JP2014149519A - Developer storage unit, process cartridge, and image forming apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a developer storage unit that can be easily manufactured and includes a developer bag having excellent openability.SOLUTION: A developer storage unit stores developer, and includes a developer bag having flexibility and a discharge part discharging developer, and a plurality of frame bodies supporting the developer bag inside thereof and constituting the developer storage unit. The developer bag is supported by being held in a gap part formed between the frame bodies in association with the connection of the plurality of frame bodies.

Description

  The present invention relates to a developer storage unit that stores a developer, and a process cartridge or an image forming apparatus including the developer storage unit.

  In a conventional electrophotographic image forming apparatus using an electrophotographic image forming process, an electrophotographic photosensitive member and process means acting on the electrophotographic photosensitive member are integrally formed into a cartridge, and the cartridge can be attached to and detached from the main body of the electrophotographic image forming apparatus. A cartridge system is adopted.

  Further, there has been devised one using a deformable inner container for the problem that the developer scatters in the process cartridge in the developer filling process at the time of manufacturing the process cartridge (Patent Document 1). This is a deformable inner container for the purpose of improving the operability of supplying the developer and reducing the cost of the developer supply device by preventing scattering in the apparatus.

Japanese Patent Laid-Open No. 4-66980

  However, as in Patent Document 1, it is difficult to manufacture the elastic member inside the inner container for storing the developer, and the cost may be increased.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to make a developer storage unit easy to manufacture and to have an excellent developer bag opening property.

A typical configuration of the present invention for achieving the above object is as follows.
A developer storage unit for storing the developer,
A flexible developer bag having a discharge portion for discharging the developer;
A plurality of frames that support the developer bag and constitute the developer storage unit;
Have
The developer bag is sandwiched and supported by a gap formed between the frames as the plurality of frames are joined.

  With the above configuration, the developer storage unit can be easily manufactured and the developer bag can be easily opened.

FIG. 3 is a main cross-sectional view of a process cartridge having the developer storage unit of the first embodiment. 1 is a main cross-sectional view of an image forming apparatus according to a first embodiment. The perspective view from the cross section of the developer storage container of 1st Embodiment. FIG. 2 is a cross-sectional view of the developing device according to the first embodiment. FIG. 3 is an overall cross-sectional view illustrating an operation of discharging the developer from the developer bag according to the first embodiment. FIG. 3 is an overall cross-sectional view illustrating an operation of discharging the developer from the developer bag according to the first embodiment. FIG. 3 is a detailed cross-sectional view illustrating an operation of discharging the developer from the developer bag according to the first embodiment. FIG. 3 is a detailed cross-sectional view illustrating an operation of discharging the developer from the developer bag according to the first embodiment. FIG. 3 is an overall cross-sectional view illustrating an operation of discharging the developer from the developer bag according to the first embodiment. Explanatory drawing before opening of the developer storage container of 1st Embodiment. The perspective view from the cross section of the developer storage container of 1st Embodiment. Cross-sectional explanatory drawing of the developer storage container of 1st Embodiment. Explanatory drawing of the developer storage container of 1st Embodiment. The perspective view explaining the developer bag support structure of a 1st embodiment. Sectional drawing explaining the developer bag support structure of 1st Embodiment. The perspective view explaining the developer bag support structure of a 2nd embodiment. Sectional drawing explaining the developer bag support structure of 2nd Embodiment. Sectional drawing explaining the developer bag support structure of the modification of 2nd Embodiment. The perspective view explaining the developer bag support structure of a 3rd embodiment. Sectional drawing explaining the developer bag support structure of 3rd Embodiment. Sectional drawing explaining the developer bag support structure of 4th Embodiment. Sectional drawing explaining the developer bag support structure of 5th Embodiment. Sectional drawing explaining the developer bag support structure of 6th Embodiment. Sectional drawing explaining the developer bag support structure of 7th Embodiment. Sectional drawing explaining the developer bag support structure of 8th Embodiment. Sectional drawing explaining the developer bag support structure of 9th Embodiment. Sectional drawing explaining the developer bag support structure of 10th Embodiment.

  In the following description, the developer storage container indicates at least a flexible container and a sealing member that seals an opening for discharging the developer provided in the flexible container. The developer accommodating unit includes at least a developer accommodating container and a frame that accommodates the developer accommodating container.

[First Embodiment]
FIG. 1 is a main cross-sectional view of a process cartridge having a developer containing unit according to the first embodiment. FIG. 2 is a main cross-sectional view of the image forming apparatus according to the first embodiment.

<Outline of process cartridge configuration>
The process cartridge includes an image carrier and process means acting on the image carrier. Here, as the process means, for example, a charging means for charging the surface of the image carrier, a developing device for forming an image on the image carrier, and a developer (including toner, carrier, etc.) remaining on the surface of the image carrier are removed. There are cleaning means for.

  As shown in FIG. 1, the process cartridge A of this embodiment includes a charging roller 12 as a charging unit around a photosensitive drum 11 as an image carrier, and a cleaner unit 24 having an elastic cleaning blade 14 as a cleaning unit. Is provided.

  Further, the process cartridge A includes a developing device 38 having a first frame 17 and a second frame 18. The process cartridge A is configured by integrating the cleaner unit 24 and the developing device 38. The developing device 38 includes a developing roller 13 as a developing unit, a developing blade 15, a developer supply roller 23, and a developer storage container 26 that stores a developer that stores the developer. The developing roller 13 and the developing blade 15 are supported by the first frame 17.

<Outline of configuration of image forming apparatus>
As shown in FIG. 2, the process cartridge A is configured to be detachable from the image forming apparatus main body B.

  The image forming operation is performed as follows. The sheet S is conveyed by the conveyance roller 7 from the sheet cassette 6 mounted at the lower part of the apparatus. On the other hand, in synchronism with the conveyance of the sheet S, the photosensitive drum 11 is selectively exposed from the exposure device 8 to form a latent image.

