This patent application is based on and claims priority pursuant to 35 U.S.C. §119 to Japanese Patent Application Nos. 2012-168495 filed on Jul. 30, 2012 and 2012-183416 filed on Aug. 22, 2012, in the Japan Patent Office, the entire disclosure of each of which is hereby incorporated by reference herein.
1. Technical Field
The present invention generally relates to a powder refilling device, a process cartridge and an image forming apparatus that use a powder refilling device, and a powder refilling method, and, more particularly, to those using a powder bag to contain powder.
2. Description of the Background Art
Electrophotographic image forming apparatuses, such as, copiers, printers, facsimile machines, plotters, or multifunction machines (or multifunction peripherals) having at least two of copying, printing, scanning, and facsimile transmission capabilities, generally form electrostatic latent images on an image bearer (i.e., photoreceptor) with laser light and develop the electrostatic latent images with charged toner into toner images. Toner images are then transferred onto sheets of recording media such as plain paper, fused, and fixed thereon. Electrophotographic image forming apparatuses are refilled with toner as toner is consumed in image development. When toner therein is consumed, process cartridges, which typically include a developing device and the like, are replaced, or the process cartridge is refilled with toner. Replacing process cartridges is relatively easy although cost is higher.
To reduce the cost, there are refillable process cartridges designed to be refilled with toner by end users or third parties (i.e., service persons). For example, packets of refill toner (i.e., toner bags) can be available for users to refill their process cartridges by themselves.
Various approaches have been tried to prevent spilling or scattering of toner when users refill their process cartridges with toner from toner bags.
For example, JP-H07-134484-A proposes a toner cartridge that includes a refill toner container, in which a thin rubber bag containing toner is disposed, and a bag breaking member to break the thin rubber bag, thereby supplying toner to the developing device. Additionally, JP-H09-251232-A proposes a toner refilling device that includes a toner bag containing refill toner and a squeezing jig. The toner bag includes a handle at an end and stitch perforations at another end, and the handle is fitted around an opening of a toner tank. When the handle is pulled, the toner bag is torn at the stitch perforations, and the squeezing jig squeezes toner contained in the toner bag into the toner tank.
Additionally, JP-H09-251232-A proposes a refill toner container that includes a bag body containing toner and a guide board unit to support the bag body. After a toner chamber of the process cartridge is refilled with toner from the bag body, the bag body is compressed and kept inside the toner chamber.
The bag body is torn using a string constructed of a thread or tape provided inside the bag body. When the string is pulled, the bottom of the bag body is opened.
In view of the foregoing, one embodiment of the present invention provides a powder refilling device to refill a powder chamber with powder contained in a powder bag. The powder refilling device includes a refill powder chamber to accommodate a powder bag containing powder, an opener to open the powder bag inside the refill powder chamber, and a squeezer to squeeze the opened powder bag to discharge powder therefrom and reduce a volume of the opened powder bag.
Another embodiment provides an image forming apparatus in which a process cartridge is removably installable. The process cartridge includes the above-described toner refilling device, and the squeezer is movable. The image forming apparatus includes a cartridge mount in which the process cartridge is mounted, and a shifting assembly to move the squeezer of the toner refilling device. The shifting assembly moves the squeezer in a direction to squeeze out toner from the toner bag into the toner chamber in conjunction with installation of the process cartridge into the image forming apparatus, and the shifting assembly returns the squeezer to an initial position in conjunction with removal of the process cartridge from the image forming apparatus.
Yet another embodiment provides a method of refilling a process cartridge with toner contained in a toner bag. The method includes placing the toner bag in a refill toner container installed in the process cartridge, opening the toner bag inside the refill toner container, and squeezing the opened toner bag to discharge toner therefrom toward a toner supply unit of the toner cartridge and reduce a volume of the opened toner bag.
A more complete appreciation of the disclosure and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
In describing preferred embodiments illustrated in the drawings, specific terminology is employed for the sake of clarity. However, the disclosure of this patent specification is not intended to be limited to the specific terminology so selected, and it is to be understood that each specific element includes all technical equivalents that operate in a similar manner and achieve a similar result.
Spatially relative terms, such as “beneath”, “below”, “lower”, “above”, “upper” and the like, may be used herein for ease of description to describe one element or feature's relationship to another element(s) or feature(s) as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as “below” or “beneath” other elements or features would then be oriented “above” the other elements or features. Thus, term such as “below” can encompass both an orientation of above and below. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views thereof, and particularly to
Referring to
A process cartridge 1 includes a photoreceptor 101 serving as an image bearer, a developing roller 102, a supply roller 103 to supply toner to the developing roller 102, a charging roller 104, and a cleaning blade 105 serving as a cleaning device, and thus is a so-called all-in-one unit. An interior of the process cartridge 1 is divided into a first compartment 301 on the side of the supply roller 103 and a second compartment 302 on the side of the photoreceptor 101.
