JP3978920B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus such as a copying machine or a printer using an electrophotographic system, and more particularly to an image forming apparatus capable of preventing the scattering of developer at a detachable connecting portion where the developer is delivered. Is.
[0002]
[Prior art]
An image forming apparatus using an electrophotographic method basically forms an electrostatic latent image by charging a photoconductor uniformly with a charging device and then exposing a light image according to image information with an exposure device or the like. Subsequently, the electrostatic latent image is developed with a powdery developer supplied from a developing device to form a toner image, and then the toner image is transferred to a recording material such as paper by a transfer device, and finally the fixing device. Image formation is performed by fixing and making a permanent image.
[0003]
In such an image forming apparatus, the developing device is integrated as an detachable unit that is detachably attached to the main body of the image forming apparatus alone or in combination with other components. There is a type in which the developer can be replenished from a developer replenishing device to such a detachably mounted developing device.
[0004]
In this type of image forming apparatus, since the developing device is detachably attached to the apparatus main body, the developer replenishing device is fixed to the apparatus main body. Between the apparatus, a developer transport pipe having a developer transport component such as an auger provided therein is attached in order to transport the developer fed from the replenishing device to the developing apparatus. A part of the developer transport pipe (for example, the end of the transport pipe on the developing device side) is provided with a detachable connecting portion, so that the developer transport can be performed when attaching / detaching the detachable unit including the developing device. The pipe is easily connected or disconnected at the connecting portion. In addition, in such a connecting portion, in order to prevent the developer from leaking out from the developer delivery port in the connection portion when the connection portion is disconnected, the developer delivery port etc. are usually crossed. A slide shutter that slides to open and close the delivery port is provided.
[0005]
[Problems to be solved by the invention]
However, in an image forming apparatus in which a slide shutter is disposed at a connecting portion where such developer is delivered, the slide shutter slides directly or indirectly on the developer delivery port of the transport pipe. Since the slide shutter is moved so as to come in contact and the delivery port is opened and closed, the slide shutter scatters (or peels off) the developer adhering to the vicinity of the developer delivery port or the shutter surface during the slide movement. There is a problem that the developer stains the periphery of the connecting portion and the inside of the apparatus main body.
[0006]
Accordingly, an object of the present invention is to provide a developer at a connecting portion having a detachable structure in which the developer is transferred between two structures that are detachably attached to the apparatus main body as described above. An object of the present invention is to provide an electrophotographic image forming apparatus that can more reliably and easily prevent the scattering of light.
[0007]
[Means for Solving the Problems]
The present invention capable of achieving the above object is characterized in that a developer delivery port through which a developer is delivered is provided at a lower portion of the first structure, and the developer delivery port of the first structure is connected to the delivery port. And a second structure provided at the top with a developer intake port for taking in the developer that is fed out and dropped, and one of the first and second structures is connected to the apparatus main body. In the electrophotographic image forming apparatus which is a detachable structure, the first structure In , The developer A plate-like oscillating opening / closing member that swings between a position where the outlet is closed and an opening position around a fulcrum disposed in the vicinity of the outlet, and opens and closes the outlet. On the lower side of the open / close member Said Developer outlet Close location and Open position Between Said Of the first or second structure Removal from the device body With movement Said Slide in contact with the bottom surface of the swinging opening / closing member The swing type Opening / closing member Is swung to a position where the developer outlet is closed. , As the first or second structure is attached to the apparatus main body, it slides and moves in contact with the lower surface of the swingable opening / closing member, and the swingable opening / closing member is moved to the developer delivery port. Oscillate to the position to release The sliding opening / closing member and the sliding opening / closing member Direction to close developer outlet The image forming apparatus includes a double shutter component including an elastic urging member that urges elastically toward the surface.
[0008]
Here, the double shutter part is usually a predetermined opening having an opening for communicating the swinging opening / closing member, the sliding opening / closing member and the elastic biasing member with the developer delivery port of the first structure. The support frame may be appropriately disposed, and the support frame may be attached in such a state that the opening is coupled to the developer delivery port, but the opening / closing member and the biasing member are directly connected to the developer delivery port. You may make it attach in the state which incorporates (integral).