  The developer is supplied to the developing roller 13 (developer carrier) by a sponge-like developer supply roller 23 and is carried on the surface of the developing roller 13 by a developing blade 15. By applying a developing bias to the developing roller 13, a developer is supplied in accordance with the latent image and developed into a developer image.

  This image is transferred to the conveyed sheet S by applying a bias voltage to the transfer roller 9. When the sheet S is conveyed to the fixing device 10, the toner image is fixed on the sheet S and is discharged by the discharge roller 1 to the sheet discharge unit 3 at the top of the apparatus.

<Configuration outline of developer storage unit>
The configuration of the developer storage unit 25 will be described with reference to FIGS. 3, 4, 7, and 11. FIG. 3 is a perspective view from the cross section of the developer storage container of the first embodiment. FIG. 4 is a sectional view of the developing device according to the first embodiment. FIG. 7 is a detailed cross-sectional view for explaining the operation of discharging the developer in the developer bag of the first embodiment. FIG. 7 is a plane that passes through the opening member 20, the opening 35a, and the positioning portion 16d. FIG. 7 is a plane perpendicular to the rotation axis of the opening member 20. FIG. 11 is a perspective view from the cross section of the developer container of the first embodiment. FIG. 11 omits the opening member 20 in FIG.

(Developer storage unit)
As shown in FIG. 4, the developer storage unit 25 includes a developer storage container 26, a developing roller 13, a developing blade 15, and a first frame 17 and a second frame 18 that support them. A combination of the first frame body 17 and the second frame body 18 is a frame body for storing the developer storage container 26.

  In the present embodiment, the developer storage unit 25 is the same as the developing device 38. This is because the developer storage unit 25 has the developing roller 13 and the developing blade 15. However, the developing roller 13 and the developing blade 15 may be supported by a separate frame from the developer storage unit 25 and separated from the developer storage unit 25. In this case, the developing device 38 includes the developer storage unit 25, the developing roller 13, and the developing blade 15.

(Developer container with an opening member)
As shown in FIGS. 3 and 4, the developer storage container 26 having an opening member includes an opening member 20 and a developer storage container 26.

  The opening member 20 includes a sealing member 19 and an engaging portion 20 b that engages with the sealing member 19. By engaging the engaged portion 19b of the developer storage container 26 and the engagement portion 20b of the opening member 20, the developer storage container 26 that does not have the opening member 20 shown in FIG. A developer container 26 having the member 20 is obtained.

(Developer storage container containing developer)
FIG. 13 is an explanatory diagram of the developer container of the first embodiment. As shown in FIG. 13, the developer storage container 26 includes a developer, a developer bag 16, and a sealing member 19. Here, the developer is a powder.

  The developer bag 16 of the developer container 26 has a joint portion 39a in which a plurality of openings 35a for discharging the developer is sealed with a sealing member 19 and an injection port 39 for containing the developer is sealed. Thus, each opening 35a and injection port 39 of the developer storage container 26 storing the developer is sealed. For this reason, the stored developer can be handled as one unit without leaking out.

  The sealing member 19 is provided with a hole serving as an engaged portion 19 b that engages with the opening member 20. For this reason, the sealing member 19 can be engaged with the opening member 20.

(Developer storage container for storing developer)
As shown in FIG. 13, the developer storage container 26 for storing the developer includes a developer bag 16 and a sealing member 19.

  The developer bag 16 has an injection port 39 for containing the developer and an opening 35a for discharging the developer. The sealing member 19 seals the plurality of openings 35a for discharging the developer and exposes the openings 35a by being moved.

  In the state shown in FIG. 13A or 13B, the developer container 26 for containing the developer is not yet filled with the developer, and the inlet 39 for containing the developer is opened. is there.

(Effect of having a developer bag in the developing device)
When the developer storage container 26 storing the developer takes a bag shape, the developer can be handled as a unit. Then, the developer filling process can be separated from the main assembly process (production line) of the process cartridge A.

  As a result, the developer is not scattered in the main assembly process (production line) of the process cartridge A, and maintenance such as cleaning of the production line can be reduced. Further, since the scattering of the developer is eliminated during the assembly process, the cleaning process of the process cartridge A after filling the developer can be omitted.

  Further, in the filling process of the developer bag 16, the developer bag 16 has flexibility and the filling port 39 for filling is soft, so that the developer is hardly scattered and can be easily sealed. it can.

  Further, since the developer storage container 26 storing the developer has flexibility, it can be assembled following the shape of the first frame 17 and the second frame 18.

  Further, in the filling step, the developer container 26 is flexible, so that the cross-section can be deformed to increase the volume. For this reason, the filling amount can be increased at the time of filling.

  Further, since the developer container 26 before being filled with the developer has flexibility, it can be made small (thin). Then, the storage space at the time of storage before filling can be reduced as compared with the frame which is a resin structure.

<Configuration of developer bag>
As shown in FIGS. 3 and 4, the developer bag 16 is a bag-shaped bag that houses a developer and can be deformed. The developer bag 16 is provided with a plurality of openings 35a in the discharge portion 35 in order to discharge the stored developer.

  Further, the developer bag 16 has a positioning portion 16d inserted between the first frame 17 and the gap 5 between the second frame.

(Developer bag material, breathability)
FIG. 12 is a cross-sectional explanatory view of the developer storage container of the first embodiment. (A) shows the developer bag 16 of this embodiment, (b) is an example of the developer bag 16 formed only by the air-permeable sheet 16s, and (c) does not have air-permeability. It is an example of what bonded the sheet | seat.

  As shown in FIG. 12A, the developer storage portion of the developer bag 16 of the present embodiment is configured by laminating a non-breathable sheet 16u and a breathable sheet 16s serving as a vent portion. Is done. A discharge portion 35 is formed on the sheet 16u.

  The air permeability of the sheet 16s having air permeability may be appropriately selected so that the developer does not leak out of the developer bag 16 in consideration of the size of the developer to be stored (particle size of the powder).