A toner container or toner refilling device 200 is provided in the first compartment 301. The developing roller 102, the supply roller 103, and a conveyance paddle 106 are provided in the first compartment 301 to supply toner from the toner refilling device 200 to the developing roller 102. The developing roller 102, the supply roller 103, the conveyance paddle 106, and the first compartment 301 together form a developing device. The supply roller 103 and the conveyance paddle 106 can serve as a toner supply unit.
A refill toner chamber 200a, serving as a refill powder chamber, is formed inside a casing of the toner refilling device 200 to accommodate a toner bag 201 containing refill toner, and a squeezer 203 is provided in the refill toner chamber 200a.
Additionally, an opener 202 to open the toner bag 201 is provided inside or outside the refill toner chamber 200a. Providing the opener 202 to not the toner refilling device 200 but the process cartridge 1 (in particular, the first chamber 301) is advantageous in that the number of components of the toner refilling device 200 is reduced, thereby reducing the cost.
The toner bag 201 can be, for example, formed of synthetic resin film that includes a polyethylene (PE) sheet having a thickness of about 0.02 mm to about 0.1 mm and aluminum deposited inside the PE sheet. Thus, the opener 202 can tear open the toner bag 201 easily. Synthetic resin film is advantageous over rubber in that the cost is lower.
The material and thickness of the toner bag 201 are not limited to the description above, and the toner bag 201 can be constructed of other known materials as long as the opener 202 can tear open the toner bag 201. The squeezer 203 can pivot in the direction indicated by arrow R1 shown in
The developing roller 102 is disposed at a boundary between the first and second compartments 301 and 302. The developing roller 102 receives toner in the first compartment 301 and transports the toner to a latent image formed on the photoreceptor 101 in the second compartment 302, thus forming a toner image. Then, a transfer device disposed downstream from the developing roller 102 in the direction in which the photoreceptor 101 rotates transfers the toner image onto a sheet of recording media. As shown in
When the toner bag 201 is opened or torn, toner is pushed out therefrom to the conveyance paddle 106 in the direction indicated by arrow D3 shown in
The squeezer 203 positioned as shown in
The above-described processes of placing the toner bag 201 in the refill toner chamber 200a, tearing open the toner bag 201, and pressing (squeezing) the toner bag 201 are repeated. When no space is left for another toner bag 201, the operational life of the process cartridge 1 is deemed expired. At that time, the user replaces the process cartridge 1 with another one. It is to be noted that, although the squeezer 203 minimizes the toner bag 201 in dimensions in the description above, it is not necessary to minimize the toner bag 201 as long as the dimensions are reduced, which is similar in the following embodiments.
Needless to say, minimizing the toner bag 201 is efficient to make full use of the capacity of the toner refilling device 200. Additionally, although the squeezer 203 pushes the toner bag 201 to the opener 202 to tear the toner bag 201 in the description above, alternatively, the opener 202 may move to the toner bag 201. In the present embodiment, it does not matter which of the two moves as long as the opener 202 and the toner bag 201 move relatively to each other.
A guide slot 207 is formed in the side wall 200b of the toner refilling device 200 on the proximal side in
The guide slot 207 is shaped into an arc that is one fourth of a circle centered about the fulcrum 209. Thus, the handle 206 and the guide slot 207 together form a shifting assembly to move the squeezer 203.
The handle 206 can be moved along the guide slot 207 in the direction indicated by arrow R2 to the position shown in
The handle 206 can be returned along the guide slot 207 to the position (i.e., an initial position) shown in
It is to be noted that the opener 202 is omitted in
In the configuration shown in
Specifically, the handle 206 being at the initial position A (i.e., one end of the guide slot 207) penetrates the side wall 200b of the toner refilling device 200 (shown in
When the process cartridge 1 is inserted into the image forming apparatus 2 as indicated by arrow D4, the end of the handle 206 moves downward as indicated by arrow R2 shown in
By contrast, when the process cartridge 1 is pulled out from the image forming apparatus 2 as indicated by arrow D5, the handle 206 moves upward along the curve of the cam groove 208 and the guide slot 207. With this operation, the handle 206 and the squeezer 203 returns to the initial position A, securing the compartment 200v for another toner bag 201 in the refill toner chamber 200a. Then, the toner bag 201 is put in the refill toner chamber 200a, and the process cartridge 1 is installed in the image forming apparatus 2 again. Thus, the process cartridge 1 can be refilled with toner again.
