1. Technical Field
The present invention relates to a developing agent container and an image forming apparatus, and more specifically, to a developing agent container and an image forming apparatus capable of realizing the replenishment work of developing agent with no concern for leakage of the developing agent, instead of the work of replacing a developing agent container while paying careful attention so that the developing agent may not leak.
2. Related Art
An image forming apparatus using an electrophotographic recording method that exposes an electrostatic latent image on the basis of image data to form a toner image on the surface of an image carrier fabricated of a photoconductive material is known conventionally. In this image forming apparatus, a developing device (process unit) performs toner development of making toner (developing agent) adhere to the electrostatic latent image on the surface of the image carrier to develop the image, and then transfers the toner image to a recording medium, such as recording paper, to form an image.
In this type of image forming apparatus, the toner to develop the electrostatic latent image on the surface of the image carrier is reserved within the body of the apparatus so that it can be supplied to a developing device, and this toner is consumed whenever images are formed on recording paper, etc. Therefore, a method of replenishing toner to a hopper that reserves the toner to reserve the toner is adopted (for example, refer to Japanese Utility Model Publication No. 4-30605U and Japanese Patent Publication No. 4-76112B), and a method of replacing a container for reserving toner to replenish the toner is adopted (for example, refer to Japanese Patent No. 3570714).
Here, since the toner is fine powder, if the toner falls or leaks during replacement of a container, and then floats in the shape of smoke, it may be stuck on surroundings, polluting them, and the cleaning thereof becomes troublesome. For this reason, various studies have been made so that toner may not leak during replenishment of toner or replacement of a container (for example, refer to Japanese Utility Model Publication No. 4-30605U and Japanese Patent Publication No. 4-76112B). Further, a method of reducing the volume of a toner container to be replaced, facilitating handling of the container, is performed (for example, refer to Japanese Patent No. 3570714).
However, the developing agent containers as described in the above publications requires various kinds of work, such as the work of removing the container from the apparatus body side, and the work of connecting a new container to the apparatus body side, which are troublesome. Further, when the developing agent container is connected to the apparatus body side among the above kinds of work, multi-stage actions, such as fitting or twisting the container are needed, and even when the container is removed, multi-stage actions, such as fitting or twisting the container are needed. This is troublesome.
Moreover, in such developing agent containers, various studies that prevent toner from leaking out during replenishment work of toner have been made. However, since toner may leak out from the developing agent container removed from the apparatus body side and may pollute an operator and its surroundings, the operator should perform the work while paying careful attention so that the toner may not leak out, which is troublesome.
Further, among developing agent containers other than those described in the above publications, there is a developing agent containers of a type that is mounted to the apparatus body side after a toner replenishing port is opened.
In this type of developing agent container, careful attention is required so that toner may not leak out during mounting of a toner container to the apparatus body side. Also, since toner has adhered to a sealing film removed to open the toner replenishing port, careful attention should be paid so as to prevent toner from adhering to surroundings and polluting them, even in the disposal of the container. This is troublesome.
It is therefore one advantageous aspect of the invention to provide a developing agent container and an image forming apparatus that make it possible to easily perform the replenishment work of toner and is easy to handle.
According to one aspect of the invention, there is provided a container, adapted to be coupled with first another container, the container comprising:
a first wall member, defining a first storage space adapted to store developing agent for forming an image on a recording medium;
a first coupler, adapted to be coupled with a second coupler provided with the first another container; and
a first communicator, operable to communicate the first storage space with a second storage space provided with the first another container by way of the first coupler and the second coupler, when the container is coupled with the first another container.
The container may be adapted to be coupled with an image forming apparatus. The first coupler may be adapted to be coupled with a third coupler provided with the image forming apparatus. The first communicator may be operable to communicate the first storage with the image forming apparatus to supply the developing agent from the container to the image forming apparatus.
The first communicator may include a film member, sealing the first coupler and adapted to be cut by a cutter provided with the third coupler when the first coupler is coupled with the third coupler.
The first communicator may include a first traction member adapted to engage with a second traction member provided with the third coupler when the first coupler is coupled with the third coupler, thereby pulling the film member in a direction away from the cutter.
The container may be adapted to be coupled with a second another container, and may further comprise a third coupler, adapted to be coupled with a fourth coupler provided with the second another container; and a second communicator, operable to communicate the first storage space with a third storage space provided with the second another container by way of the third coupler and the fourth coupler, when the container is coupled with the second another container.
The first wall member may be deformable so that a volume of the first storage space is variable. The first coupler and the third coupler may be engageable with each other when the volume of the first storage space is reduced.
The first communicator may include: a first film member, sealing the first coupler; and a first cutter operable to cut the first film member when the first coupler is coupled with the second coupler. The second communicator may include a second film member, sealing the third coupler and adapted to be cut by a second cutter provided with the fourth coupler when the third coupler is coupled with the fourth coupler.
The first communicator may include a first traction member adapted to engage with a second traction member provided with the second coupler when the first coupler is coupled with the second coupler, thereby pulling the first film cut by the first cutter in a direction away from the first cutter. The second communicator may include a third traction member adapted to engage with a fourth traction member provided with the fourth coupler when the third coupler is coupled with the fourth coupler, thereby pulling the second film cut by the second cutter in a direction away from the second cutter.
The first cutter may include: a needle portion adapted to first come in contact with the first film member; and a blade portion extending along an inner periphery of the first coupler, and adapted to come in contact with the first film member subsequent to the needle portion.
The container may further comprise a first retainer, provided on the first coupler and adapted to engage with a second retainer provided on the second coupler when the first coupler is coupled with the second coupler, thereby retaining the coupled state of the first coupler and the second coupler.
At least one of a size and a shape of the first retainer may be uniquely indicative of a type of the developing agent stored in the first storage space.
The first wall member may be deformable so that a volume of the first storage space is variable.
The first wall member may be flexible.
The container may further comprise a first hanging member, provided on the first wall member and adapted to engage with a second hanging member provided with an image forming apparatus, thereby hanging up the first wall member.
The container may further comprise a casing member, surrounding the first wall member and having a larger stiffness than the first wall member.
The casing member may be removably coupled with the first coupler.
The first wall member may include a bellows section.
The first communicator may include a cutter operable to cut a part of the first wall member when the first coupler is coupled with the second coupler.
The first communicator may include a first traction member adapted to engage with a second traction member provided with the second coupler when the first coupler is coupled with the second coupler, thereby pulling the part of the wall member in a direction away from the cutter.
The cutter may include: a needle portion adapted to first come in contact with the part of the first wall member; and a blade portion extending along an inner periphery of the first coupler, and adapted to come in contact with the part of the first wall member subsequent to the needle portion.
The container may further comprise a sealing member, provided on the first wall member and adapted to seal a gap formed between the first wall member and a second wall member defining the second storage space when the first coupler is coupled with the second coupler.
The first coupler may comprise a vibration generator operable to generate vibration when the first coupler is coupled with the second coupler.
According to one aspect of the invention, there is provided an image forming apparatus, comprising:
a container chamber, adapted to accommodate a plurality of containers, each of which is the above container, in a state that the containers are coupled with each other;
a developing device, operable to develop an electrostatic latent image formed on an image carrier with developing agent; and
a replenishing device, comprising a third coupler coupled with the first coupler of the container, and operable to replenish the developing agent stored in the first storage space to the developing device.
A total amount of the developing agent once accommodated in the container chamber may correspond to a lifetime of the developing device.
Exemplary embodiments of the invention will be described below in detail with reference to the accompanying drawings. First, with reference to
In
This replenishing unit 13 is adapted to set the developing agent container 20 in a set space 14 secured within an outer housing h of an apparatus body H, and connects and sets a coupler 22 of the developing agent container 20 to a coupler 21 of a conveyer 15, on the side of an apparatus body H, connected to the developing unit 12. The conveyer 15 on the side of the apparatus body H receives the toner to be conveyed and supplied to the developing unit 12 when the toner contained in the developing agent container 20 falls so as to be dropped into a communication space 15a (refer to
The couplers 21 and 22 of the conveyer 15 and the replenishing unit 13, as shown in
The coupler 21 on the side of the developing unit 12 (the apparatus body H) is arranged in an upper portion of the conveyer 15, and is designed as a female opening (female coupler) 21 formed in the shape of an opening that opens the internal communication space 15a to the outside. The coupler 22 on the side of the replenishing unit 13 (the developing agent container 20) is arranged in a lower portion of the developing agent container 20, and is designed as a male opening (male coupler) 22 formed in the shape of an opening that opens a storage space 20a to the outside.
The female opening 21 on the side of the developing unit 12, as shown in
For the developing unit 12 and the replenishing unit 13, the inner face spacing of the peripheral edge 23 of the female opening 21 of the conveyer 15 is set to almost the same dimension as the outer face spacing of the peripheral edge 24 of the male opening 22 of the developing agent container 20.
As a result, as for the developing unit 12 and the replenishing unit 13, as shown in
Further, as for the developing agent container 20 on the side of the replenishing unit 13, as shown in
As a result, as for the replenishing unit 13, as shown in
Here, the developing agent container 20 is manufactured in an easily handled manner so that an opening end face of the communication port 25 or 26 of the female opening 21 or the male opening 22 that is arranged vertically may be closed by a sealing film 27 and thereby the stored toner within the storage space 20a may not leak before connection to the developing unit 12 (the conveyer 15 or the developing agent container 20 whose connection has been completed).