  As a material of the air-permeable sheet 16s, a nonwoven fabric having a thickness of 0.03 to 0.15 mm is preferable, such as polyethylene terephthalate (PET), polyethylene (PE), and polypropylene (PP). Further, the material of the air permeable sheet 16s is not a non-woven fabric, but may be one having finer holes than the powder of developer or the like stored in the developer bag 16.

  Further, in the present embodiment, as shown in FIGS. 3 and 12A, the air-permeable sheet 16 s is disposed on the second frame 18 side over the entire longitudinal direction of the developer bag 16. 16s are arranged.

  The material of the developer bag 16 other than the air-permeable sheet 16s is preferably flexible so as to improve the efficiency when the developer is discharged. Further, the material of the air permeable sheet 16s may be made flexible.

  The developer bag 16 is not limited to the configuration shown in FIG. 12A. As shown in FIG. 12B, the air-permeable sheet 16s may be configured by 16s as a whole. Good. Moreover, as shown in FIG.12 (c), the sheet | seat 16a which does not have air permeability, and the discharge part 35 is formed, and the sheet | seat 16b which does not have air permeability are welded and bonded by the bonding part 16c. The developer bag 16 may be used.

(Developer bag outlet configuration)
FIG. 10 is an explanatory diagram before the developer container of the first embodiment is opened.

  As shown in FIGS. 3 and 10, the developer bag 16 has a discharge portion 35 including a plurality of openings 35 a for discharging the internal developer and a connection portion 35 b defining the plurality of openings 35 a. The discharge portion 35 of the developer bag 16 is sealed by the sealing member 19 so that it can be opened. Specifically, the joint portion 22 to which the sealing member 19 is joined is formed around the discharge portion 35. Since the joining portion 22 continuously surrounds the periphery of the discharge portion 35, the developer stored in the developer bag 16 is sealed.

(Developer bag joint configuration)
The joint portion 22 is continuous in a “R” shape surrounded by two in the longitudinal direction (arrow F direction) and two in the short direction (arrow E direction). Of the two joints welded in the direction of arrow F, the first joint 22a is opened first, and the second joint 22b is opened later.

  In this embodiment, when it sees along the surface of the sealing member 19, the junction part on the side close | similar to the folding | turning part 19d mentioned later or the to-be-engaged part 19b is made into the 1st junction part 22a. Further, a joint portion facing the first joint portion 22a across the opening 35a is referred to as a second joint portion 22b. Also, the short direction joint is referred to as a short joint 22c.

  In this embodiment, the opening direction is the direction of arrow E. The opening direction is defined as follows. When the sealing member 19 is moved for opening, the first joint portion 22a is first opened (peeled) at the first joint portion 22a and the second joint portion 22b across the opening 35a. Thus, let the arrow E direction which goes to the 2nd junction part 22b from the 1st junction part 22a opened previously be an opening direction.

  When the sealing member 19 is opened from the developer bag 16 in the direction of arrow E (when peeled), when viewed microscopically, the developer bag due to the opening force also in the first joint portion 22a and the second joint portion 22b. Due to the deformation of 16, peeling may also proceed in the direction of arrow F. However, the opening direction in this embodiment does not indicate such a microscopic opening direction.

<Configuration of sealing member>
As shown in FIGS. 3 and 4, the sealing member 19 covers the discharge portion 35 of the developer bag 16 and seals the developer in the developer bag 16 before the process cartridge A is used. The sealing member 19 is exposed to expose the opening 35a.

  The configuration of the sealing member 19 includes a sealing portion 19a that covers the discharge portion 35 of the developer bag 16, an engaged portion 19b that is fixed to an opening member 20 that will be described later, and a sealing portion 19a and an engaged portion 19b. It is a sheet-like thing which has the sealing member connection part 19c which has connected. The sheet is a laminate material having a sealant layer that exhibits an easy-opening property, which will be described later, and the base material is polyethylene terephthalate (PET), polyethylene, polypropylene, etc., and the thickness is suitably selected from 0.03 to 0.15 mm. That's fine.

(Sealing part of sealing member)
The sealing portion 19 a refers to a region in the sealing member 19 that seals the plurality of openings 35 a and the connecting portions 35 b of the developer bag 16. Due to the presence of the sealing portion 19a, the developer does not leak from the developer bag 16 until the process cartridge A is used.

(Engagement part of sealing member)
The sealing member 19 has a free end on one end side in the direction of arrow E, which is the opening direction. An engaged portion 19b is formed at the end opposite to the free end. It is engaged with the opening member 20 at the engaged portion 19b. Thereby, when the opening member 20 rotates, the sealing member 19 moves.

  The unsealing member 20 may be one that automatically opens in response to driving from the image forming apparatus main body B. Alternatively, the user may perform opening by holding and moving the opening member.

  In the present embodiment, the opening member 20 is a rotating shaft provided on the second frame 18. When the sealing member 19 engaged with the opening member 20 is pulled, the developer storage container 26 storing the developer is opened.

<Configuration of opening member>
The opening member 20 applies a force to the sealing member 19 to move the sealing member 19 and peel it off from the developer bag 16. The unsealing member 20 has a shaft-shaped support portion (not shown) that is rotatably supported by the second frame 18 at both ends, and an engagement portion 20 b that fixes the engaged portion 19 b of the sealing member 19.

  In this embodiment, the opening member 20 has a square shaft shape, and the engaged portion 19b of the sealing member 19 engages with the engaging portion 20b on one surface of the square shaft.

<Outline of opening developer bag>
The opening of the developer bag 16 will be described with reference to FIGS. 5, 6, 7, 8, and 9. 5, 6 and 9 are overall sectional views for explaining the operation of discharging the developer in the developer bag of the first embodiment. FIG. 5 shows the state immediately before the opening, FIG. 6 shows the state during the opening operation, and FIG. 9 shows the state after the opening operation. That is, the opening operation proceeds in the order of FIG. 5, FIG. 6, and FIG.