[0009]
The swing-type opening / closing member swings around at least a fulcrum (support shaft) arranged in the vicinity of the developer delivery port, and is directly or indirectly pressed against the opening edge of the delivery port, so that the delivery port (Developer passage) is closed, while swinging from the closed position to the outside lower side of the delivery port to open the delivery port, or to swing to the inside upper side of the delivery port and What is necessary is just to open a delivery port. In addition, the swingable opening / closing member is an opening of the developer intake port of the second structure from the viewpoint of reliably preventing the scattering of the developer when the first or second component is attached / detached. Set to swing while positioned inside That is, the opening / closing member is set to swing when the end portion of the opening / closing member is located opposite to the opening of the developer intake port of the second structure. Is preferred. Such setting may be made by appropriately adjusting, for example, the timing at which the sliding opening / closing member slides and the timing at which the swinging opening / closing member swings due to the sliding movement.
[0010]
On the other hand, the sliding opening / closing member is at least between a position (opposite position) facing the developer delivery port and a position (non-opposite position) that does not oppose the developer delivery port described above when the first or second structure is attached or detached. Is in contact with the lower surface of the swingable opening and closing member, and when it is mounted, it slides toward the mounting direction and displaces from the facing position to the non-facing position. Any one that slides in the direction and is displaced from the non-facing position to the facing position may be used. Further, the elastic biasing member of the opening / closing member elastically biases the opening / closing member toward the opposite direction to the mounting direction, and the opening / closing member is moved to the opposite position side unless an external force is applied. As long as it is maintained, specifically, a coil spring or the like is used.
[0011]
Incidentally, even if the developer delivered between the developer delivery port of the first structure and the developer intake port of the second structure is a developer composed only of the toner component, the toner component and the carrier A developer composed of components may be used. Strictly speaking, the mounting direction refers to an operation direction performed when the first or second structure to be mounted is finally fixed (locked) to the apparatus main body, and this mounting direction is the attachment / detachment of the structure. It may be the same as or different from the operating direction of the hour. Furthermore, for a structure that slides along with the attaching / detaching operation of the first or second structure in the sliding opening / closing member, for example, a contact portion is formed in the vicinity of the developer inlet of the second structure, Protrusions that can come into contact with the abutment portion when the attachment / detachment operation is mounted are provided on the sliding opening / closing member side, and the protrusions abut against or separate from the contact portion during the attachment / detachment operation. Thus, the sliding opening / closing member can be configured to move between the two positions described above.
[0012]
In the present invention, a configuration is adopted in which the swinging of the swinging opening / closing member is performed by sliding while a part of the sliding opening / closing member is in contact with the lower surface of the swinging opening / closing member. However, a rack and pinion mechanism or a link mechanism is disposed between the swinging opening and closing member and the sliding opening and closing member, and the linear movement caused by the sliding movement of the sliding opening and closing member is caused by the rack and pinion mechanism or the link mechanism. It is also possible to convert the rotational movement and transmit it to the swinging opening / closing member so as to swing the opening / closing member.
[0013]
In the first structure and the second structure, it is necessary to prevent the developer from scattering when the developer outlet and the developer inlet are connected or disconnected by one of the attaching / detaching operations. Any device may be used as long as the developer can be prevented from being scattered by attaching the double shutter component described above. Specifically, for example, the first (or second) structure is a developer conveyance path pipe that conveys the developer from the developer supply device to the developer, and the second (or first) structure. When the object is a detachable developing device, the first (or second) structure is a detachable developer storage cartridge, and the second (or first) structure is a developer supply device. In this case, the first (or second) structure is a detachable toner recovery container for recovering residual toner (developer) removed from the image bearing member such as the photosensitive member and the intermediate transfer member after the transfer process by the cleaning device. In this case, the second (or first) structure may be a conveyance path tube for conveying the residual toner removed from the cleaning device to the toner recovery container.