This configuration can obviate manual work of users since the handle 206 can be moved in conjunction with installation and removal of the process cartridge 1 from the image forming apparatus 2.
Although the above-described first embodiment employs a single squeezer 203 that returns to the initial position from the squeezing position to secure the compartment 200v for receiving subsequent toner bags 201, a toner refilling device 2002 according to a second embodiment employs multiple squeezers 203, that is, first to nth squeezers 203-1 through 203-n (“n” is an integer equal to or greater than “2”).
In the configuration shown in
After the second squeezer 203-2 squeezes out toner from the second toner bag 201 and reduces the toner bag 201 in volume, the third toner bag 201 is put in the refill toner chamber 200a. Then, the third squeezer 203-3 is moved similarly. It is to be noted that, although the three squeezers 203 are illustrated in
In this configuration, the process cartridge 1 is deemed to be at the end of operational life when no or almost no toner remains in the process cartridge 1, and the last squeezer 203 is at the position shown in
The retainer 205 can be operated from outside the process cartridge 1. Specifically, the retainer 205 can be rotated in the direction indicated by arrow R4 from the position shown in
It is to be noted that, although only a single squeezer 203 and a single retainer 205 are illustrated in
In the above-described first and second embodiments, as shown in
Other than the above-described differences, the present embodiment is similar to the first embodiment.
As described above, the following effects can be attained by the embodiments described above.
1) The toner refilling device 200 includes the refill toner chamber 200a to accommodate a single or multiple toner bags 201 containing refill toner, the opener 202 to tear open the toner bag 201 inside the refill toner chamber 200a, and the squeezer 203 to squeeze out toner from the toner bag 201 opened by the opener 202. Since the squeezer 203 compresses the toner bag 201, from which toner is discharged, to reduce the volume of the toner bag, the compartment 200v for accommodating another toner bag can be created. In this configuration, opening and squeezing of the toner bag 201 can be performed inside the refill toner chamber 200a. Accordingly, toner can be prevented from scattering and spilling outside the refill toner chamber 200a during toner refilling.
Therefore, the above-described aspect of the present specification can reduce or eliminate downtime caused for cleaning of the site or changing clothes when toner scatters or is spilled.
Although process cartridges may be brought to the manufacturer or the like to be refilled, it takes time before the refilled process cartridge is returned to the user, thus causing downtime, and the cost increases. According to the above-described aspect of the present specification, cost can be lower with downtime reduced since the refilling operation can be executed by users themselves not by third parties. Additionally, the risk of business information leaks can be reduced since it is not necessary to invite others in the user's site for the refilling operation.
2) Since the compartment 200v is created by compressing the toner bag 201, toner refilling can be repeated multiple number of times until the remaining space of the compartment 200v becomes smaller than another toner bag 201.
Since the compartment 200v can be created by the squeezer 203 provided inside the refill toner chamber 200a, a toner refilling device capable of inhibiting spilling and scattering of toner can be provided at a lower cost. Minimizing the toner bag 201 is advantageous in that the compartment 200v can be made maximum, thus increasing the number of times the process cartridge 1 is refilled.
3) When the multiple squeezers 203 are provided, it is not necessary to return the squeezer 203 to the initial position after the toner bag 201 is squeezed, and the compartment 200v created above that squeezer 203 can accommodate another toner bag 201.
4) Since the squeezer 203 is provided with the handle 206 to move the squeezer 203, squeezing out toner from the toner bag 201 and creation of compartment 200v can become easier.
5) When the end of the handle 206 is positioned outside the refill toner chamber 200a, the user can operate the handle 206 manually.
6) In the toner refilling device 2002 that includes the retainer 205 to retain the squeezer 203 at the initial position, for example, the squeezer 203 can be urged to the direction in which the squeezer 203 squeezes the toner bag 201, and squeezing the toner bag 201 can be started easily by releasing the squeezer 203. In the configuration including the multiple squeezers 203, toner can be supplied toward the conveyance paddle 106 by simply releasing the squeezer 203.
7) Providing the toner refilling device 200 in the process cartridge 1 enables refilling the process cartridge 1.