For this reason, various members that, when the peripheral edges 23 and 24 are connected to each other, cut the sealing film 27 and perform the processing that prevents the sealing film 27 after the cutting from hindering flow of the toner in the communication ports 25 and 26 are arranged in the female opening 21 and the male opening 22.
Specifically, a pair of cutters 31 are erected from the female opening 21 in the vicinity of inside opposite faces (inner faces) of the substantially rectangular peripheral edge 23, and the cutters 31 are molded integrally with the female opening so that they may become parallel to each other in adjacent positions that are spaced from the inner faces by the thickness of the peripheral edge 24 of the male opening 22. Each of the cutters 31 is formed in the shape of a triangular plate whose center becomes an apex. Specifically, the oblique sides of the cutter are formed as cutting blades 31a, and an upwardly projecting needle 31b is formed in the apex. Further, this cutter 31 is molded integrally with the female opening 21 so that a tip end of the needle 31b may be located in a position that retreats further than an opening end of the peripheral edge 23 on which the sealing film 27 is stuck.
As a result, when the peripheral edges 23 and 24 of the female opening 21 and the male opening 22 and connected to each other by fitting, the cutters 31 can cut the sealing film 27 that closes the opening end faces of the communication ports 25 and 26. In this case, when the female opening 21 and the male opening 22 begin to fit to each other so as to be put in a closed state while the opening ends of the peripheral edges 23 and 24 are caused to face each other to stretch the sealing film 27, the needles 31b of the cutters 31 can be pierced into two places adjacent to the vicinity of the centers of the inner faces of the peripheral edges 23 and 24 to start cutting, and further when the degree of fitting of the peripheral edges 23 and 24 increases, the cutting blades 31a continue the cutting, thereby further extending the cutting range. That is, each of the cutters 31 is arranged only at the peripheral edge 23 of the female opening 21, the needle 31b constitutes a cutting starting part, and the cutting blades 31a constitute the cutting continuation part.
In the present embodiment, a pair of cutters 31 are arranged so as to cut two places of the sealing film 27. However, it goes without saying that the invention is not limited thereto, and one cutter or three or more cutters may be arranged, and each cutter 31 may have a plurality of needles 31b so as to start cutting from two or more places. Further, it may be designed that the cutters 31 are not only arranged at the peripheral edge 23 of the female opening 21 but also arranged at the peripheral edge 24 of the male opening 22 so that the sealing film 27 may be cut from both sides. In this case, the relative positional relationship between the peripheral edges 23 and 24 that combine the female opening 21 and the male opening 22 are limited so that the cutters may not interfere with each other. Therefore, if cutting only is performed, arranging the cutters only at any one of the male and female openings can facilitate design (although the present embodiment may be limited because an insertion member 33 or sheathing member 34 as described below are also arranged).
Further, the female opening 21 is formed integrally with an insertion member 33 that is formed in the shape of an I-shaped cross section in the center between the cutters 31 within the peripheral edge 23. This insertion member 33 extends in a vertical posture parallel to the cutters 31, and thereby is formed so that the sealing film 27 that is stretched at the opening end of the peripheral edge 23 to close the communication port 25 may touch a tip end 33a. On the other hand, the male opening 22 is formed integrally with a sheathing member 34 that is formed in the shape of a U-shaped cross section in the center between the opposite faces within the peripheral edge 24. This sheathing member 34 extends in a vertical posture that its upper side is open so as to sheathe insertion member 33 on the side of the female opening 21, and thereby is formed so that the sealing film 27 that is stretched at the opening end of the peripheral edge 24 to close the communication port 26 may touch a tip end 34a. In addition, although a gap is formed between the insertion member 33 on the side of the female opening 21 and the inner faces of the peripheral edge 23 so that the peripheral edge 24 on the side of the male opening 22 may be inserted between the insertion member and the peripheral edges 23, the sheathing member 34 on the side of the male opening 22 is provided continuously across between the inner faces of the peripheral edge 24 because it can be inserted into the gap.
As a result, as shown in
Accordingly, the stored toner within the developing agent container 20 can be caused to drop (flow) and supplied into the conveyer 15 on the side of the developing unit 12 without being hindered by the sealing film 27, via the communication ports 25 and 26 within the peripheral edges 23 and 24 of the female opening 21 and the male opening 22 that are coupled to each other so that there may be no leakage. Here, within the communication ports 25 and 26, the insertion member 33 is inserted from its tip end 33a into the tip end 34a of the sheathing member 34 in a downwardly opened posture. Thus, the falling toner is not accumulated between the sealing films 27 or within the sheathing member 34. Similarly, as shown in
Moreover, the female opening 21 and the male opening 22 include locking mechanisms (outer engaging members) that can be locked so that they may engage with each other at the outside of the peripheral edges 23 and 24 so as to maintain a coupled state. Specifically, female locking receptacles 35 are molded integrally with the female opening 21, and male locking pawls 36 are molded integrally with the male opening 22. Each female locking receptacle 35 of the female opening 21 extends laterally so as to face an outer face (outer face parallel to the insertion member 33) of the peripheral edge 23 adjacent to each cutter 31, and is opened downward. Each male locking pawl 36 of the male opening 22 is erected so as to face an outer face (outer face parallel to the sheathing member 34) of the peripheral edge 24 corresponding to the female locking receptacle 35. An outwardly projecting claw part 36a is formed at the tip end of the male locking pawl 36.
As a result, when the peripheral edges 23 and 24 of the female opening 21 and the male opening 22 are fitted to each other so that they may be coupled to each other while a closed state is secured, the male locking pawl 36 enters the female locking receptacle 35, and the claw part 36a of the tip end of the claw sticks out. Thereby, since the claw part 36a is brought into slide contact with the inner face of the female locking receptacle 35, is elastically deformed, and then is elastically restored so as to face a lower end 35a of the receptacle, the male locking pawl 36 is hit and stopped and thereby engaged and locked so that it cannot be pulled out even if it is intended to move in a retreating direction. That is, the female opening 21 and the male opening 22 are brought close to each other so that they may be combined together without peeling off the sealing film 27, and are connected to each other by a simple one action (one operation) of inserting the peripheral edge 24 into the peripheral edge 23. Thereby, the communication ports 25 and 26 within the peripheral edge 23 and 24 are communicated with and joined to each other in a closed state with no leakage of toner, and are locked so that the communicative joined state may be maintained. As a result, the supplying or replenishment work of toner can be completed easily.
Accordingly, when the lower male opening 22 of the developing agent container 20 is coupled to the upper female opening 21 of the conveyer 15 of the developing unit 12, and then the stored toner within the developing agent container 20 is consumed by repetition of a development process (toner development of electrostatic latent images on the photoconductive drum 11) by the developing unit 12, and there is an instruction of replenishment of toner from the apparatus body H side, the lower male opening 22 of the same unused developing agent container 20 is simply coupled to the upper female opening 21 of the used developing agent container 20 similarly to above, without removing the already mounted developing agent container 20 (without performing the replacing work). Thereby, the stored toner in the unused developing agent container 20 can be made to flow into and be supplied to (the communication space 15a of) the conveyer 15 of the developing unit 12 via the inside (storage space 20a) of the used developing agent container 20.
Also, when the number of developing agent containers 20 that can be set within the set space 14 of the replenishing unit 13 are coupled together, and there is again an instruction of replenishment of toner from the apparatus body H side to the developing unit 12 side, it is determined as the serviceability limit of the developing unit 12 without particularly managing the lifetime of the developing unit. Then, the developing unit 12 and the replenishing unit 13 are removed together from the apparatus body H while a plurality of stages of developing agent containers 20 are joined and connected to each other, and then an unused developing unit 12, etc. is newly mounted. That is, the set space 14 of the replenishing unit 13 is set so that the volume of developing agent containers 20 according to the serviceability limit of the developing unit 12 can be coupled together. For example, in the case of a large volume of developing agent container 20 as is shown in
As described above, the present embodiment does not need to perform the replacing work of removing a used developing agent container 20. Therefore, an unused developing agent container 20 can be coupled to the used developing agent container so that toner can be replenished, by the operation of one action of inserting and fitting the male opening 22 into the female opening 21 on the side of the developing unit 12, without leaking out and scattering toner. Accordingly, the replenishment work of toner can be completed by adding and mounting a developing agent container 20 simply and easily without choosing an operator.
Next, a second embodiment of the invention will be described. Here, components similar to those in the above embodiment will be designated by the same reference numerals, and repetitive explanations for those will be omitted. In addition, the same is true in other embodiments to be described below.
An image forming apparatus of the present embodiment shown in
That is, the replenishing unit 13 is designed to mount the developing agent container 20 that stores the toner of color according to the developing unit 12 for every color. The female locking receptacle 35 of the upper portion of the conveyer 15 of the developing unit 12 or the upper portion of the female opening 21 of the developing agent container 20, and the male locking pawl 36 of the lower male opening 22 of the developing agent container 20 are designed so that they can be engaged and locked only when the colors of conveyed or stored toner coincide with each other.
Specifically, the male locking pawl 36, as shown in
As a result, in the case of a developing agent container 20 that stores a color toner to be used by the developing unit 12, for example, the male locking pawl 36 of the male opening 22 on the side of the developing agent container 20 shown in
As described above, according to the invention, in addition to the advantageous effects according to the above embodiment, a developing agent container 20 that stores a different color toner is prevented from being coupled to the developing unit 12 side, and thereby coupling of only a developing agent container 20 that stores the same color toner can be permitted. Accordingly, it is possible to prevent a mixed color from being generated due to carelessness during the replenishment work of toner, and it is thus possible to complete high-reliability toner replenishment work.