[0014]
In such a double shutter part, the sliding opening / closing member is in contact with the lower surface of the swinging opening / closing member between the facing position and the non-facing position in accordance with the attaching / detaching operation of the first or second structure. The sliding opening / closing member automatically swings to the closed position or the open position in conjunction with this movement. Thus, basically, the swingable opening and closing member directly opens and closes the developer delivery port in the first structure, and the developer delivery port that is opened and closed by the swinging opening and closing member serves as the opening and closing member. It opens and closes indirectly by a sliding type opening and closing member from below.
[0015]
Therefore, according to this double shutter component, the developer delivery port of the first structure in the image forming apparatus is directly opened and closed by the swinging opening / closing member, and the lower part of the swinging opening / closing member is below. Since the sliding opening / closing member on the side is not directly operated, the sliding opening / closing member slidably contacts the delivery port (or the connection opening connected to the delivery port) when the developer delivery port is opened / closed. There is no crossing. Further, the developer outlet is closed by both the swinging opening / closing member and the sliding opening / closing member.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
[0017]
[Embodiment 1]
FIG. 1 is a schematic diagram of an electrophotographic color image forming apparatus to which the present invention is applied. This color image forming apparatus is sequentially arranged in the horizontal direction, and exclusively forms any one of four color toner images of black (K), yellow (Y), magenta (M), and cyan (C). Four image forming systems 10K, 10Y, 10M, and 10C, and a sheet conveying device 20 that conveys the recording sheet P so that the recording sheet P passes through each transfer position to which the toner image formed by each image forming system 10 is transferred. The fixing device 30 for fixing the toner image transferred to the recording paper P in each image forming system 10 is disposed at a predetermined position in the apparatus main body (housing frame or the like) 1.
[0018]
The image forming system 10 includes a photosensitive drum 11 that rotates in the direction of arrow A, a charging device 12 that uniformly charges the surface of the photosensitive drum 11, and the surface of the charged photosensitive drum 11 according to image information. A laser beam exposure type latent image forming device 13 that exposes a light image to form an electrostatic latent image, and accommodates any of the four color toners (developers) and faces the toner to the photosensitive drum 11. A developing device 14 having a developing roll 14a for developing the electrostatic latent image by transporting it to the developing area, a transfer device 15 for electrostatically transferring the toner image formed on the photosensitive drum 11 to the recording paper P, and a post-transfer The main part is composed of components such as a drum cleaner 16 for removing residual toner on the photosensitive drum 11. Incidentally, the image information is, for example, image information of a copy document read by a document reading device (not shown) when the image forming apparatus is a copying machine, and is not shown by an external device or the like when the image forming apparatus is a printer. Print information created and input.
[0019]
The sheet conveying apparatus 20 includes an endless sheet conveying belt 21 that is stretched around a plurality of rolls 22 to 25 (the roll 22 is a driving roll) and rotates in the direction of arrow B, between the roll 22 and the roll 23. The belt 21 is disposed in a state where it passes between the photosensitive drum 11 and the transfer device 15 (corresponding to the transfer position) of each image forming system 10. Then, the recording paper P supplied from the paper feed tray 26 by the operation of the feed roll 27, the registration roll 28, and the like is sequentially passed through the respective transfer positions through the paper transport belt 21. It is designed to be transported. In the figure, 29 is a belt cleaner, and the alternate long and short dash line is a conveyance path of the recording paper P.
[0020]
The fixing device 30 is a roll type fixing device including a heating roll 31 and a pressure roll 32 that rotate while being pressed against each other, and is transferred to a pressure contact portion (nip) between the heating roll 31 and the pressure roll 33. By inserting the subsequent recording paper P, the fixing process of the unfixed toner image is performed by applying heat and pressure.
[0021]
Further, the developing device 14 in each image forming system 10 is supplied with toner for replenishment (or toner for replenishment and carrier) of a corresponding color from a toner replenishing device 40 fixedly disposed on the apparatus main body 1. It comes to be replenished with. As shown in FIGS. 1 and 2, the toner replenishing device 40 contains toner cartridges 41K, 41Y, and 41M that individually store the four color toners for replenishment and are detachably attached to the apparatus main body 1. , 41C, each toner cartridge 41 is held at the time of mounting, and the toner supplied from each cartridge 41 is sent to each developing device 14 at a predetermined timing and amount, and the toner replenishing device 40, Toner transport that is attached so as to connect both the devices 40 and 14 to the developing device 14, and transports the toner that is sent out from the sending portion of the sending device 42 during replenishment to each developing device 14 (the toner receiving portion 14b). It is comprised with the path pipe 43. FIG.