  FIG. 8 is a detailed cross-sectional view for explaining the operation of discharging the developer in the developer bag of the first embodiment. FIG. 7 shows a state immediately before the start of opening and during the opening operation, and FIG. 8 shows a state after the opening operation. That is, the opening operation proceeds in the order of FIG. 7A, FIG. 7B, FIG. 7C, FIG. 8A, and FIG.

  A part of the opening member 20 serves as a force point portion 20a that gives a force for pulling the sealing member 19 in the opening process. The force point portion 20a is a portion closest to the joint portion 22 in a portion where the sealing member 19 and the opening member 20 are in contact with each other at the moment of opening. For example, in FIG.7 (b), the corner | angular part 20c of the opening member 20 turns into a power point part 20a.

  The opening member 20 is transmitted with a driving force and rotates in the direction of arrow C. When the rotation of the unsealing member 20 proceeds, the sealing member 19 is pulled and the unsealing of the first joint portion 22a starts.

  The state immediately before opening is shown in FIGS. 5 and 7B. As the unsealing member 20 rotates, the sealing member 19 fixed to the unsealing member 20 is pulled in the direction of the arrow D with the corner portion 20c of the square unsealing member 20 serving as a power point portion 20a.

  When the sealing member 19 is pulled, the developer bag 16 is pulled through the joint portion 22, and a force is applied to the positioning portion 16 d of the developer bag 16. Since the positioning portion 16d is fixed to the pressing rib 18c of the second frame 18, the developer bag 16 is pulled from the pressing rib 18c toward the power point portion 20a. Then, in the cross section perpendicular to the rotation axis of the opening member 20, the first joint portion 22a moves so as to approach a line connecting the force point portion 20a and the pressing rib 18c.

  At this time, as shown in FIGS. 5 and 7B, in the direction of arrow D, the opening 35a, the first joining portion 22a, the folded portion 19d, and the pressing rib 18c are arranged in this order from the direction close to the rotation axis of the opening member 20. Will be placed.

  Here, since the sealing member 19 is folded back at the folded portion 19d between the first joint portion 22a and the engaged portion 19b, a force is applied so that the first joint portion 22a is inclined and peeled in the direction of arrow D. It takes. At this time, the first joining portion 22a is peeled off, and opening of the discharge portion 35 is started.

  In the state where opening has started, the force point portion 20a moves in the direction of the arrow C together with the corner portion 20c, as shown in FIGS. 7 (b) and 7 (c). When the corner portion 20d and the sealing member 19 are in contact with each other, the power point portion moves from the corner portion 20c to the corner portion 20d.

  As shown in FIG. 6 and FIG. 7C, when the rotation of the opening member 20 proceeds and the opening of the sealing member 19 proceeds, the folded portion 19d also proceeds in the direction of arrow E. Thereafter, when the opening is further advanced, the opening 35a is exposed as shown in FIG.

  FIG. 8A shows a state in which peeling of the second bonding portion 22b starts after the opening 35a is exposed. The sealing member 19 is pulled in the direction of the power point portion 20a of the opening member 20 in the same manner as the peeling of the first joint portion 22a. At this time, since the developer bag 16 is fixed to the pressing rib 18c, tension is generated in the direction of the arrow H. Then, the 2nd junction part 22b moves so that it may approach on the line | wire which tied the force point part 20a and the press rib 18c.

  And when the force of the arrow D direction is applied to the part of the 2nd junction part 22b, as shown in FIG.8 (b) and FIG. 9, the sealing member 19 will peel from the 2nd junction part 22b. When the second bonding portion 22b is peeled off from the sealing member 19, the opening operation is completed. Thereafter, the developer inside the developer bag 16 can be discharged from the opening 35a of the discharge portion 35, and the developer is discharged in the direction of arrow I.

  In this embodiment, the discharge part 35 of the developer bag 16 is opened by winding the sealing member 19 by the rotation of the opening member 20. Since the sealing member 19 is wound around the opening member 20, the space required for the movement of the opening member 20 only needs to be a rotation space of the opening member 20, compared to a case where the sealing member 19 is moved by a method other than rotation. Space saving.

  The unsealing member 20 may be manually rotated by the user to wind up the sealing member 19. However, when the unsealing member 20 is rotated by driving from the image forming apparatus main body B and the sealing member 19 is wound up, the user This is more preferable because it does not bother the user.

  In the present embodiment, the sealing member 19 is provided with a folded portion 19d. Thereby, the joining part 22 can be inclined peeling without shearing peeling. For this reason, the sealing member 19 can be reliably peeled from the discharge part 35, and the developer bag 16 can be opened.

  In addition, when a pressing rib 18c (protrusion) for pressing the developer bag 16 is provided on the frame, a part of the developer bag 16 is fixedly supported when opened. Thereby, even the developer bag 16 that is soft and freely deformable can be reliably opened.

  Further, regarding the discharge of the developer at the time of opening, as described above, the joint portion 22 moves on the line connected by the force point portion 20a and the pressing rib 18c at the time of opening. By this movement, the developer around the opening 35a is moved, and the aggregation of the developer can be broken.

(Relationship of fixed parts related to opening)
As shown in FIG. 4, in order to reliably peel off the first joint portion 22a, the following arrangement relationship is required between the first joint portion 22a and the pressing rib 18c.

  At the time of opening, the opening member 20 pulls the sealing member 19 in the arrow D direction. At this time, in the direction of arrow D in which the sealing member 19 moves, the pressing rib 18c is provided on the upstream side of the opening 35a. For this reason, the tension | tensile_strength which arises by fixation of the press rib 18c in the direction of arrow H is added.

  Therefore, when the opening force is applied, a part of the developer bag 16 is pulled in the direction of the arrow H between the pressing rib 18c and the opening member 20, and the sealing member 19 is pulled in the direction of the arrow D. Thereby, force is applied in the direction in which the first joint 22a is peeled off. Thereafter, the sealing member 19 is opened in the direction of arrow E.