Here, the present embodiment is designed to prevent coupling of a wrong developing agent container 20 by setting the width “W” and thickness “W” of the male locking pawl 36 and the female locking receptacle 35 to dimensions according to the color of a stored toner. However, it goes without saying that the invention is not limited thereto, and for example, a rib and a groove that can be combined may be formed in mutual opposite faces.
Further, although the present embodiment describes the color of a toner to be stored within the developing agent container 20 as a sort of example, it goes without saying that the invention is not limited thereto, and it may be designed so as to perform allowance and rejection of coupling according to the particle diameter, characteristics, etc. of toner.
Further, the structure for identifying the type of a developing agent described in the present embodiment can be suitably combined with the configuration of each embodiment to be described below.
Next, a third embodiment of the invention will be described.
In an image forming apparatus of the present embodiment shown in
Specifically, the female opening 21 and the male opening 22 are designed so as to allow coupling of a developing agent container 20 that stores the same color toner, but to reject coupling of a developing agent container 20 that stores a different color toner by increasing or decreasing the opposing interval L of each of the peripheral edges 23 and 24 according to the color of a toner to be conveyed or stored by the conveyer 15 or the developing agent container 20. In addition, the developing agent container 20 of the present embodiment shows an example in which dimensions are set so that the opposing interval L of each of the peripheral edges 23 and 24 may be made smaller than that of the first embodiment, while the volume of the storage space 20a is kept constant.
As a result, in the case of a developing agent container 20 that stores a color toner to be used by the developing unit 12, for example, the male peripheral edge 24 of the male opening 22 on the side of the developing agent container 20 can be fitted into and connected and locked to the peripheral edge 23 of the female opening 21 on the side of the developing unit 12 shown in
As described above, according to the invention, in addition to the advantageous effects according to the above-mentioned second embodiment, a developing agent container 20 that stores a different color toner is prevented from being coupled to the developing unit 12 side, and thereby coupling of only a developing agent container 20 that stores the same color toner can be permitted. Accordingly, it is possible to prevent a mixed color from being generated due to carelessness during the replenishment work of toner, and it is thus possible to complete high-reliability toner replenishment work.
Next, a fourth embodiment of the invention will be described.
An image forming apparatus shown in
As a result, as shown in
As described above, according to the present embodiment, in addition to the advantageous effects according to the above-mentioned embodiments, vibration can be generated when the male locking pawl 36 is engaged with and locked to the female locking receptacle 35 by coupling the male opening 21 of the developing agent container 20 to the female opening 21 on the side of the developing unit 12, the toner that has adhered to and remained at the inner wall of the storage space 20a, etc. can be shaken off. Accordingly, the stored toner within the developing agent container 20 can be replenished to the developing unit 12 side without waste.
Next, a fifth embodiment of the invention will be described.
An image forming apparatus shown in
In the flexible wall member 41, the cross sectional shape of the storage space 40a that is defined in the flexible wall member becomes a larger area of a similar shape than the communication port 25 in the peripheral edge 23 of the female opening 21 as it approaches the upper portion of the flexible wall member, and the cross sectional shape is reduced to a shape substantially similar to the communication port 26 of the peripheral edge 24 of the male opening 2 as it goes to a lower portion of the flexible wall member 41.
As a result, since the cross sectional area of the flexible wall member 41 that defines the toner storage space 40a is reduced downward, the developing agent container 40 can be put into a state where a load is applied obliquely downward. Also, even if the stored toner flows out of the communication port 26 within the peripheral edge 24 of the lower male opening 22, a state where a load is obliquely downward applied to the flexible wall member 41 can be maintained. For this reason, when the stored toner is dropped, caused to flow in and thereby replenished via the communication ports 25 and 26 within the peripheral edges 23 and 24 of the female opening 21 and the male opening 22 that are coupled to each other on the side of the developing unit 12, the height of the stored toner within the storage space 40a will decrease according to the amount of outflow, without collapsing the appearance formed by the flexible wall member 41. As a result, when the stored toner has been replenished without remaining in the storage space, a bottom face 21a of the female opening 21 and a top face 22a of the male opening 22 that are connected to an upper portion and a lower portion of the flexible wall member 41 can be brought into facing contact with each other.
In addition, the top face 22a of the male opening 22 is formed by forming a portion opposite to the male locking pawl 36 in the shape of a flange so that it may project inward. Here, this developing agent container 40 may be designed so that the stored toner can be dropped and replenished without remaining in the storage space by adopting a form of setting the container within a prismatic sheathing member or hanging down the upper female opening 21 so that it may not fall down.
The female opening 21 and the male opening 22 engage with each other in a facing contact state so that they can be positioned and fixed horizontally. For this purpose, holes 43 are formed in a plurality of places of the bottom face 21a of the female opening 21, while projections 44 to be sheathed in the holes 43, respectively, are formed in a plurality of corresponding places of the top face 22a of the male opening 22.
As a result, when the upper female opening 21 of the developing agent container 40 approaches and comes into facing contact with the top face 22a of the lower male opening 22 as the stored toner is replenished to the developing unit 12 side, and the storage space 40a is reduced, the projections 44 of the top face 22a are fitted into the holes 43 of the bottom face 21a. This can suppress that the communication port 25 within the peripheral edge 23 deviates horizontally from the communication port 26 in the peripheral edge 24 of the lower male opening 22, and therefore a problem does not occur that the stored toner within the storage space 40a cannot be replenished to the developing unit 12 side, and consequently remains in the storage space. That is, the holes 43 of the bottom face 21a of the female opening 21 and the projections 44 of the top face 22a of the male opening 22 constitute inner engaging members that engage with each other so as to secure flow of toner.
Accordingly, in the developing agent container 40, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, as shown in
Also, when the number of developing agent containers 40 that can be set within the set space 14 of the replenishing unit 13 are coupled together, and there is again an instruction of replenishment of toner from the apparatus body H side to the developing unit 12 side, it is determined as a serviceability limit (lifetime) of the developing unit 12. Then, the developing unit 12 and the replenishing unit 13 are removed together from the apparatus body H while female openings 21 and male openings 22 of a plurality of developing agent containers 40 are joined and connected to each other in multi stages, and then an unused developing unit 12, etc. is mounted newly. Here, the developing agent container 40 is in a compact state where the upper female opening 21 and the lower male opening 22 come into direct facing contact with each other. Thus, the set space 14 of the replenishing unit 13 needs only to secure a volume that allows coupling of the last developing agent container 40 that causes the developing unit 12 to reach its serviceability limit in addition to female openings 21 and male openings 22 being coupled together in multi stages, in other words, a volume that allows coupling of the last storage space 40a in addition to multi-stages of female openings 21 and male openings 22. Accordingly it is possible to avoid that the space within the set space 14 will be wastefully occupied by a used developing agent container such that the toner to be replenished passes through.
As described above, according to the present embodiment, in addition to the advantageous effects according to the above-mentioned embodiments, developing agent containers 40 can be added compactly by stacking female openings 21 and male openings 22 so that they may not be collapsed. Also, an unused developing agent container 40 can be continuously coupled to the developing unit 12 side, without a used developing agent container 40 being bulky in the set space 14 of the replenishing unit 13. Accordingly, toner can be replenished from a plurality of developing agent containers 40 to the developing unit 12 while the volume of the set space 14 of the replenishing unit 13 is designed compactly.
Next, a sixth embodiment of the invention will be described.
An image forming apparatus shown in
Also, the flexible wall member 54 is manufactured so that the toner storage space 50a to be defined on the whole may have a substantially hexahedral box shape in a state where the rigid wall members 51 and 52 take a substantially vertical posture together via the hinge 53.
As a result, in the developing agent container 50, when the stored toner within the storage space 50a defined by the rigid wall members 51 and 52 and the flexible wall member 54 is reduced, as shown in
Further, as for the rigid wall members 51 and 52, as shown in
As a result, when the rigid wall members 51 and 52 are bent, after the claw part 55a of the female locking pawl 55 of the female opening 21 is elastically deformed in slide contact with the male locking receptacle 56 of the male opening 22, the claw part 55a is elastically restored and thereby engaged with and locked to on the bottom face. That is, the female opening 21 and the male opening 22 can be locked to secure a flow path of toner in a state where the rigid wall members 51 and 52 are bent and brought into facing contact with each other, and simultaneously, the communication ports 25 and 26 within the peripheral edges 23 and 24 coincide with each other.
Moreover, the parts of the rigid wall members 51 and 52 that are adjacent to the female opening 21 and the male opening 22 on the side opposite to the hinge 53 are bent toward the female opening 21. Specifically, the rigid wall member 52 on the side of the male opening 22 to be coupled to the developing unit 12 side is set so that its part that is spaced from the male opening 22 may rise and the stored toner may flow down toward the communication port 26, while the rigid wall member 51 is formed in the shape that resembles the rigid wall member 52 so as to come into facing contact therewith.
As a result, the rigid wall member 51 makes the stored toner within the storage space 50a slide on the upper side, and makes the toner flow into the communication port 26 within the peripheral edge 24 of the male opening 22. Thereby, the stored toner can be dropped and replenished to the developing unit 12 side without remaining in the storage space. Also, the flexible wall member 54 is deformed in the direction in which the lateral dimension is reduced according to a decrease in the stored toner within the storage space 50a, the rigid wall member 51 can be rotated about the hinge 53 in the direction in which it approaches the rigid wall member 52.