[0022]
In this color image forming apparatus, among the image forming systems 10K, 10Y, 10M, and 10C, the detachable unit in which the photosensitive drum 11, the developing device 14, and the drum cleaner 16 are detachably attached to the apparatus main body 1. It is integrated as 2K, 2Y, 2M, 2C. Each of the detachable units 2 is separately supported by a slide mechanism (slide rail or the like) (not shown) with respect to the apparatus main body 1 and is slid after being inserted from the front side of the apparatus main body 1 for mounting. The device body 1 can be attached (attached) by being pushed in, while being removed from the device body 1 by being pulled out so as to slide to the front side of the device body 1. .
[0023]
Further, in this color image forming apparatus, since each developing device 14 is incorporated in the detachable unit 2 as described above, a toner transport path tube connected to the toner receiving portion 14b of each detachable developing device 14 is attached. 1 to 3, 43 is configured to be detachably connected to each toner receiving pipe 17 fixedly disposed on the toner receiving portion 14 b side of the developing device 14 of each detachable unit 2.
[0024]
As shown in FIGS. 1 to 4, each of the toner receiving pipes 17 is erected up to a height protruding from the upper end of the unit support plate 2 a so as to extend vertically upward from the replenishing toner receiving portion 14 b of each developing device 14. The inside of the pipe has a hollow shape in which toner taken from a toner intake port 18 provided on the upper side of the pipe is likely to fall naturally toward the toner receiving portion 14b. On the other hand, as shown in FIGS. 1 to 3, the toner conveyance path tube 43 is obliquely downwardly directed from each delivery device 42 of the toner replenishing device 40 toward the upper end portion of the toner receiving piping 17 of the corresponding developing device 14. In each tube, a toner transport rotating body 44 such as an auger or an agitator that is rotated by a drive source of the delivery device 42 is disposed in the tube in order to reliably transport the toner. Yes. Further, on the end side of the toner conveyance path tube 43, the toner connected to the toner intake port 18 of the toner receiving pipe 17 and transported by the toner conveyance rotating body 44 toward the intake port 18 is sent out. A delivery port 45 is provided.
[0025]
Further, in this color image forming apparatus, as shown in FIGS. 1 to 3, the toner transport path tube 43 that is connected or disconnected to the toner delivery port 45 side of the toner transport path tube 43 when the detachable unit 2 is detached. In order to prevent toner from being scattered between the toner receiving pipe 17 and the toner receiving pipe 17, a double shutter part 5 is attached.
[0026]
As shown in FIG. 3 and FIGS. 5 to 9, the double shutter component 5 is a component including at least a swinging opening / closing plate 6, a sliding opening / closing plate 7, and a coil spring 8. The swinging opening / closing plate 6, the sliding opening / closing plate 7 and the coil spring 8 are arranged on the support frame body 9.
[0027]
Among these, the support frame 9 is a flat plate in which an opening 91 is formed on one end side, and slide guide grooves 92 for the slide type opening / closing plate 7 are formed in a straight line on both left and right sides from the opening 91 side to the other end side. Shaped frame main body 90, projectingly formed on the upper side of the opening 91, and a delivery outlet joint 93 with the toner delivery port 45 of the toner transport path tube 43, and projecting on the lower side of the opening 91. The inlet joint 94 with the toner inlet 18 of the toner receiving pipe 17 and the swinging bearing recess 95 of the swinging opening / closing plate 6 formed at the center end of the opening 91. ing. The opening 91 includes a frame portion 91b in which a toner intake opening 91a having a slightly smaller opening area than the entire opening 91 is formed at a central position slightly protruding above the frame main body 90, and the frame portion. An opening space having a larger planar area than the opening 91a is formed inside b. The opening space is a space composed of a planar space that can accommodate at least the swinging opening / closing plate 6 and can include the swinging bearing recess 94. The rocking bearing recess 95 is formed in a state of crossing the frame main body 90 at an end portion near the center of the frame portion 91b. Further, the delivery port joint portion 93 communicates with the opening portion 91 and expands in a fan shape toward the upper side from the frame portion 91b, and a circle formed at the upper edge of the passage portion 93a. It consists of an arcuate joint surface portion 93b. Further, the intake joint portion 94 includes a developer passage portion 94a communicating with the opening portion 91, and an inclined joint surface portion 94b formed on the lower edge of the passage portion 94a.