8) In the first and second embodiments described above, the used toner bags 201 are kept inside the refill toner chamber 200a, and the operational life of the process cartridge 1 expires when the space remaining in the refill toner chamber 200a is insufficient for another toner bag 201. Since the entire process cartridge 1 is replaced when the toner refilling device 200 is full of empty toner bags 201, the refill toner chamber 200a is not opened for replacement. Accordingly, toner does not spill or scatter during replacement of the process cartridge 1.
9) With the process cartridge 1 serving as the image forming unit, an image forming apparatus in which toner refilling is easier with scattering and spilling of toner inhibited can be attained.
10) The image forming apparatus 2 includes the cam groove 208 to move the squeezer 203 in the direction to squeeze out toner from the toner bag 201 when the process cartridge 1 is mounted in the image forming apparatus 2. Additionally, when the process cartridge 1 is removed from the image forming apparatus 2, the squeezer 203 can be returned to the initial position by the cam groove 208, thus securing the compartment 200v inside the refill toner chamber 200a. Accordingly, refilling the process cartridge 1 and preparation for refilling can be attained by insertion and removal of the process cartridge 1 from the image forming apparatus 2.
In a third embodiment described below, a powder containing bag (i.e., a toner bag) without stitch perforations is installed in the process cartridge, and the opener largely opens the toner bag inside the process cartridge to refill the process cartridge with toner. In the present embodiment, the toner bag includes a handle to be grasped and pulled by users when the opened toner bag is removed from the process cartridge. The toner bag can be wound around the handle and folded, thus reduced in size. Accordingly, when the toner bag is collected, the user's hand can be kept clean.
It is to be noted that identical or corresponding parts throughout the embodiments described below are given an identical reference character, and redundant descriptions are omitted.
In the first compartment 301, the opener 202 and first and second squeezers 203A and 203B are provided in addition to the toner bag 2010, the developing roller 102, and the supply roller 103. Toner discharged from the toner bag 2010 can be supplied to the developing roller 102.
The opener 202 cuts in, breaks, or tears open the toner bag 2010 to refill the first compartment 301 with toner contained in the toner bag 2010. Accordingly, the opener 202 has a sharp corner that contacts the toner bag 2010 to cut therein. The opener 202 may include a blade to reliably cut the toner bag 2010. The first compartment 301, the opener 202, and the first and second squeezers 203A and 203B together form a powder refilling device 2003.
The toner bag 2010 includes a bag body 201a serving as a containing portion, a flap or flat portion 201b serving as a pulled portion designed not to contain powder, and a handle 2050 positioned at an end of the flap 201b. When the toner bag 2010 is accommodated installed in the process cartridge 1, the handle 2050 is positioned outside to be pulled by the user to remove the toner bag 2010 from the process cartridge 1. Additionally, the flap 201b of the toner bag 2010 is interposed between the first and second squeezers 203A and 203B. Therefore, in the present embodiment, the first squeezer 203A is disposed on an inner side of the lid 204 for opening the first compartment 301.
It is to be noted that, in
When one of the first and second squeezers 203A and 203B is a deformable roller capable of deforming when pressed against the other, sealing can be secured, and discharge of toner into the first compartment 301 can be facilitated. Alternatively, both the first and second squeezers 203A and 203B may be rollers that are not deformable. It is to be noted that the first and second squeezers 203A and 203B are not limited to rollers, but may be any members capable of squeezing the toner bag 2010 to discharge toner therefrom when the toner bag 2010 is sandwiched thereby and the handle 2050 is pulled. For example, the first and second squeezers 203A and 203B may be rubber blades.
Referring to
To refill the toner cartridge 1, the lid 204 is opened as shown in
As the first and second squeezers 203A and 203B move, the internal pressure of the toner bag 2010 increases, and the toner bag 2010 bulges. Further, the opener 202 sticks into a rear end 201c (on the left in
The opener 202 can be a cutter with a blade or, alternatively, a needle or an acicular or spinate member. The powder refilling device 2003 may includes a single opener 202, or multiple cutters or needle-shaped members may be arranged in the direction perpendicular to the sheet conveyance direction. Either configuration can be employed as long as it can form a relatively large opening in the toner bag 2010.
By contrast, when the first and second squeezers 203A and 203B are moved in the direction indicated by arrow D1 shown in
The handle 2050 is formed with a rod that is circular in cross section, for example. The handle 2050 is pulled while the flap 201b and the bag body 201a of the toner bag 2010 are wrapped around the circular rod, serving as the handle 2050, in the direction indicated by arrow R1 in
The empty toner bag 2010 is reeled in by the handle 2050, thus reduced in size, and removed from the process cartridge 1. As the toner bag 2010 is thus rolled up, toner remaining therein or adhering to the inner face thereof can be wrapped inside. Accordingly, in removal of the toner bag 2010, toner smear on user's hands can be eliminated or alleviated.