Accordingly, in the developing agent container 50, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, as shown in
As described above, according to the present embodiment, in addition to the advantageous effects according to the above-mentioned embodiments, the developing agent container 50 can be put into a compactly stacked state by rotating the female opening 21 and the male opening 22 about the hinge 53 without any positional deviation therebetween. Also, it is possible to maintain a state where unused developing agent containers are continuously coupled together by locking the female locking pawl 55 to the male locking receptacle 56. Accordingly, even in a state where a plurality of developing agent containers 50 are coupled together, toner can be replenished to the developing unit 12 with high reliability.
Next, a seventh embodiment of the invention will be described.
An image forming apparatus shown in
Also, a thin straight hinge (folding line) 68 that connects between an end of the hinge 67 between the flexible wall members 61 and 62, and an end of the hinge 67 between the flexible wall members 63 and 64 is engraved in the expandable wall members 65 or 66, and the thin hinge is formed so that it can be bent.
Further, as for the flexible wall members 61 and 62, similarly to the above-mentioned embodiment, the female opening 21 and the male opening 22 are arranged in the places adjacent to the hinge 67. Specifically, the female opening 21 and the male opening 22 can maintain a state where, when they are brought into facing contact with each other, the female locking pawl 55 is engaged with and locked to the male locking receptacle 56, and thereby the communication ports 25 and 26 within the peripheral edges 23 and 24 coincide with each other.
Moreover, the parts of the flexible wall members 61 and 62 that are adjacent to the female opening 21 and the male opening 22 on the side opposite to the hinge 67 are bent. Specifically, the flexible wall member 62 on the side of the male opening 22 to be coupled to the developing unit 12 side, similarly to the above-mentioned embodiment, is set so that its part that is spaced from the male opening 22 may rise and the stored toner may flow down toward the communication port 26, while the flexible wall member 61 is bent in the direction opposite to the flexible wall member 62.
As a result, similarly to the above embodiment, when the stored toner within the storage space 60a is reduced as the toner slides on the top face of the flexible wall member 62, and is supplied to the developing unit 12 side through the communication port 26 within the peripheral edge 24 of the male opening 22, the flexible wall member 61, as shown in
At this time, the flexible wall members 61 and 63 and the flexible wall members 62 and 64 are rotated about the hinges 67 in the direction which they are widely opened while they expand the expandable wall members 65 and 66 (the hinge 67 between the flexible wall members 61 and 62 and the hinge 67 between the flexible wall member 63 and 64 are bent), and thereby they are deformed temporarily in a planar shape, and the hinges 68 within the expandable wall member 65 and 66 are bent. Thereafter, the flexible wall members 62 and 64 return to their original state, while the flexible wall members 61 and 63 are bent in a reverse direction and are deformed into a state where the inner faces thereof are brought into facing contact with the inner faces of the flexible wall members 62 and 64, respectively (the flexible wall member 61 is deformed into a shape that resembles the flexible wall member 62, and thereby brought into facing contact therewith). Simultaneously, in the female opening 21 and the male opening 22 on the side of the flexible wall members 61 and 62, similarly to the above-mentioned embodiments, the female locking pawl 55 is engaged with and locked to the male locking receptacle 56, thereby securing a flow path for the toner through the communication ports 25 and 26 within the peripheral edges 23 and 24.
Accordingly, in the developing agent container 60, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, as shown in
As described above, according to the present embodiment, in addition to the advantageous effects according to the above-mentioned embodiments, developing agent containers can be stacked compactly in a state where the wall members that define the storage space 60a of the developing agent container 60 do not spread but are folded. Accordingly, a plurality of developing agent containers 60 that are easy to handle can be easily coupled together, and thus their usability can be improved.
Next, an eighth embodiment of the invention will be described.
An image forming apparatus shown in
On the other hand, the developing agent container 70 is formed in the shape of a rectangular bowl in which slope faces 72 that extend obliquely upward from lateral sides of a rectangular bottom face 71 are connected. A toner storage space 70a is closed by sticking a stretchable film 73 on peripheral open ends of the slope faces 72.
As for the developing agent container 70, as shown in
As a result, as for the developing agent container 70, similarly to the above-mentioned embodiment, the storage space 70a can be made to communicate through the communication ports 25 and 26 within the peripheral edges 23 and 24 to replenish the stored toner, by coupling the male opening 22 to the female opening 21 on the side of the developing unit 12 while cutting the sealing film 27.
At this time, as shown in
Further, as for the developing agent container 70, the back side of the slope face 72 opposite to the hinge 74 is integrally molded with a locking mechanism (outer engaging member) that performs engaging and locking so that a state where the bottom face 71 and the slope faces 72 on the side of the used and unused developing agent containers overlap each other may be maintained. A locking pawl 75 that has a claw part 75a that projects inwardly is erected from the back side of the slope face 72. A locking receptacle 76 that projects outwardly is formed at an end side adjacent to the locking pawl 75 on the back side of the slope face 72.
As a result, when the male opening 22 is engaged with and locked to the female opening 21 by forcibly pushing the bottom face 71 of an unused developing agent container 70 while the stretchable film 73 of a used developing agent container 70 is stretched, the locking pawl 75 is elastically deformed by the end side of the slope face 72 and then elastically restored, even on the side opposite to the hinge. Thereby, the claw part 75a can be engaged with and locked to the locking receptacle 76. Accordingly, in the developing agent container 70, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, as shown in
As described above, according to the present embodiment, in addition to the advantageous effects according to the above-mentioned embodiments, toner can be replenished by opening the front side of the apparatus body H, and overlapping developing agent containers 70 to compactly connect and join them together. Accordingly, the degree of freedom in the layout on the side of the top face of the apparatus body H can be improved.
Next, a ninth embodiment of the invention will be described.
An image forming apparatus shown in
The hemisphere part 81 is designed such that a pedestal part 82 formed in the shape of a short cylinder is connected to the back side located opposite to the opening end, and the hemisphere part 81 is placed with the pedestal part 82 directed downward, and is thereby formed in the shape of a so-called bowl or vessel whose open end is directed upward so that a plurality of developing agent containers can be stacked on each other.
Further, in the hemisphere part 81, as shown in
Moreover, the hemisphere part 81 is formed integrally with locking mechanisms (outer engaging members) that perform engaging and locking so that a stacked state (refer to
As a result, by stacking the hemisphere part 81 so that the pedestal part 82 may be located at the bottom side, toner can be connected so that it can flow through the flow part 83 within the pedestal part 82. At this time, the stacked state can be maintained as the claw parts 86a of the locking pawls 86 are elastically deformed, then elastically restored, and thereby are engaged with and locked to the open end of the stacked hemisphere part 81.
Further, in the developing agent container 80, a stretchable sealing film 87 that can be stretched and cut is stuck on an outer peripheral opening end of the hemisphere part 81, and a sealing film 88 that can be cut is stuck on an opening end face of the pedestal part 82. Thereby, the opening end of the communication port 83 along with the opening end of the hemisphere part 81 is closed, thereby defining a storage space 80a that stores toner.
Moreover, a sealing member 89 that is made a rubber material and is brought into close contact to an inner peripheral face of a separate hemisphere part 81 so as to limit flow of toner when the pedestal part 82 is stacked in the separate hemisphere part 81 is installed in the outer peripheral face of the hemisphere part 81 of the developing agent container 80.
As a result, in the developing agent container 80, as shown in
At this time, the stretchable sealing film 87 of the used developing agent container 80 can maintain the storage space 80a on the side of the used developing agent container in a closed state by maintaining the state where the lower end of the pedestal part 82 of the unused developing agent container 80 is brought into pressure contact with the bottom face of the hemisphere part 81 on the side of the used developing agent container. Further, even if the cutting range of the stretchable sealing film 87 caused by piercing by the needle member 85 extends further outward than the periphery of the lower end of the pedestal part 82 that comes into pressure contact with the bottom face of the hemisphere part 81, and even if a developing agent container is stacked on the upper hemisphere part 81 of the conveyer 15 of the developing unit 12 (when the stretchable sealing film 87 does not exist), the sealing member 89 of the outer peripheral face of the hemisphere part 81 will come into pressure contact with the inner face of the other hemisphere part 81. Thereby, it is possible to avoid that the storage space 80a or the communication port 83 within the pedestal part 82 may be open to the outside.
Accordingly, in the developing agent container 80, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, as shown in
As described above, according to the present embodiment, in addition to the advantageous effects according to the above-mentioned embodiments, toner can be replenished by coupling storage spaces 80a together while developing agent containers 80 are stacked compactly like a vessel. Accordingly, a plurality of developing agent containers 80 can be easily coupled together.
Next, a tenth embodiment of the invention will be described.
An image forming apparatus shown in
As for the female opening 91, as shown in
As for the female opening 91 and the male opening 92, sealing films 97 are stuck on the opening end faces of the peripheral edges 93 and 94 so that the communication ports 25 and 26 may be closed. The sealing films 97 are designed such that they are cut by a cutter 101 within the peripheral edge 93 on the side of the female opening 91, and are wound so as to be sandwiched between the insertion member 33 within the peripheral edge 93 of the female opening 91 and the sheathing member 34 within the peripheral edge 94 of the male opening 92 so that the communication ports 25 and 26 can be opened.
Specifically, the insertion member 33 is integrally molded with the inner face of the peripheral edge 93 so as to transverse the communication port 95. On the other hand, the sheathing member 34 is integrally molded with the inner face of the peripheral edge 94 so as to transverse the communication port 96. The sheathing member 34 is so opened as to be able to accommodate the insertion member 33 of the female opening 91.