[0028]
As shown in FIGS. 5 to 9, the swingable opening / closing plate 6 includes a flat plate portion 60 made of metal or plastic having a size (planar area) capable of closing at least the opening 91 a of the opening 91. In this example, the tip portion of the plate portion 60 is formed in an arc shape, and swing shafts 61 are formed to protrude from the left and right outer sides at the left and right ends of the base end portion, respectively. .
[0029]
The swinging opening / closing plate 6 is attached by rotatably engaging the swinging shaft 61 with the swinging bearing recess 94 with the plate portion 60 inside the opening 91. It has been. As a result, the swingable opening / closing plate 6 can swing in the space below the opening 91 around the swing shaft 61, and swings upward (in the direction of arrow J). Finally, it comes into contact with the opening 91a of the opening 91 from the lower side (the inner surface of the frame portion 91b) (the swing position at that time becomes the “closed position”) and the lower side (arrow K). In the case of swinging in the direction), the opening 91a is finally opened in the opening 91 from the bearing recess 92 (the swinging position at that time becomes the “opening position”). In this example, when the swinging opening / closing plate 6 is in the closed position, the upper surface of the plate 6 is in close contact with the opening 91a (the inner surface of the frame portion 91b) without gaps so as to prevent toner leakage. An elastically deformable seal member (for example, a sponge material) 91c is disposed in a contact region with the inner surface plate of the frame portion 91b. However, such a seal member is not provided when the above-mentioned adhesion can be ensured. May be.
[0030]
The sliding opening / closing plate 7 has a flat plate portion 70 having a size larger than at least the plane area of the swinging opening / closing plate 6. In this example, the left and right end portions of the plate portion 70 having a rectangular plane are inserted into the slide guide grooves 92 formed on the left and right sides of the plate body portion 90 so as to be slidable, and are slid. Yes. Further, on the rear end side of the plate portion 70, a projecting portion 71 that is mounted so as to protrude from the left and right sides of the main body portion 90 over the frame main body portion 90 in which the slide guide groove 92 is formed is integrated. Is formed. Further, a plurality of protrusions 72 for reducing the contact area when contacting the lower surface of the swinging opening / closing plate 6 are formed on the upper surface of the plate portion 70, and the lower surface on the tip side of the plate portion 70 is formed. Is formed with a pressing protrusion 73 that temporarily presses the lower surface of the swinging opening / closing plate 6 during sliding movement. Since the pressing protrusion 73 is formed, an introduction for introducing the pressing protrusion 73 at the center of the end region opposite to the opening 91 side of the frame main body 90 during sliding movement is provided. The concave groove 90 a is formed in a state parallel to the slide guide groove 92.
[0031]
The slide-type opening / closing plate 7 is attached so that the left and right ends of the plate portion 70 are inserted into the slide guide grooves 92, respectively. As a result, the slide-type opening / closing plate 7 can be freely slid along the slide guide groove 92 in the support frame 9, and when the slide-type opening / closing plate 7 moves to the opening 91 side of the frame body 90, the slide-type opening / closing plate 7 is finally It is possible to move to a position facing the opening 91a of the opening 91 (this corresponds to the toner delivery port 45) (the moving position at this time is the “opposing position”), and the opening 91 Can move to a position that does not face the opening 91a (the moving position at this time is the “non-facing position”).