In
Each of the curved surfaces of the bag body 201a and the flap 201b can be made a continuous surface. For example, by bonding two film sheets at the end 201d of the bag body 201a, the curved surfaces of the bag body 201a and the flap 201b are monolithic. Such a configuration can secure the strength.
The side surfaces 201e and the rear end 201c can be either continuous or separate. When the side surfaces 201e and the rear end 201c are bonded to the curved surfaces, the bag body 201a having a desired capacity for containing toner can be produced.
The arrangement in which the flap 201b is nipped between the first and second squeezers 203A and 203B can facilitate discharge of almost all toner in the bag body 201a into the process cartridge 1. The rod-shaped handle 2050 is advantageous in that the toner bag 2010 can be reeled thereby and reduced in size. However, the shape of the handle 2050 is not limited thereto.
The toner bag 2010 can be formed of synthetic resin film that includes a polyethylene (PE) sheet having a thickness of about 0.02 mm to about 0.1 mm and aluminum deposited inside the PE sheet. Accordingly, the opener 202 can cut or tear the toner bag 2010 easily. The material and thickness of the toner bag 2010 are not limited to the description above, and the toner bag 2010 can be constructed of other known materials as long as the opener 202 can tear open the toner bag 2010.
Referring to
In the arrangement shown in
In the arrangement shown in
Descriptions are given below of a fourth embodiment in which a used toner bag is covered with a toner bag cover connected to a discharge opening when the used toner bag is removed from the process cartridge.
The process cartridge 1 according to the fourth embodiment is similar to that according to the third embodiment except the first and second squeezers 203A and 203B, and identical components are given identical reference characters, thus descriptions thereof omitted.
The toner bag 2011 includes a bag body 201a to contain toner and a pulled portion 201f positioned at the end of the flap 201b not for containing toner. As shown in
The toner bag 2011 removed from the process cartridge 1 is collected in a toner bag cover 210. Therefore, a slit 211 is formed in one end of the toner bag cover 210 (in particular, an end face 214 facing the process cartridge 1 in
The toner bag cover 210 includes a pair of clamps 212 and 213 serving as squeezers to sandwich the pulled portion 201f from both sides, and the slit 211 is formed between the clamps 212 and 213. The bag body 201a can be sandwiched between the clamps 212 and 213 when the pulled portion 201f nipped in the slit 211 is pulled into the toner bag cover 210.
As the toner bag 2011 is pulled out from the process cartridge 1 with the bag body 201a nipped by the clamps 212 and 213, toner inside the bag body 201a can be pushed out by the clamps 212 and 213. Accordingly, toner can be squeezed out from the toner bag 2011 into the first compartment 301, that is, the process cartridge 1, in conjunction with removal of the toner bag 2011. Thus, the clamps 212 and 213 have a capability similar to that of the first and second squeezers 203A and 203B according to the third embodiment.
Therefore, when one of the clamps 212 and 213 is a deformable roller similarly to the third embodiment, sealing can be secured, and discharge of toner into the first compartment 301 can be facilitated.
Additionally, to suppress leak of toner, the pulled portion 201f of the toner bag 2011 and the slit 211 preferably have an identical or similar length.
Referring to
To refill the process cartridge 1, as shown in
It is to be noted that the toner bag cover 210 is shrunk in
When the toner bag cover 210 is attached to the process cartridge 1 in the manner shown in
After the rear end 201c is thus cut and the toner bag 2011 is opened, the user puts his/her hand 220 into the toner bag cover 210 from the rear end 210a and grips the pulled portion 201f. Then, the user pulls out the pulled portion 201f from the process cartridge 1 as indicated by arrow D6 shown in
As the toner bag 2011 passes through the nip between the clamps 212 and 213, toner contained in the toner bag 2011 can be squeezed out from the rear end 201c (shown in
After the toner bag 2011 is fully covered with the toner bag cover 210 as shown in
The toner bag 2011 includes the bag body 201a for containing toner and the pulled portion 201f not for containing toner. In the configuration shown in
Referring to
Other than the above-described differences, the present embodiment is similar to the third embodiment.
Descriptions are given below of a fifth embodiment in which equally spaced holes (i.e., sprocket holes) are formed in both end portions of a toner bag, and the toner bag is squeezed to discharge toner inside the process cartridge using the holes. While the toner bag is reeled up using the holes, toner can be squeezed out by squeezers from the toner bag into the process cartridge.