  On the other hand, if the pressing rib 18c is not provided, when the opening member 20 pulls the sealing member 19, the entire developer bag 16 is pulled. Then, a force cannot be efficiently applied to the first joint portion 22a, and the opening operation cannot be performed smoothly.

  Thus, in the present embodiment, the pressing rib 18c is provided on the upstream side in the arrow D direction in which the sealing member 19 moves. Thereby, reliable opening becomes possible.

  As described above, the driving force is transmitted to the opening member 20 of the image forming apparatus main body B, so that the sealing member 19 (= toner seal) can be opened. Then, it is not necessary for the user to remove the toner seal, and the developing device 38 and the process cartridge A can be replaced and used more easily.

  Further, since the sealing member 19 after being opened is fixed to the opening member 20, the opening operation can be performed without taking out the waste material from the process cartridge A.

<About pressing member and developer discharge outline>
(Pressing member)
As shown in FIG. 6, the pressing member 21 includes a shaft portion 21a that is the same member as the unsealing member 20, and a pressing sheet 21b fixed to the shaft portion 21a. The shaft portion 21 a of the pressing member 21 is rotatably provided inside the first frame body 17 and the second frame body 18.

<Outline of developer discharge from developer bag>
(Outline of discharge before opening from before opening)
First, regarding the discharge of the developer at the start of opening from before opening, as shown in FIGS. 7 and 8, the sealing member 19 is pulled toward the power point portion 20a (in the direction of arrow D), and the developer bag 16 is It is supported by the pressing rib 18c of the frame. Therefore, at the time of opening, the force spot portion 20a, the pressing rib 18c of the frame body, and the place where the joining portion 22 peels move in a direction aligned in a straight line in a cross section perpendicular to the rotation axis of the opening member 20. To do. In this way, the opening member 20 gives a force to the sealing member 19 before the opening operation, and when the opening operation is started and the connection at the first joint portion 22a is opened, the opening 35a. The position of changes. As a result, developer stagnation in the vicinity of the opening 35a can be prevented.

(Outline of discharge after opening)
As shown in FIG. 8B, when the sealing member 19 is peeled from the developer bag 16, the opening 35 a opens below the developer bag 16. For this reason, the developer in the vicinity of the opening 35a is discharged by the action of gravity and the vibration of the developer bag 16 when opened.

(Positioning and fixing of developer bag and frame)
As shown in FIG. 4, the developer bag 16 is positioned inside the first frame 17 and the second frame 18 by the positioning portion 16 d shown in FIG. 3. Specifically, it will be described later.

(Positioning part)
The developer bag 16 is formed with a positioning portion 16d for positioning with respect to the frames (first frame 17 and second frame 18). As shown in FIG. 3, the positioning part 16d is one long convex part formed in parallel with the arrow F direction in which the plurality of openings 35a are arranged. A plurality of positioning portions 16d may be provided.

  As another positioning method, it is possible to adopt a method such as fitting into the recesses of the first frame 17 and the second frame 18 according to the full width outer shape and the outer shape feature of the developer bag 16. In this case, no positioning portion is provided in the developer bag 16.

(Fixing hole)
As shown in FIG. 3, a fixing hole 16 f of the developer bag 16 that receives a force from the sealing member 19 at the time of opening is provided as a fixing portion for the frame of the developer bag 16. The fixing hole 16f is formed in a portion supported by being held by the first frame body 17 and the second frame body 18.

  In addition, one or more fixing holes 16f are provided in parallel with the direction of the arrow F where the plurality of openings 35a are arranged. The position of the fixing hole 16f is in the vicinity of the opening 35a of the developer bag 16. The fixing hole 16f is fixed when the fixing pin 18b of the second frame 18 passes therethrough, and becomes a fixing portion necessary for opening the developer bag 16.

(Gap)
As shown in FIGS. 4 to 9, the developer bag 16 is positioned by sandwiching a positioning portion 16 d inside the first frame 17 and the second frame 18. Specifically, when the flange 17a of the first frame 17 and the flange 18a of the second frame 18 are coupled, the gap 5 is formed between the frames. Then, the positioning portion 16d is positioned in the formed gap portion 5. 7 and 8, the positioning part 16 d is positioned by the pressing rib 18 c in the gap part 5.

<Overview of developer bag support structure>
The support structure for the developer bag 16 will be described in detail. As shown in FIG. 16, after the developer bag 16 is fixed to the first frame body 17, the second frame body 18 is assembled and the flanges 17 a and the flanges 18 a at the outer peripheral portions thereof are joined.

  The support structure of the developer bag 16 will be described with reference to FIG. FIG. 14 is a perspective view illustrating the developer bag support structure of the first embodiment. FIG. 15 is a cross-sectional view illustrating the developer bag support structure of the first embodiment.

  As shown in FIGS. 14, 15 (a), and 15 (b), the developer bag 16 of the present embodiment has a second position after the positioning portion 16 d is placed in the flange 17 a of the first frame 17. The frame 18 is fixed by covering the flange 18a.

  On the inner side of the flange 18a of the second frame 18, a pressing rib 18c is provided in accordance with the positioning portion 16d along the outer shape of the developer bag 16.

  Here, as shown in the lower right enlarged view of FIG. 14 and FIG. 15C, a groove portion 17b of the first frame 17 may be provided at a position facing the pressing rib 18c. In this case, the space between the pressing rib 18c and the groove portion 17b is narrower than the thickness of the positioning portion 16d.

  Moreover, at the time of welding, it forms so that the site | part adjacent to a welding part may rise, and it may become a buildup part. In this case, as shown in the lower left enlarged view of FIG. 14, a large thickness difference is formed between the welded portion and the upper portion. In this case, the positioning part 16d can be clamped more reliably.