Further, a pair of cutters 101 that extend toward side faces 33b of the insertion member 33 from the vicinity of the left end along the inner peripheral face of the peripheral edge 93 to the vicinity of the opposite right end are integrally formed in the female opening 91. Each of the cutters 1101 is erected so that it may take such a posture that a cutting blade 101a formed in the shape of a thin blade so that the sealing film 97 can be cut faces the outside of the opening direction of the communication port 95 of the female opening 91. The left end of the cutting blade 101a is formed at an acute angle toward the side face 33b of the insertion member 33 to form a blade edge 101a that starts the cutting of the sealing film 97. That is, the cutter 101 is formed in the symmetry of revolution so that the sealing film 97 may be cut in the same circumferential direction along the vicinity of the inner peripheral face of the peripheral edge 93 of the female opening 91.
As a result, when the peripheral edges 93 and 94 of the female opening 91 and the male opening 92 are fitted and connected to each other, and when they begins to fit to each other so as to be put in a closed state while the opening ends of the peripheral edges 93 and 94 are caused to face each other to stretch the sealing film 97, blade edges 101b of the cutters 101 will pierce two places in the vicinity of the radial inner faces in the peripheral edges 93 and 94 to start cutting of the sealing films 97 that close the opening end faces of the communication ports 95 and 96 in the peripheral edges 93 and 94. Further, when the degree of fitting of the peripheral edges 93 and 94 increases, the cutting blades 101a continue the cutting along the inner faces of the peripheral edges 93 and 94, thereby extending the cutting range. Also, as the sealing films 97 are sandwiched and towed between the insertion member 33 and the sheathing member 34 within the peripheral edges 93 and 94 of the female opening 91 and the male opening 92 concurrently with the cutting by the cutters 101, they are folded up compactly, thereby opening the communication ports 95 and 96 within the peripheral edges 93 and 94.
Moreover, the female opening 91 and male opening 92 are connected to both ends of a cylindrical bellows member 103 to constitute the developing agent container 90, and a storage space 90a that stores toner is defined within the bellows member 103. As for the bellows member 103, as shown in
Further, as for the female opening 91 and the male opening 92, similarly to the above-mentioned embodiment, the female locking receptacles 35 and the male locking pawls 36 are integrally formed at the outside of the peripheral edges 93 and 94. When the female opening 91 and the male opening 92 are coupled together, the male locking pawls 36 enters the corresponding female locking receptacle 35 and lock to them so that they may not pulled out of the locking receptacles, thereby maintaining the coupled state.
Accordingly, as for the developing agent container 90, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, as shown in
As described above, according to the present embodiment, similarly to the advantageous effects according to the above-mentioned embodiments, the stored toner within the storage space 90a can be replenished to the developing unit 12 side by coupling developing agent containers 90 together. Also, developing agent containers can be stacked compactly by contracting the bellows member 103 that defines the storage space 90a. Accordingly, toner can be replenished from a plurality of developing agent containers 90 to the developing unit 12 while the volume of the set space 14 of the replenishing unit 13 is designed compactly.
Although the bellows member 103 in which a bellows shape extends within the same circle is used in the present embodiment, for example, as shown in
Further, although the case where the cylindrical female opening 91 and the cylindrical male opening 92 are connected to the similarly cylindrical bellows member 103 is described as an example in the present embodiment, it goes without saying that the invention is not limited thereto, and for example, bellows members of other shapes, such as a rectangular shape, may be adopted, and the substantially rectangular female opening 21 and male opening 22 in the above-mentioned embodiment may be connected to the bellow member.
Next, an eleventh embodiment of the invention will be described.
An image forming apparatus shown in
As for the female opening 111, as shown in
As shown in
As for the shutter members 121 to 123, as shown in
Specifically, ribs 122a and 123a are erected from trailing edges of the shutter members 122 and 123 in their pullout direction from the back side of the shielding plate 117 or 118 so as to face the outer face side, and ribs 122b and 123b are erected from leading edges opposite to the trailing edges so as to face the inner face side (within the storage space 110). Further, similarly, a rib 121a is erected from a trailing edge of the shutter member 121 so as to face the outer face side, but a rib 121b is erected from a leading edge opposite to the trailing edge so as to face the same outer face side.
In contrast, rib 117a or 118a is erected from the shielding plate 117 or 118 on the back side of the edge of the communication port 115 or 116 corresponding to the trailing edge of the shutter member 123 in its pullout direction so as to face the storage space 110a.
As a result, when the shutter member 123 is rotated in the pullout direction from the back side of the shielding plate 117 or 118, the rib 123a of the outer face of the trailing edge of the shutter member is hit and stopped by the rib 117a or 118a of the back side of the shielding plate 117 or 118, thereby limiting that the communication port 115 or 116 may be opened. Further, when the shutter member 121 or 122 is rotated in the pullout direction from the back side of the shielding plate 117 or 118, the rib 121a or 122a of the outer face of the trailing edge of the shutter member is hit and stopped by the rib 122b or 123b of the inner face of the leading edge of the shutter member 122 or 123 and thus spaced from the leading edge of the shutter member 122 or 123, thereby limiting that the communication port 115 or 116 may be opened, Further, the rib 121b of the leading edge of the shutter member 121 is formed with the same height (height to the back side of the shielding plate 117 or 118) as the thickness when the shutter members 122 and 123 are stacked on each other. In this case, when the shutter member 121 is rotated in a direction opposite to the pullout direction from the back side of the shielding plate 117 or 118, the shutter member can return to the back side of the shielding plate 117 or 118 while it hits the tip ends of the shutter members 122 and 123, to make them overlap each other.
Also, the shutter members 122 and 123 are rotatably coupled to both the shielding plates 117 or 118 and the shaft member 124. The shutter member 121 is rotatably coupled to both the shielding plate 117 or 118 and the shaft member 124 similarly on the side of the female opening 111, whereas the shutter member is connected such that it may be rotatable to the shielding plate 117 or 118 and may not be rotatable relative to the shaft member 124, on the side of the male opening 112. The shutter member 121 is biased in a direction in which it returns to the back side of the shielding plates 117 or 118 by a torsion spring (biasing member) 125 that is installed so as to be locked to a projection 121d erected from the back side (inner face) of the shutter member and a projection (not shown) erected from the inner face of the wall member 110b. That is, the shutter member 121 is always biased in a direction in which it is pulled back to the back side of the shielding plate 117 or 118 along with the shutter members 122 and 123, in other words, in a direction in which the communication port 115 or 116 within the shielding plate 117 or 118 is opened.
For this reason, the rib 121b of the leading edge of the shutter member 121 is formed with a projection 121c that projects outwardly from the upper end. In contrast, the edge of the communication ports 115 or 116 of the shielding plates 117 or 118 is formed with a locking hole 117b or 118b that houses the projection 121c of the shutter member 121 that limits the rotation of the shutter member in the opening direction from the closed state by the biasing force of the torsion spring 125. Further, projections 118c or 117c that projects so as to be inserted into the facing locking hole 117b or 118b when the peripheral edges 113 and 114 of the female opening 111 and the male opening 112 are fitted and connected to each other is erected from the outer face adjacent to the locking hole 117b or 118b.
As a result, the shutter member 121 maintains a state of closing the communication port 115 or 116 against the biasing force of the torsion spring 125 since the projection 121c of the upper end of the rib 121b of the leading edge of the shutter member is housed into and locked to the locking hole 117b or 118b of the edge of the communication port 115 or 116 of the shielding plate 117 or 118. Further, as for the shutter member 121, as shown in
Further, as for the female opening 111 and the male opening 112, the female locking receptacle 35 and the male locking pawl 36 are formed in the outer places of the peripheral edges 113 and 114 adjacent to the locking holes 117b and 118b or projections 117c and 118c of the shielding plates 117 and 118. On the side opposite to the locking receptacle and claw, a female locking receptacle 127 and a male locking pawl 128 that are made narrower than the female locking receptacle 35 and the male locking pawl 36 are formed.
As a result, the male locking pawl 36 cannot be locked to the female locking receptacle 127. Thus, when the female opening 111 and the male opening 112 are connected to each other, the relative direction of the peripheral edges 113 and 114 is limited so that the locking hole 117b or 118b and projection 117c or 118c of the shielding plates 117 and 118 may located in mutually facing positions. Also, the female opening and male opening can be joined together in a posture where the communication ports 115 and 116 of the shielding plates 117 and 118 coincide with each other.
Here, although the direction in which the female opening 111 and the male opening 112 are coupled together by making the female locking receptacle 127 and the male locking pawl 128 narrower than the female locking receptacle 35 and the male locking pawl 36 is limited in the present embodiment, it goes without saying that the invention is not limited thereto. For example, it goes without saying that thicknesses can be changed so that they can be combined together or that ribs and grooves may be formed so that they may be combined together.
Moreover, a pair of agitators 129 that extend parallel to each other and that has a plurality of openings 129a formed therein are fixedly provided in the circumferential symmetrical positions of the outer peripheral face between the innermost shutter members 121, in the shaft member 124 that couples the shutter members 121 to 123 of the female opening 111 and the male opening 112. The agitators 129 rotate within the storage space 110a in an interlocking manner with the rotation of the shaft member 124. That is, the shaft member 124 constitutes an extending member, and the agitators 129 constitute projecting members.