The process cartridge 1 according to the fifth embodiment includes the first and second compartments 301 and 302, and the developing roller 102 and a regulation blade 160 are positioned on the boundary therebetween. The regulation blade 160 regulates the thickness of developer (i.e., toner) on the surface of the developing roller 102.
Further, an agitation paddle 107 is provided in the first compartment 301. The first squeezer 203A (i.e., a squeezing roller) similar to that in the third embodiment is provided to the back side of the lid 204 above the first compartment 301 to expose an upper side of the first compartment 301. Additionally, a reel shaft 208 to reel the toner bag 2012 and the second squeezer 203B to sandwich the toner bag 2012 with the first squeezer 203A are provided in the first compartment 301.
Additionally, a slidable lever 108 projects outside the first compartment 301 to move the opener 202 (for example, shown in
The reel shaft 208 includes a shaft body 208a and projections 208b. In the direction perpendicular to the sheet conveyance direction, the shaft body 208a is longer than the longitudinal side of the toner bag 2012. The shaft body 208a is positioned in an end portion of the first compartment 301 on the opening side of the lid 204 as shown in
The projections 208b project radially from an outer circumferential surface of the shaft body 208a. On the long side of the shaft body 208a, the projections 208b are positioned to face the lines of holes 234 formed in the end portions 233, and the circumferential positions of the projections 208b match the intervals between the holes 234 in the vertical direction in
The first and second squeezers 203A and 203B are configured to nip the toner bag 2012 therebetween and squeeze out toner from the tear formed in the toner bag 2012 similarly to those in the third embodiment. The relation between the holes 234 and the projections 208b is similar to that between sprocket holes and a gear or toothed wheel.
Referring to
As the lid 204 is opened, the first squeezer 203A is disengaged from the second squeezer 203B, and a clearance is secured therebetween. It is to be noted that the first and second squeezers 203A and 203B have a length sufficient to sandwich the entire containing portion 230 in the longitudinal direction.
In this state, the user can put the toner bag 2012 inside the first compartment 301, insert the projections 208b of the reel shaft 208 into the holes 234-1 on the top (shown in
Subsequently, as the lever 108 is slid in the axial direction of the reel shaft 208 (longitudinal direction of the toner bag 2012), the opener 202 moves in that direction, tearing the containing portion 230. Thus, a relatively large area of the toner bag 2012 can be opened substantially along its long side. With this operation, toner flows out from the containing portion 230 into the process cartridge 1. Further, the handle is rotated, thereby rotating the reel shaft 208 to reel in the toner bag 2012. At that time, all or almost all toner can be discharged from the toner bag 2012 since the relatively large area of the toner bag 2012 is opened, and the toner bag 2012 is nipped between the first and second squeezers 203A and 203B.
Thus, in the present embodiment, the toner bag 2012 is opened and reeled in with the lid 204 of the process cartridge 1 closed, and all or almost all toner can be discharged from the toner bag 2012 into the process cartridge 1. Accordingly, when the user refills the process cartridge 1 with toner, the exterior or surroundings of the process cartridge 1 are not smeared with toner, or smear with toner can be reduced. Similarly, smear with toner of the user's hand can be prevented or alleviated.
It is to be noted that one of more of the components, such as the photoreceptor 101, the development roller 102, and the like, of the process cartridge 1 can wear gradually as the process cartridge 1 is used for long time. That is, the operational life of the process cartridge 1 is limited, and an identical process cartridge 1 is not used for ever even if refillable repeatedly. The number of the toner bags 2012 put in a single toner cartridge 1 is determined according to the operational life. Therefore, the projections 208b of the reel shaft 208 have a length corresponding to the number of the toner bags 2012 usable in a single toner cartridge 1. With this configuration, the degraded process cartridge 1 unfit for continued use is neither refilled nor used further.
Additionally, the reel shaft 208 may be provided with a detector to detect that the thickness or diameter of the reel shaft 208 becomes greater than a threshold after the predetermined number of toner bags 2012 are wrapped around. According to such detection, a message to advise the user of replacement of the process cartridge 1 can be displayed. For example, the detector can be constructed of a feeler and an optical sensor to detect the movement of the feeler that is pushed when the thickness of the reel shaft 208 reaches or exceeds the threshold. In this configuration, when to replace the process cartridge 1 can be detected easily using the optical sensor.
It is to be noted that the present embodiment is designed such that the user opens the containing portion 230 of the toner bag 2012 using the lever 108 provided to the process cartridge 1. Alternatively, the process cartridge 1 may be designed such that the toner bag 2012 is opened in conjunction with installation into the image forming apparatus of the process cartridge 1 in which an unopened toner bag 2012.