  Next, with respect to the first frame 17 and the second frame 18, the flanges 17 a and the flanges 18 a at the outer peripheral portions are fixed by ultrasonic welding or the like. Then, the positioning portion 16d of the developer bag 16 is sandwiched between the pressing rib 18c of the second frame 18 and the flange 17a (or the groove 17b) of the first frame 17.

  Conventionally, in the assembly process, the developer bag is first fixed to the first frame and then fixed to the second frame. This will be briefly described as a comparative example conventionally performed, and the effect of the present embodiment will be described in comparison with the comparative example.

  In the comparative example, first, the fixing bag diameter 2.1 mm is assembled to the pin shape of the outer diameter 2 mm protruding from the first frame body, the pin head is crushed by heat welding, and the developer bag is first Fixed to the frame. In this case, a width of at least 2 mm is arranged from the sheet end to the edge of the fixing hole. As a result, 5-6 mm is required as the width required for joining. For this reason, the miniaturization of the joint location has been an issue.

  On the other hand, this embodiment differs from the comparative example in that there is no step of fixing the developer bag 16 to the first frame 17. For this reason, in this embodiment, if the width of the pressing rib 18c is 1.5 mm and a space of 1 mm is provided on both sides, the width required for fixing may be approximately 3.5 mm. In addition, a wide holding surface can be secured continuously over substantially one longitudinal side of the developer bag 16. For this reason, even if the opening force by the opening member 20 acts, the positioning part 16d can be hold | maintained reliably. As a result, it is possible to reduce the size of the joint part that is a problem.

  In the present embodiment, the pressing rib 18c is one through-shaped pressing rib 18c, but is not limited thereto. For example, although it is an arrangement along the outer shape of the developer bag 16, it may be divided into a plurality of pieces, and there may be a gap of several mm between the divided pressing ribs 18c. Even in this case, a plurality of holding surfaces can be secured over substantially the longitudinal side of the developer bag 16, and the developer bag 16 can be held even if the opening force by the opening member 20 acts.

[Second Embodiment]
A second embodiment will be described with reference to FIGS. FIG. 16 is a perspective view illustrating the developer bag support structure of the second embodiment. FIG. 17 is a cross-sectional view illustrating the developer bag support structure of the second embodiment. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted.

  As shown in FIG. 16, FIG. 17 (a), FIG. 17 (b), in the gap portion 5, the developer bag 16 is a sheet formed by molding a thin resin sheet on one side and a sheet on the other side, It is the structure heat-welded in the bonding part 16c. A pressing rib 18 c is provided on the second frame 18 along the bonding portion 16 c of the developer bag 16.

  The bonding part 16c has the welding part 16c1 crushed by heat welding, and the bank part 16c2 (thickness part) with the thickness which match | combined two surfaces. The welded portion 16c1 is thinner than the total thickness of the two sheets constituting the developer bag 16.

  Specifically, when the bank portion 16c2 is thick (100 μm or more), the thickness of the welded portion 16c1 is 50 to 80 μm. As pasting part 16c, it is preferred that the thickness of bank part 16c2 is 20-1000 micrometers, and around 500 micrometers is more preferred.

  Thus, in the bonding part 16c which has the thick bank part 16c2 (100 micrometers or more), as shown to the upper right enlarged view of FIG. 16, the press rib 18c is contact | abutted to the welding part 16c1. Then, the tip of the pressing rib 18c is caught by the welded portion 16c1 due to the difference in thickness between the welded portion 16c1 and the bank portion 16c2. Thereby, the bonding part 16c is reliably clamped by the pressing rib 18c.

  On the other hand, in the case of the bonding portion 16c having the thin (less than 100 μm) bank portion 16c2, the welded portion 16c1 is not sufficiently crushed, and the thickness difference between the welded portion 16c1 and the bank portion 16c2 may not be formed as much as the thicker one. . In this case, as shown in the lower right enlarged view of FIG. 16 and FIG. 17C, a groove portion 17b of the first frame 17 may be provided at a position facing the pressing rib 18c. In this case, the bonding portion 16c is sandwiched between the pressing rib 18c and the groove portion 17b. By forming the groove part 17b, the bonding part 16c is caught by the corner | angular part of the groove part 17b, and even if it is the thin bonding part 16c, it can hold | maintain reliably.

  Moreover, at the time of welding, it may be formed so that the site | part adjacent to the welding part 16c1 may rise, and it may become the buildup part 16c3. In this case, as shown in the lower left enlarged view of FIG. 16, a large thickness difference is formed between the welded portion 16c1 and the raised portion 16c3. In this case, the bonding part 16c can be clamped more reliably. This configuration can also be applied to other embodiments.

  It is necessary to adjust the thickness of the gap portion 5 between the pressing rib 18c and the flange 17a (or the groove portion 17b) according to the thickness of the bonding portion 16c so that it can be held. Specifically, the bank portion 16c2 and the raised portion 16c3 are disposed on the outer side of the sandwiching portion that sandwiches and supports the developer bag 16 in the gap portion 5.

  As a result, the shoulder effect due to the thickness difference can be obtained continuously over substantially one longitudinal side of the developer bag 16. Then, even if the opening force by the opening member 20 acts, it can hold | maintain. As a result, it is possible to reduce the size of the joint part that is a problem.

  In the present embodiment, one gap portion 5 is provided, but the present invention is not limited to this. FIG. 18 is a cross-sectional view illustrating a developer bag support structure according to a modification of the second embodiment. As shown in FIG. 18, the gap 5 formed between the flange 17a and the flange 18a may be formed at two locations.

[Third Embodiment]
A third embodiment will be described with reference to FIGS. FIG. 19 is a perspective view illustrating the developer bag support structure of the third embodiment. FIG. 20 is a cross-sectional view illustrating the developer bag support structure of the third embodiment. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted.

  As shown in FIGS. 19 and 20, in the gap portion 5, the developer bag 16 is obtained by making a thin resin sheet into a gusset fold (bottom gusset). The folding end portion 16j is a ridge line portion of a bottom gusset (gusset).