As a result, when the lower male opening 112 of the developing agent container 110 is connected to the female opening 111 on the side of the developing unit 12 (the upper portion of the conveyer 15 or used developing agent container 110), the closing lock of the communication ports 115 and 116 by the shutter members 121 to 123 is released automatically in an interlocking manner with the connecting operation. Thereby, the shutter member 121 rotates together with the shutter members 122 and 123 about the shaft member 124 by the biasing force of the torsion spring 125 to open the communication ports 115 and 116, and simultaneously, the shaft member 124 that rotates integrally with the shutter member 121 is caused to rotate so that the agitators 129 that extend from the outer peripheral face of the shaft member may be twirled. At this time, since the shutter member 121 is coupled to the shaft member 124 so as to be rotatable relative to the shaft member on the side of the female opening 111 to which the male opening 112 is not coupled, even if the shaft member 124 rotates, the shutter member 121 is not biased in the opening direction of the communication ports 115 and 116 even under the influence of the rotation of the shaft member, and the rotation of the agitators 129 that are connected to the shaft member 124 is not limited. For this reason, when a lower male opening 112 of an unused developing agent container 110 is connected to the female opening 111 on the side of the developing unit 12, the communication port 116 of the lower male opening 112 can be opened without making a communication port 115 of an upper female opening 111 of the developing agent container 110 open. Also, the stored toner can be replenished by rotating the agitators 129 within the storage space 110a while the storage space 110a is caused to communicate with the developing unit 12 to start replenishing of the toner. At this time, when an unused developing agent container 110 is connected to a used developing agent container 110, the vibration generated by the rotation of the agitators 129 can also be transferred to the wall member 110b, thereby shaking off the toner adhering to the inner face of the wall member without remaining, and then replenishing the toner, together with the stored toner, to the developing unit 12 side.
Accordingly, as for the developing agent container 110, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, the shutter members 121 to 123 that close the communication ports 115 and 116 are rotated automatically to open the communication ports when a lower male opening 112 of an unused developing agent container 110 is coupled to an upper female opening 111 of a used developing agent container 110. Thereby, the storage space 110a can be caused to communicate with the developing unit 12 side, thereby replenishing the stored toner to the developing unit.
As described above, according to the present embodiment, similarly to the advantageous effects according to the above-mentioned embodiments, the stored toner within the storage space 110a can be replenished to the developing unit 12 side simply by coupling developing agent containers 110 together. Accordingly, the replenishment work of toner can be completed by adding and mounting a developing agent container 110 simply and easily without choosing an operator.
Although the above-mentioned embodiment describes as an example the case where the circular female opening 111 and male opening 112 are provided as other forms of the present embodiment, the invention is limited thereto. For example, it goes without saying that the male and female openings may be formed in a rectangular shape and the shutter members may also be configured so as to open and close the communication ports not only by rotational movement, but by sliding in one direction (parallel movement).
Next, a twelfth embodiment of the invention will be described.
An image forming apparatus shown in
Further, since the bellows member 103 can be contracted, as shown in
As for the retractable shaft member 131, the cylindrical member 132 having a smallest diameter is built within the cylindrical member 133 so that it can move relatively, and the cylindrical member 133 is built within the cylindrical member 134 so that it may move relatively. The cylindrical members 132 to 134 are assembled in a state where the inner faces and outer faces thereof are brought into slide contact with each other. Specifically, the cylindrical members 132 and 134 are rotatably coupled to the shielding plates 117 and 118, respectively so that they may not drop out, and the cylindrical member 133 is brought into facing with and thereby hit and stopped by flange members (not shown) formed at ends of the inner faces or outer faces of the cylinder members 132 and 134 so that they may not drop out of the cylindrical members 132 and 134. Thereby, the cylindrical members can be extended or retracted without being disassembled. Further, the shutter members 122 and 123 are coupled to the cylindrical members 132 and 134 so as to be rotatable relative thereto, and the shutter member 121 is coupled to the cylindrical member 134 so as to be rotatable relative thereto on the side of the male opening 112, while the shutter member 121 is coupled to the cylindrical member 134 so as not to be rotatable relative thereto on the side of the female opening 111. In addition, it goes without saying that the cylindrical member 132 having a smallest diameter may be a cylinder member whose interior is filled with a material.
Further, as for the retractable shaft member 131, the mutually facing inner faces and outer faces between the cylindrical members 132 and 133 and between the cylindrical members 133 and 134 are formed with ribs 132a and 133a and grooves (not shown) that extend axially and can be combined together. By causing the ribs 132a and 133a to be housed within the grooves so as to be slidable therein, the cylindrical members 132 to 134 can be assembled so that they may not rotatable relative to each other and may be extendable and retractable.
On the other hand, as for the retractable agitator 136, the small-piece agitators 137 and 138 are connected to the outer peripheral faces of the cylindrical members 132 and 133 only by upper connectors 137b and 138b. Specifically, the small-piece agitator 137 houses the cylindrical member 133 between itself and the cylindrical member 132, and the small-piece agitator 138 houses the cylindrical member 134 between itself and the cylindrical member 133. Thereby, the small-piece agitators 137 and 138 can be overlapped with the small-piece agitator 139 without hindering extension and retraction of the retractable shaft member 131, thereby reducing the extension area.
Moreover, as for the retractable agitator 136, lower ends 137d and 138d of the small-piece agitators 137 and 138 extends so as to overlap upper ends 138c and 139c of the small-piece agitators 138 and 139, respectively, and the lower ends 137d and 138d opposite to the connectors 137b and 138b overlap the sides pushed on the upper ends 138c and 139c of the small-piece agitators 138 and 139 located below when the retractable shaft member 131 rotates. That is, as for the retractable agitator 136, when the shutter member 121, etc. rotates so as to open of the communication ports 115 and 116 of the shielding plates 117 and 118, the whole retractable agitator is rotated within the storage space while the opposite lower ends 137d and 138d of the small-piece agitators 137 and 138 supported by the cylindrical members 133 and 134 of the retractable shaft member 131 only with the connectors 137b and 138b are supported by the upper ends 138c and 139c of the small-piece agitators 138 and 139.
As a result, when the female opening 111 on the side of the developing unit 12 and the lower male opening 112 of the developing agent container 110 are coupled to each other, the shutter member 121 is rotated by the biasing force of the torsion spring 125, and simultaneously, the retractable shaft member 131 (cylindrical members 132 to 134) rotates integrally. Thereby, the retractable agitator 136 (small-piece agitators 137 to 139) supported by the outer peripheral face of each of the cylindrical members 132 to 134 can be rotated integrally so that it may be twirled, and similarly to the above-mentioned embodiment, the stored toner can be agitated and then replenished to the developing unit 12 side. Further, after the female opening 111 and the male opening 112 have been coupled to each other, the retractable shaft member 131 and the retractable agitator 136 can be retracted by compressing a bellows member 103 of a used developing agent container 130 in the retracted direction.
Accordingly, as for the developing agent container 130, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, the stored toner can be replenished to the developing unit 12 side by coupling a lower male opening 112 of an unused developing agent container 130 to an upper female opening 111 of a used developing agent container 130. Also, the upper unused developing agent container 130 can be pressed downward to deform and contract the bellows member 103 of the lower used developing agent container 130 so that the lower slope member 103b enters the upper slope member 103a. As a result, it is possible to realize stacking in a compactly compressed state where the storage space 90a is reduced.
As described above, according to the present embodiment, similarly to the advantageous effects according to the above-mentioned embodiments, the stored toner within the storage space can be replenished to the developing unit 12 side by coupling developing agent containers 130 together. Also, developing agent containers can be stacked compactly by contracting the bellows member 103 that defines the storage space. Accordingly, toner can be replenished from a plurality of developing agent containers 130 to the developing unit 12 while the volume of the set space 14 of the replenishing unit 13 is designed compactly.
In the present embodiment, the retractable shaft member 131 having a so-called fishing rod structure that is obtained by combining the cylindrical members 132 to 134 is interposed between the female opening 111 and the male opening 112 so that it can be retracted according to the contraction of the bellows member 103, and the small-piece agitators 137 to 139 are connected to the cylindrical members 132 to 134, respectively, to constitute the retractable agitator 136.
However, for example, as shown in
In this case, when the female opening 111 on the side of the developing unit 12 and the lower male opening 112 of the developing agent container 130 are coupled to each other, the shutter member 121 is rotated by the biasing force of the torsion spring 125, and simultaneously, the shaft members 141 (spring member 142) rotates integrally. Thereby, the agitators 136 connected to the spring 142 can also be rotated integrally so that it may be twirled, and similarly to the above-mentioned embodiment, the stored toner can be agitated. Further, in this case, since the spring 142 accumulates the rotation transmitted from the lower shaft member 141, it is possible to avoid forcing an upper shutter member 121 of an unused developing agent container 130 to rotate. Also, when the upper shutter member 121 of the used developing agent container 130 is rotated, the spring 142 releases the accumulated rotation while it rotates together with the shaft member 124, and then vibrates together with the agitators 143. Thereby, the toner adhering to the inner face of the bellows member 103 can be shaken off more effectively without remaining, and can then be supplied to the developing unit 12 side. After the female opening 111 and the male opening 112 have been coupled to each other, the spring 142 can also be retracted together when the bellows member 103 of the used developing agent container 130 is compressed in the retracted direction, thereby stacking developing agent container compactly. In addition, it goes without saying that the spring 142 may be relatively rotatably connected to the shaft member 141 on the side of the female opening 111 similarly to the above-mentioned embodiments.
Next, a thirteenth embodiment of the invention will be described.