Specifically, for example, when the process cartridge 1 is designed to be inserted in the axial direction of the reel shaft 208 into the image forming apparatus, and the lever 108 is designed to be hooked on the body of the image forming apparatus, the toner bag 2012 can be opened long in the longitudinal direction in installation of the process cartridge 1.
Although the reel shaft 208 (in particular, the handle thereof) is rotated manually in the present embodiment, alternatively, the reel shaft 208 may be designed to be rotated using a driving force transmitted from the image forming apparatus. In this case, for example, a gear is provided to an end of the shaft body 208a of the reel shaft 208, and the image forming apparatus includes a gear to engage the gear on the shaft body 208a.
It is to be noted that, although the description above concerns the process cartridge 1 including the photoreceptor 101, the developing device, the charging roller 104, and the cleaning device (cleaning blade 105), alternatively, the above-described features of the embodiments can adapt to a process cartridge that includes the developing unit only, or the developing device and at least one of the above-described components of the process cartridge 1.
As described above, the following effects can be attained by above-described aspects of the present specification.
1) According to an aspect of the present specification, the powder bag such as the toner bag 2010, 2011, or 2012 including the containing portion to contain powder (i.e., toner), such as the powder bag body 201a or the containing portion 230, is accommodated inside the first compartment 301 serving as a powder chamber, the opener 202 disposed in the first compartment 301 is designed to linearly cut the powder bag to open the powder bag, and the squeezers, such as the first and second squeezers 203A and 203B (collectively “squeezers 203”) or the clamps 213 and 214, are designed to forcibly discharge toner from the powder bag 2010 into the first compartment 301. Therefore, the powder bag can be opened inside the first compartment 301 reliably, toner can forcibly discharged into the first compartment 301, and scattering of toner and toner smear on user hands can be suppressed.
According to the above-described aspect of the present specification, toner can be fully discharged from the toner bag by the squeezers compared with a case in which the toner bag is simply cut. Additionally, toner can be better prevented from remaining inside the toner bag compared with a case in which toner is discharged from the toner bag not forcibly but under its own weight. Since the empty toner bag can be reduced in volume, the empty toner bag is not cumbersome inside the process cartridge.
The above-described aspect of the present specification is advantageous over a configuration in which stitch perforation is formed in the toner bag such that the toner bag is torn at the stitch perforation when the toner bag is pulled out because the stitch perforation may be broken, causing toner leak, white the toner bag is transported or stored. Further, in such a configuration, as the toner bag is pulled out, the internal pressure increases, and the stitch perforation is torn, causing toner to scatter on or adhere to the outer face of the toner bag or user's hands. By contrast, according to the above-described aspect of the present specification, the toner bag is opened inside the toner cartridge, and thus user's hands can be kept clean during the refilling operation and while or after the toner bag is pulled out.
Although the toner bag may be torn with a thread, such a configuration typically requires disposing the thread at a predetermined position inside the toner bag and welding the thread on the toner bag when the end of the toner bag is bonded together. Additionally toner adhering to the thread can be transferred to the surroundings or the user hands after the thread is pulled out. By contrast, the configuration according to the above-described aspect of the present invention can offer simpler toner bags and inhibit toner scattering and smear.
2) According to another aspect, the squeezers 203 are designed to sandwich the toner bag 2010 therebetween and discharge toner from the toner bag 2010 as the toner bag 2010 moves, the first compartment 301 is openably closable by the lid 204, and the toner bag 2010 is placed into the first compartment 301 when the lid 204 is opened, with the flap 201b (or pulled portion) exposed outside the process cartridge 1 or the apparatus. When the lid 204 is closed, the flap 201b is nipped by the squeezers 203. Then, the squeezers 203 squeeze out toner from the bag body 201a opened by the opener 202 as the toner bag 2010 is pulled out from the side of the flap 201b. Therefore, the effects similar to those attained by the aspect 1) can be attained.
3) The squeezers 203 are respectively provided to the lid 204 and inside the process cartridge or the apparatus to face each other. The flap 201b, at the end of which the handle 2050 is provided, is sandwiched between the squeezers 203s when the lid 204 is closed. Accordingly, after the lid 204 is closed, the squeezers 203 can be operated immediately to refill the process cartridge.
4) When the opener 202 is designed to move, a relatively large opening can be formed in the toner bag 2010.