  The characteristic shape on the bag making of the developer bag 16 is used for holding. For this reason, the shape is stable even when the developer is put in, and the dimensional accuracy between the two folded end portions 16j can be secured. As a result, the assemblability can be improved.

[Fourth Embodiment]
A fourth embodiment will be described with reference to FIG. FIG. 21 is a cross-sectional view illustrating the developer bag support structure of the fourth embodiment. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted.

  As shown in FIG. 21, in the gap portion 5, the developer bag 16 is a three-sided bag made of a thin resin sheet, and the folded portion 16 k is a welded portion with two parallel sides, folded at the end and heated. A crease is made in the press.

  Since the thickness of the folded portion 16k is secured to improve the holding portion strength and the thickness is reduced in the heat press portion, the developer bag 16 is continuously continuous over almost one longitudinal side as in the second embodiment. In addition, the shoulder effect due to the thickness difference can be obtained. For this reason, even if the opening force by the opening member 20 acts, the developer bag 16 can be held. As a result, it is possible to reduce the size of the joint part that is a problem.

[Fifth Embodiment]
A fifth embodiment will be described with reference to FIG. FIG. 22 is a cross-sectional view illustrating the developer bag support structure of the fifth embodiment. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted.

  As shown in FIG. 22, in the gap portion 5, a pressing rib 18 c is provided on the inner side of the flange 18 a on the side where the developer bag 16 is located so as to match the positioning portion 16 d along the outer shape of the developer bag 16. On the other hand, the groove shape (groove part) by the some protrusion 17c is provided in the site | part of the 1st frame 17 which is the other frame opposite to the press rib 18c. Then, the positioning portion 16d of the developer bag 16 is sandwiched between the groove shape formed by the pressing rib 18c and the plurality of protrusions 17c.

  About the 1st frame 17 and the 2nd frame 18, the flange 17a and flange 18a of each outer peripheral part contact | abut with ultrasonic welding etc., and are fixed. Then, the developer bag 16 holds the positioning portion 16d in a groove shape by the pressing rib 18c and the plurality of protrusions 17c. The developer bag 16 is held between the opposing positioning portions 16d.

  Furthermore, a wider holding surface can be secured continuously over substantially one longitudinal side of the developer bag 16 than in the first embodiment. For this reason, the developer bag 16 can be held even if a larger opening force is applied by the opening member 20.

[Sixth Embodiment]
A sixth embodiment will be described with reference to FIG. FIG. 23 is a cross-sectional view illustrating the developer bag support structure of the sixth embodiment. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted.

  As shown in FIG. 23, in the gap 5, an elastic rib 18 d formed of an elastic body is disposed on the surface of the second frame 18 in order to increase the friction coefficient. By disposing the elastic rib 18d on the second frame 18, the positioning portion 16d of the developer bag 16 is pressed against the first frame 17 by an elastic force. Then, a stable pressing force and frictional force can be generated by elasticity. Thereby, even if the opening force by the opening member 20 acts, the developer bag 16 can be stably held.

  The elastic rib 18d is a thermoplastic resin having rubber properties, and preferably a combination of a polystyrene block and a flexible polyolefin elastomer. As another material, foamed rubber such as urethane may be used.

  The elastic rib 18d may be fixed to the second frame 18 by attaching a strip-shaped object with a double-sided tape or by forming on the second frame 18 by molding such as two-color molding.

[Seventh Embodiment]
A seventh embodiment will be described with reference to FIG. FIG. 24 is a cross-sectional view illustrating the developer bag support structure of the seventh embodiment. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted.

  As shown in FIG. 24, an elastic body 17e is disposed in a groove portion formed by a plurality of protrusions 17c in the gap 5. It is made to contact | abut to the positioning part 16d of the developer bag 16 with the elastic force by the elastic body 17e. As a result, the developer bag 16 can be stably held even when a stable frictional force is generated by elasticity and the opening force by the opening member 20 acts.

  The elastic body 17e is a thermoplastic resin having rubber properties, and a combination of a polystyrene block and a flexible polyolefin elastomer is preferable. As another material, foamed rubber such as urethane may be used.

  The elastic body 17e may be fixed to the first frame body 17 by affixing a strip shape with a double-sided tape, or by forming on the first frame body 17 by molding such as two-color molding.

[Eighth Embodiment]
The eighth embodiment will be described with reference to FIG. FIG. 25 is a cross-sectional view illustrating the developer bag support structure of the eighth embodiment. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted.

  As shown in FIG. 25, in the gap portion 5, the constituent material of the surface of at least the contact portion of the developer bag 16 of the pressing rib 18c is the elastic body 16n. In this case, it is not necessary to separately arrange an elastic member in the gap portion 5.

  As shown in FIG. 25B, the elastic body 16n is brought into contact with the positioning portion 16d of the developer bag 16 without a gap. Thereby, even if the opening force by the opening member 20 acts by generating the stable frictional force by elasticity, the developer bag 16 can be stably held.

  The sheet constituting the developer bag 16 has a multilayer structure by coextrusion or lamination, and the base material is preferably polyethylene terephthalate (PET), polypropylene (PP), low density polyethylene or the like. The elastic body 16n is preferably ethylene vinyl acetate copolymer (EVA) or polypropylene (PP).

[Ninth Embodiment]
A ninth embodiment will be described with reference to FIG. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted. FIG. 26 is a cross-sectional view illustrating the developer bag support structure of the ninth embodiment. (A) is a schematic cross-sectional view of the developer storage unit, and (b) is an enlarged perspective view of the clamping portion.

  As shown in FIG. 26, the first frame body 117 and the second frame body 118 are abutted and fixed by ultrasonic welding of the flanges of the respective outer peripheral portions, and constitute a developer storage unit 125.