As shown in
This flexible wall member 230 is formed in the shape of, for example, a tube having a rectangular cross section, which is formed by making the peripheral edge 23 of the female opening 21 of the developing agent container 220 extend in the opening direction. The flexible wall member the tube shape when toner is stored within the storage space 20a that is defined in the flexible wall member, while and deforms freely as the stored toner is supplied to the developing unit 12 side and is thereby reduced in amount due to a reduction in the lateral dimension. Here, although the flexible wall member 230 is fabricated so that it may be deformed freely as a whole, it goes without saying that the invention is not limited thereto, and for example, a ceiling part of the flexible wall member may be fabricated of a rigid plate material.
For this reason, in this developing agent container 220, a hanging part 32 formed with a hole 232a that can hook a hook 201 (refer to
As a result, as for the developing agent container 220, when the stored toner is caused to drop and flow in through the communication ports 25 and 26 within the peripheral edge 23 and 24 of the female opening 21 and the male opening 22 that are coupled together on the side the developing unit 12, the flexible wall member 230 can be maintained in a hung state so that it may not incline freely, and the stored toner within the storage space 20 can be replenished to the developing unit 12 side without remaining in the storage space.
Moreover, as shown in
Further, as for the developing agent container 220, when a male opening 22 of a lower end of an unused developing agent container 220 is coupled after the stored toner within the storage space 20a has been replenished to the developing unit 12 side, the male opening 22 of the lower end of the unused developing agent container 220 will be coupled to the female opening 21 in a state where the communication port 25 is closed by removing the hanging part 32 from the hook 201 on the side of the apparatus body H, and pushing down the flexible wall member 230 stuck on the peripheral edge 23 of the upper female opening 21.
For this reason, as for a female opening 21 and a male opening 22 of separate developing agent containers 220, various members that, when the peripheral edges 23 and 24 of the openings are coupled together, cut the flexible wall member 230 that closes the communication port 25 or the sealing film 27 that closes the communication port 26, and perform the processing that prevents the flexible wall member 230 or the sealing film 27 after the cutting from hindering flow of the toner in the communication ports 25 and 26 are arranged in the female and male openings.
Specifically, a pair of cutters 31 are erected from the female opening 21 in the vicinity of inside opposite faces (inner faces) of the substantially rectangular peripheral edge 23, and the cutters 31 are molded integrally with the female opening so that they may become parallel to each other in adjacent positions that are spaced from the inner faces by the thickness of the peripheral edge 24 of the male opening 22. Each of the cutters 31 is formed in the shape of a triangular plate whose center becomes an apex. Specifically, the oblique sides of the cutter are formed as cutting blades 31a, and an upwardly projecting needle 31b is formed in the apex. Further, this cutter 31 is molded integrally with the female opening 21 so that a tip end of the needle 31b may be located in a position that retreats further than an opening end of the peripheral edge 23 on which the sealing film 27 is stuck.
As a result, when the peripheral edges 23 and 24 of the female opening 21 and the male opening 22 and connected to each other by fitting, the cutters 31 can cut the flexible wall member 230 and the sealing film 27 that closes the opening end faces of the communication ports 25 and 26. In this case, when the female opening 21 and the male opening 22 begin to fit to each other so as to be put in a closed state while the opening ends of the peripheral edges 23 and 24 are caused to face each other to stretch the flexible wall member 230 and the sealing film 27, the needles 31b of the cutters 31 can be pierced into two places adjacent to the vicinity of the centers of the inner faces of the peripheral edges 23 and 24 to start cutting, and further when the degree of fitting of the peripheral edges 23 and 24 increases, the cutting blades 31a continue the cutting, thereby further extending the cutting range. That is, each of the cutters 31 is arranged only at the peripheral edge 23 of the female opening 21, the needle 31b constitutes a cutting starting part, and the cutting blades 31a constitute the cutting continuation part. In addition, in the present embodiment, a pair of cutters 31 are arranged so as to cut two places of the flexible wall member 230 or the sealing film 27. However, it goes without saying that the invention is not limited thereto, and one cutter or three or more cutters may be arranged, and each cutter 31 may have a plurality of needles 31b so as to start cutting from two or more places. Further, it may be designed that the cutters 31 are not only arranged at the peripheral edge 23 of the female opening 21 but also arranged at the peripheral edge 24 of the male opening 22 so that the flexible wall member 230 and the sealing film 27 may be cut from both sides. In this case, the relative positional relationship between the peripheral edges 23 and 24 that combine the female opening 21 and the male opening 22 are limited so that the cutters may not interfere with each other. Therefore, if cutting only is performed, arranging the cutters only at any one of the male and female openings can facilitate design (although the present embodiment may be limited because an insertion member 33 or sheathing member 34 as described below are also arranged).
Further, the female opening 21 is formed integrally with an insertion member 33 that is formed in the shape of an I-shaped cross section in the center between the cutters 31 within the peripheral edge 23. This insertion member 33 extends in a vertical posture parallel to the cutters 31, and thereby is formed so that the flexible wall member 230 that is stretched at the opening end of the peripheral edge 23 to close the communication port 25 may touch a tip end 33a. On the other hand, the male opening 22 is formed integrally with a sheathing member 34 that is formed in the shape of a U-shaped cross section in the center between the opposite faces within the peripheral edge 24. This sheathing member 34 extends in a vertical posture that its upper side (outer side) is open so as to sheathe the insertion member 33 on the side of the female opening 21, and thereby is formed so that the sealing film 27 that is stretched at the opening end of the peripheral edge 24 to close the communication port 26 may touch a tip end 34a. In addition, although a gap is formed between the insertion member 33 on the side of the female opening 21 and the inner faces of the peripheral edge 23 so that the peripheral edge 24 on the side of the male opening 22 may be inserted between the insertion member and the peripheral edges 23, the sheathing member 34 on the side of the male opening 22 is provided continuously across between the inner faces of the peripheral edge 24 because it can be inserted into the gap.
As a result, as shown in
Accordingly, the stored toner within the developing agent container 220 can be caused to drop (flow) and supplied into the conveyer 15 on the side of the developing unit 12 without being hindered by the sealing film 27, via the communication ports 25 and 26 within the peripheral edges 23 and 24 of the female opening 21 and the male opening 22 that are coupled to each other so that there may be no leakage. Here, within the communication ports 25 and 26, the insertion member 33 is inserted from its tip end 33a into the tip end 34a of the sheathing member 34 in a downwardly opened posture. Thus, the falling toner is not accumulated between the sealing films 27 or within the sheathing member 34.
Similarly, in the developing agent container 220, a peripheral edge 24 of a male opening 22 of a lower end of an unused developing agent container 220 is fitted into the peripheral edge 23 of the female opening 21 arranged at the upper portion of the developing agent container so that they may be coupled to each other while a closed state is secured. At this time, the flexible wall member 230 and the sealing film 27 that close the communication ports 25 and 26 is sandwiched between the insertion member 33 and the sheathing member 34 while being cut by the cutters 31 simultaneously with the coupling, and thereby is compactly folded into two. That is, the replenishing unit 13 is designed so that toner can be replenished by repeating the coupling of upper openings and lower openings 22 of the same members that are arranged at the lower portion of the developing agent container 220 and are formed integrally with each other, thereby adding the number of the developing agent containers 20 that can be set within the set space 14.
Moreover, the female opening 21 and the male opening 22 include locking mechanisms (engaging members) that can be locked so that they may engage with each other at the outside of the peripheral edges 23 and 24 so as to maintain a coupled state. Specifically, female locking receptacles 35 are molded integrally with the female opening 21, and male locking pawls 36 are molded integrally with the male opening 22. Each female locking receptacle 35 of the female opening 21 extends laterally so as to face an outer face (outer face parallel to the insertion member 33) of the peripheral edge 23 adjacent to each cutter 31, and is opened downward. Each male locking pawl 36 of the male opening 22 is erected so as to face an outer face (outer face parallel to the sheathing member 34) of the peripheral edge 24 corresponding to the female locking receptacle 35. An outwardly projecting claw part 36a is formed at the tip end of the male locking pawl.
As a result, when the peripheral edges 23 and 24 of the female opening 21 and the male opening 22 are fitted to each other so that they may be coupled to each other while a closed state is secured, the male locking pawl 36 enters the female locking receptacle 35, and the claw part 36a of the tip end of the claw sticks out. Thereby, since the claw part 36a is brought into slide contact with the inner face of the female locking receptacle 35, is elastically deformed, and then is elastically restored so as to face a lower end 35a of the receptacle, the male locking pawl 36 is hit and stopped and thereby engaged and locked so that it cannot be pulled out even if it is intended to move in a retreating direction. That is, the female opening 21 and the male opening 22 are brought close to each other so that they may be combined together without peeling off the flexible wall member 230 or the sealing film 27, and are connected to each other by a simple one action (single operation) of inserting the peripheral edge 24 into the peripheral edge 23. Thereby, the communication ports 25 and 26 within the peripheral edge 23 and 24 are communicated with and joined to each other in a closed state with no leakage of toner, and are locked so that the communicative joined state may be maintained. As a result, the supplying or replenishment work of toner can be completed easily.