5) When the squeezers 203 are constructed of a pair of elastic rollers, the toner bag 2010 can be pulled out more easily. When the rollers are elastic, a nip can be formed therebetween, thus securing and facilitating discharge of toner into the first compartment 301.
6) When the lid 204 is closed, the squeezers 203 can move toward the opener 202, pushing the bag body 201a and toner therein to the opener 202, and thus the toner bag 2010 can be opened. With this configuration, a greater amount of toner can be discharged into the first compartment 301.
7) The handle 2050 provided at the end of the flap 201b (pulled portion) is blocked by the outer face of the lid 204 or the housing when the squeezers 203 move toward the opener 202. Accordingly, the toner bag 2010 can be inhibited from moving to the squeezers 203, thus obviating the need of a retainer to retain the toner bag 2010 in the first compartment 301.
8) According to another aspect, the handle 2050 is shaped like a rod having a diameter uniform in the longitudinal direction, and the toner bag 2010 can be wound around the outer circumference of the handle 2050 when pulled out. Accordingly, the empty toner bag 2010 can be reduced in size and disposed easily.
9) According to another aspect, the toner refilling device includes the toner bag cover 210, in which the slit 211 is formed to receive the pulled portion 201f of the toner bag 2011 into the toner bag cover 210, the connection face 214 to connect the slit 211 to the housing 204a on the opening side of the lid 204, and the clamps 212 and 213 (squeezers) are provided to the toner bag cover 210 adjacent to the slit 211. Accordingly, the toner bag 2011 can be collected inside the toner bag cover 210 when the toner bag 2011 is pulled out with the bag body 201a clamped between the clamps 212 and 213. Simultaneously, toner can be pushed by the clamps 212 and 213 and discharged from the toner bag 2011 into the first compartment 301 in conjunction with the movement of the toner bag 211 being pulled out. This configuration can attain the effects similar to those attained by the aspect 1).
10) With the connection face 214, the toner bag cover 210 can connect to the housing 204a in a sealed state, thus inhibiting toner from scattering from the connection therebetween while the toner bag 2011 is pulled out and thereafter.
11) According to another aspect of the present specification, the toner bag 2012 includes the containing portion 230, and the multiple holes 234 spaced regularly are formed along both lateral sides of the toner bag 2012. The reel shaft 208 includes the multiple projections 208b regularly spaced in the circumferential direction of the reel shaft 208 and is rotated in the direction to reel in the toner bag 2012, and toner is forcibly pushed by the squeezers 203 out from the toner bag 2012. This configuration can attain the effects similar to those attained by the aspect 1). Reliable discharge of toner can be attained at a lower cost since, at that time, the toner bag 2012 can be reeled using the relation between sprocket holds and a gear.
12) According to another aspect, the length of the shaft body 208a of the reel shaft 208 depends on the number of toner bags reeled thereby, and the number of toner bags reeled is determined according to the operational life of the process cartridge. With this configuration, use of the process cartridge whose operational life has expired can be avoided, thus securing image quality.
13) According to another aspect of the present specification, the toner bag 2012 is formed with flexible film and includes the containing portion 230 and the lateral end portions 233 in which the multiple holes 234 spaced regularly are formed. Accordingly, the toner bag 2012 can be collected inside the first compartment 301 using the holes 234. Forming a toner containing portion at a center and forming multiple holes are relatively easy. Thus, the configuration of the toner bag 2012 is simple, and the cost can be lower.
14) Another aspect of the present specification provides the toner bag cover 210 to house the toner bag 2011 outside the process cartridge or apparatus, and the toner bag cover 210 includes the slit 211 to receive the pulled portion 201f (flap 201b) inside the toner bag cover 210, the clamps 212 and 213 to sandwich the slit 211, configured to forcibly discharge toner from the bag body 201a moving between the clamps 212 and 213, and the connection face 214 to connect the slit 211 to the housing 204a. The toner bag cover 210 is designed to externally clamp and pull out the pulled portion 201f projecting from the slit 211. Accordingly, toner can be forcibly discharged from the toner bag 2011, and the empty toner bag 2011 can be collected in the toner bag cover 210. Thus, toner scattering or toner smear on user hands can be inhibited.
It is to be noted that the present invention is not limited to the specific embodiments described above, and numerous additional modifications and variations are possible in light of the above teachings. It is therefore to be understood that, the disclosure of this patent specification may be practiced otherwise by those skilled in the art than as specifically described herein, and such variations, modifications, alternatives are within the technical scope of the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
2012-168495 | Jul 2012 | JP | national |
2012-183416 | Aug 2012 | JP | national |