  The developer is supplied from the bag opening 116 c at the lower end of the developer bag 116 to the developing roller 13 through the developing opening 117 e. In the path for supplying the developer to the developing roller 13, the surface of the first frame 117 is inclined inward so that the developer is reliably guided to the developing roller 13. This is called an inner inclined surface 117f. The inner inclined surface 117f forms an angle θ that is equal to or larger than a limit angle at which the toner does not stay on the surface.

  In the developer bag 116, a rib 116a and a rib 116b are formed. Then, above the inner inclined surface 117f of the first frame body 117, two sandwiching portions 117a that sandwich and fix the rib 116a and the rib 116b of the developer bag 116 are formed.

  As shown in FIG. 26B, the sandwiching portion 117a of the present embodiment is formed along the longitudinal direction of the rib 116a and the rib 116b of the developer bag 116. The specific configuration of the sandwiching portion 117a is such that the projecting portion 117c is erected on a plane 117d adjacent to the projecting portion facing portion 117b (a part of the frame). In other words, the sandwiching portion 117a includes a protruding portion facing portion 117b and a plurality of protruding portions 117c, which are a part of the first frame body 117. The protrusion 117c of the present embodiment has a triangular cross-section composed of two inclined surfaces, an inclined surface facing the protrusion opposing portion 117b and an inclined surface on the inner side, and is provided on the inner side of the developer storage unit 125 of the protrusion 117c. The inclined surface is flush with the inner inclined surface 117f.

  When the first frame 117 is an injection-molded product, the inclination angle of the projecting portion 117c in the sandwiching portion 117a is narrower to an angle close to the die taper of the mold, This is preferable because it is suitable for position regulation of the ribs 116a and 116b. However, in practice, a groove opening width is ensured so that the ribs can be surely dropped into the grooves at the time of assembly in response to variations in the shapes of the ribs 116a and 116b.

  When the developer storage unit 125 is opened, the opening member 20 is rotated to pull the sealing member 19, thereby opening the bag opening 116 c of the developer bag 116.

[Tenth embodiment]
A tenth embodiment will be described with reference to FIG. Components similar to those described above are denoted by the same reference numerals and description thereof is omitted. FIG. 27 is a cross-sectional view illustrating the developer bag support structure of the tenth embodiment. (A) is a schematic cross-sectional view of the developer storage unit, and (b) is an enlarged perspective view of a partial clamping portion.

  As shown in FIG. 27, the first frame body 117 and the second frame body 118 are abutted and fixed by ultrasonic welding of the flanges of the respective outer peripheral portions to constitute a developer storage unit 125.

  The developer is supplied to the developing roller 13 from the bag opening 116 c at the lower end of the developer bag 116.

  In the developer bag 116, a rib 116a and a rib 116b are formed. Then, above the inner inclined surface 117f of the first frame body 117, two sandwiching portions 117a that sandwich and fix the rib 116a and the rib 116b of the developer bag 116 are formed.

  As shown in FIG. 27B, the sandwiching portion 117a of this embodiment is formed along the longitudinal direction of the rib 116a and the rib 116b of the developer bag 116. A specific configuration of the sandwiching portion 117a is such that a protruding portion 117g having a columnar shape from the root to the middle and having a conical top portion is erected on a plane 117d adjacent to the protruding portion facing portion 117b. In other words, the sandwiching portion 117a includes a protruding portion facing portion 117b that is a part of the first frame body 117 and a plurality of protruding portions 117g.

  When the developer storage unit 125 is opened, the opening member 20 is rotated to pull the sealing member 19, thereby opening the bag opening 116 c of the developer bag 116.

A ... Process cartridge B ... Image forming apparatus body 5 ... Gap 16 ... Developer bag 16d ... Positioning part 17 ... First frame 17a ... Flange 18 ... Second frame 18a ... Flange 19 ... Sealing member 25 ... Developer Storage unit 125 ... Developer storage unit

Claims (11)

A developer storage unit for storing the developer,
A flexible developer bag having a discharge portion for discharging the developer;
A plurality of frames that support the developer bag and constitute the developer storage unit;
Have
A developer storage unit characterized in that the developer bag is held and supported by a gap formed between the frames as the plurality of frames are coupled. In the structure in which the developer bag has a developer storage part and a bonding part or a folding end part,
The bonding part or the folding end part of the developer bag,
The developer storage unit according to claim 1, wherein the developer storage unit is supported by being held in the gap portion. Folding the bonding part or the folding end of the developer bag to form a folded part, or forming a thickness part when bonding the bonding part,
3. The developer storage unit according to claim 2, wherein the folded portion or the thickness portion of the developer bag is disposed outside a sandwiching portion that sandwiches and supports the developer bag. In the gap, a protrusion is formed on at least one of the frames,
The developer storage unit according to claim 1, wherein the developer bag is sandwiched and supported between the protrusion and the frame. In the gap, at least one of the frames is formed with a groove, and at least the other of the frames is formed with a protrusion at a portion facing the groove,
The developer storage unit according to claim 1, wherein the developer bag is sandwiched and supported between the protrusion and the groove.   The developer storage unit according to claim 1, wherein an elastic body that increases a coefficient of friction is disposed in the gap, and the developer bag is sandwiched and supported in the gap. A developer storage unit for storing the developer,
A flexible developer bag having a discharge portion for discharging the developer;
A frame that supports the developer bag inside,
The frame body has a sandwiching portion constituted by a part of the frame body and a plurality of protrusions arranged in the longitudinal direction of the developer storage unit,
The developer holding unit, wherein the sandwiching portion supports the developer bag with the developer bag sandwiched between a part of the frame and the plurality of protrusions.   8. The developer storage unit according to claim 7, wherein the plurality of protrusions include an inclined surface facing a part of the frame and an inclined surface on the inner side of the developer storage unit. 9. .   The developer storage unit according to claim 7, wherein the plurality of protrusions are formed in a columnar shape from the root to the middle, and a top portion is formed in a conical shape.   A process cartridge comprising the developer storage unit according to claim 1.   An image forming apparatus comprising the developer storage unit according to claim 1.

Images