Accordingly, it is possible to stably secure the electrical connection between the main-body electrode portions 33 of the tag connector 32 and the contact portions 101 of the memory tag 100.
In addition, the above configuration makes it possible to prevent the lenticulation of the adhesive 1300 or prevent the adhesive 1300 from scattering to the contact portions 101 of the contact surface 100a of the memory tag 100 during the mounting of the memory tag 100. Therefore, it is possible to further prevent a fluctuation in the application of the adhesive 1300 during the mounting and stably mount the memory tag 100. Further, since scattering is not likely to occur even if the mounting speed of the memory tag 100 is increased, productivity is improved.
Note that the installation place of the memory mounting portion 1200 is provided at the non-driving-side developing bearing 47 of the developing unit 4 but is not limited to this. The configuration of the present embodiment is also applicable to a cartridge B that is the same as the one described using
As described above, it is possible to firmly fix a memory tag to a memory mounting portion by adhesive and prevent the memory tag from falling off the memory mounting portion according to the respective embodiments of the present invention. Note that it is possible to arbitrarily combine together the constituting elements relating to the shape of the memory mounting portion described in the respective embodiments of the present invention so long as any contradiction does not arise between the constituting elements.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2020-144891, filed Aug. 28, 2020, which is hereby incorporated by reference wherein in its entirety.
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JP2020-144891 | Aug 2020 | JP | national |
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20220066353 A1 | Mar 2022 | US |