Accordingly, when the male opening 22 of the lower end of the developing agent container 220 is coupled to the upper female opening 21 of the conveyer 15 of the developing unit 12, and then the stored toner within the developing agent container 220 is consumed by repetition of a development process (toner development of electrostatic latent images on the photoconductive drum 11) by the developing unit 12, and there is an instruction of replenishment of toner from the apparatus body H side, the volume of only the female opening 21 located at the upper portion is obtained by pushing down the flexible wall member 230 of the used developing agent container 220 (the male opening 22 is fitted into a separate female opening 21 located at the lower side), and the male opening 22 of the lower end of the same unused developing agent container 220 is simply coupled to the female opening 21 of the upper portion of the used developing agent container 220, without removing the already mounted developing agent container 220 (without performing the replacing work). Now, the stored toner within the unused developing agent container 220 can be caused to flow into and be replenished to the conveyer 15 of the developing unit 12 (communication space 15a).
Also, when developing agent containers 220 are coupled together by stacking the number of female openings 21 that can be set within the set space 14 of the replenishing unit 13 on each other, and then there is again an instruction of replenishment of toner from the apparatus body H side to the developing unit 12 side, it is determined as the serviceability limit of the developing unit 12 without particularly managing the lifetime of the developing unit. Then, the developing unit 12 and the replenishing unit 13 are removed together from the apparatus body H while a plurality of stages of developing agent containers 220 (female openings 21 or male openings 22) are joined and connected to each other, and then an unused developing unit 12, etc. is newly mounted. That is, the set space 14 of the replenishing unit 13 is set so that the volume of developing agent containers 220 according to the serviceability limit of the developing unit 12 can be coupled together.
As described above, the present embodiment does not need to perform the replacing work of removing a used developing agent container 220. Therefore, an unused developing agent container 220 can be coupled to the used developing agent container so that toner can be replenished, by the operation of one action of inserting and fitting the male opening 22 into the female opening 21 compactly stacked on the side of the developing unit 12, without leaking out and scattering toner. Accordingly, the replenishment work of toner can be completed by simply and easily coupling a developing agent container 220 without securing a large volume of set space 14 and without choosing an operator.
Next, a fourteenth embodiment of the invention will be described.
An image forming apparatus shown in
The outer cylinder 241 is fabricated of a resin material harder than the flexible wall member 230, and thereby supports itself. Also, the outer cylinder is designed so as to be able to support the flexible wall member 230 to be built therein, and is formed in the shape of a cylinder with a rectangular cross section, in which the peripheral edge 23 of the female opening 21 extend in the opening direction.
Further, a portion of the outer cylinder 241 in the vicinity of an upper portion of the flexible wall member 230 to be built therein is stuck peelably, and thus limits that the flexible wall member 230 after supply of the stored toner descends freely.
Also, so-called perforations 242 as intermittent minute lines that can be cut off by hand are cut into the outer cylinder 241 in the longitudinal direction thereof, and also put into along an upper edge of the peripheral edge 23 of the female opening 21. By cutting off the perforations 242, the outer cylinder 241 can be removed from the female opening 21 or the flexible wall member 230.
As a result, as for the developing agent container 240, when the stored toner is caused to drop and flow in through the communication ports 25 and 26 within the peripheral edge 23 and 24 of the female opening 21 and the male opening 22 that are coupled together on the side the developing unit 12, the flexible wall member 230 can be maintained in such a posture that it supports itself by the outer cylinder 241 so that it may not incline freely. Meanwhile, after the stored toner within the storage space 20a has been supplied to the developing unit 12 side without remaining, the flexible wall member can be put in a posture that it can be cut by the cutters 31, by cutting off and removing the outer cylinder 241 by the perforations 242, and then pushing down the flexible wall member so that the communication port 25 within the peripheral edge 23 of the female opening 21 may be closed.
As described above, according to the present embodiment, in addition to the advantageous effects according to the above-mentioned embodiments, the need for arranging the hook 201, etc. in the apparatus body H side can be eliminated, and the hooking work on the hook 201 can also be omitted. Accordingly, toner can be supplied to the developing unit 12 side by easily setting the developing agent container 240 within the set space 14 of the replenishing unit 13.
Although the present embodiment describes the case where the outer cylinder 241 is stuck on the outer face of the peripheral edge 23 of the female opening 21 as other forms of the present embodiment, the invention is limited thereto. For example, a mere cylindrical sheathing member that can cover the outside of the female opening 21 or male opening 22 may be fabricated so that the developing agent container 240 can be additionally set in the set space 14 while the female opening 21 is held from the outer face of the sheathing member. In this case, the sheathing member can be pulled out without being provided with the perforations.
Next, a fifteenth embodiment of the invention will be described.
An image forming apparatus shown in
As for the female opening 91, as shown in
As for the male opening 92, a sealing film 97 is stuck on the opening end face of the peripheral edge 94 so as to close the communication port 26. Further, as for the female opening 91, as shown in
For this reason, as for the female opening 92 and the male opening 22, various members that, when the peripheral edges 93 and 94 of the openings are coupled together, cut the flexible wall member 300 that closes the communication port 95 or the sealing film 97 that closes the communication port 96, and perform the processing that prevents the flexible wall member 230 or the sealing film 97 after the cutting from hindering flow of the toner in the communication ports 95 and 96 are arranged in the female and male openings.
Specifically, the insertion member 33 is integrally molded with the inner face of the peripheral edge 93 in the female opening 91 so as to transverse the communication port 95. On the other hand, the sheathing member 34 is integrally molded with the inner face of the peripheral edge 94 in the male opening 92 so as to transverse the communication port 96. The outside (opened side of the communication port 96) of the sheathing member 34 is opened so that the insertion member 33 of the female opening 91 can be fitted therein.
Further, a pair of cutters 101 that extend toward side faces 33b of the insertion member 33 from the vicinity of the left end along the inner peripheral face of the peripheral edge 93 to the vicinity of the opposite right end are integrally formed in the female opening 91. Each of the cutters 101 is erected so that it may take such a posture that a cutting blade 101a formed in the shape of a thin blade so that the sealing film 97 can be cut projects the outside of the opening direction of the communication port 95 of the female opening 91. The left end of the cutting blade 101a is formed at an acute angle to form a blade edge 101a that starts the cutting of the sealing film 97. That is, the cutter 101 is formed in the symmetry of revolution so that the sealing film 97 may be cut in the same circumferential direction along the vicinity of the inner peripheral face of the peripheral edge 93 of the female opening 91.
As a result, when the peripheral edges 93 and 94 of the female opening 91 and the male opening 92 are fitted and connected to each other, and when they begins to fit to each other so as to be put in a closed state while the opening ends of the peripheral edges 93 and 94 are caused to face each other to stretch the flexible wall member 300 or the sealing film 97, blade tip ends 101b of the cutters 101 will pierce two places in the vicinity of the radial inner faces in the peripheral edges 93 and 94 to start cutting of the flexible wall member 300 and the sealing film 97 that closes the opening end faces of the communication ports 95 and 96 in the peripheral edges 93 and 94. Further, when the degree of fitting of the peripheral edges 93 and 94 increases, the cutting blades 101a continue the cutting along the inner faces of the peripheral edges 93 and 94, thereby extending the cutting range. Also, as the flexible wall member 300 and the sealing film 97 are sandwiched and towed between the insertion member 33 and the sheathing member 34 within the peripheral edges 93 and 94 of the female opening 91 and the male opening 92 concurrently with the cutting by the cutters 101, they are folded up compactly, thereby opening the communication ports 95 and 96 within the peripheral edges 93 and 94.
Further, as for the female opening 91 and the male opening 92, similarly to the above-mentioned embodiment, the female locking receptacles 35 and the male locking pawls 36 are integrally formed at the outside of the peripheral edges 93 and 94. When the female opening 91 and the male opening 92 are coupled together, the male locking pawls 36 enter the corresponding female locking receptacles 35 and lockably engage them so that they may not pulled out of the locking receptacles, thereby maintaining the coupled state.
Accordingly, in the developing agent container 290, when stored toner is consumed by the developing unit 12 and then there is a replenishing instruction from the apparatus body H side, as shown in
As described above, similarly to the above-mentioned embodiments, the present embodiment does not need to perform the replacing work of removing a used developing agent container 290. Therefore, an unused developing agent container 290 can be coupled to the used developing agent container so that toner can be replenished, by the operation of one action of inserting and fitting the male opening 92 into the female opening 91 compactly stacked on the side of the developing unit 12, without leaking out and scattering toner. Accordingly, the replenishment work of toner can be completed by simply and easily adding and mounting a developing agent container 290 without securing a large volume of set space 14 and without choosing an operator.
Although the embodiments of the invention have been described up to now, it goes without saying that the invention is not limited to the above-mentioned embodiments, but may be embodied in various different forms within the scope of the technical idea of the invention. Although the case where only a so-called toner as a developing agent is set is described as an example in the above-mentioned embodiments, it goes without saying that the invention can be similarly applied to, for example, an image forming apparatus equipped with a developing device adapted to use a two-component developing agent containing a carrier or the like in addition to toner that develops an electrostatic latent image.
The disclosure of Japanese Patent Application Nos. 2005-361446 filed Dec. 15, 2006; 2005-361447 filed Dec. 15, 2006, 2005-361448 filed Dec. 15, 2006; 2005-361449 filed Dec. 15, 2006; and 2005-361450 filed Dec. 15, 2006, including specifications, drawings and claims are incorporated herein by reference in their entirety.
Number | Date | Country | Kind |
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2005-361446 | Dec 2005 | JP | national |
2005-361447 | Dec 2005 | JP | national |
2005-361448 | Dec 2005 | JP | national |
2005-361449 | Dec 2005 | JP | national |
2005-361450 | Dec 2005 | JP | national |
Number | Date | Country | |
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Parent | 11611033 | Dec 2006 | US |
Child | 12574149 | US |