[0032]
Further, when the sliding opening / closing plate 7 moves from the non-facing position to the facing position (in the direction of the arrow S), the plate tip portion (plate portion tip portion 70a) and its upper surface portion (strictly speaking) Moves in a state in which the protrusions 72 are sequentially in contact with the lower surface of the swinging opening / closing plate 6, and swings the swinging opening / closing plate 6 upward (in the direction of arrow J). When moving toward (in the direction of arrow R), the swinging opening / closing plate 6 is swung downward (in the direction of arrow K) while maintaining the above-mentioned contact state, and finally the plate tip (plate) The distal end portion 70a) of the portion passes below the swing bearing portion 94 and is completely separated from the lower surface of the swing type opening / closing plate 6.
[0033]
The coil spring 8 is used to urge the sliding type opening / closing plate 7 with a predetermined urging force F in a direction from the non-facing position to the facing position (this direction is opposite to the mounting direction of the detachable unit 2). In this example, both ends of the spring 8 are hooked between the front end (the locking groove 90b) of the frame main body 90 and the protrusion 71 (the locking hole 71a) of the sliding opening / closing plate 7. It is attached in the state.
[0034]
As shown in FIG. 3 and the like, the double shutter component 5 having such a configuration has the sliding directions S and R of the sliding opening / closing plate 7 coincide with the attaching / detaching directions C and D of the attaching / detaching unit 2, and the outlet joint portion. The support frame 90 is fixed to the apparatus main body 1 or the toner conveyance path tube 43 using a fixing jig (not shown) while maintaining the posture in which the arcuate joining surface portion 92b of 92 is joined to the toner delivery port 45 of the toner conveyance path tube 43. To attach. In this example, the toner conveyance path tube 43 is also connected to the toner delivery port 45 side in order to facilitate the joining with the arcuate joining surface portion 92b of the double shutter component 5 and to provide the degree of freedom of the joining angle. An arcuate joint surface portion 46 corresponding to the joint surface portion 92b is formed.
[0035]
On the other hand, in order to attach such a double shutter part 5, a shutter accommodating and coupling part 19 is provided at the upper part of the toner receiving pipe 17 as shown in FIGS. 1 to 4. The shutter housing / coupling portion 19 is composed of a frame wall of a space that can be accommodated so as to surround almost the entire double shutter component 5 when the detachable unit 2 is mounted, and at the upper end portion on the side facing the apparatus main body 1 Further, a projecting portion 71 of the sliding opening / closing plate 7 of the double shutter component 5 and an abutting portion 19a that abuts when the detachable unit 2 is mounted are formed, and a portion around the toner intake port 18 has a double shutter. A joint surface portion 19b made of an inclined surface that is joined to the inclined joint surface portion 94b of the component 5 is formed.
[0036]
Next, operations related to the image forming process of the color image forming apparatus will be described. Here, a case where a full color image is formed will be described as an example.
[0037]
First, when a start button for image formation is pressed, each image forming system 10 is operated to form a toner image of each color component corresponding to the image information. That is, in each image forming system 10, after the surface of the rotating photosensitive drum 11 is uniformly charged by the charging device 12, the latent image forming device 13 irradiates the laser beam Bm according to the image information and statically. An electrostatic latent image is formed, and then the electrostatic latent image is developed with a developer (toner) of a predetermined color supplied from the developing device 14 via the developing roll 14a. As a result, toner images of predetermined colors of black, yellow, magenta and cyan are formed on the respective photosensitive drums 11 in the respective image forming systems 10.
[0038]
Subsequently, each toner image formed in each image forming system 10 is supplied from the sheet feeding tray 26 to the sheet conveying belt 21 of the sheet conveying apparatus 20 through the registration roll 28 during the toner image formation, and the sheet conveying belt. The transfer device 15 sequentially superimposes the image on the recording paper P conveyed so as to pass through the transfer position of each image forming system 10. After the transfer is completed, the recording paper P is peeled off from the conveying belt 21 and then sent to the fixing device 30 for fixing processing. Finally, the recording paper P is discharged out of the apparatus main body 1 (such as a discharge tray). Through the above process, a basic full-color image is formed.
[0039]
In this color image forming apparatus, since such image formation is performed, the developer (toner) in the developing device 14 is gradually consumed and reduced, so that the toner is supplied from the toner replenishing device 40 at a predetermined timing. It comes to be replenished. That is, when the feeding device 42 in the toner replenishing device 40 sends out the replenishing toner T supplied from the toner cartridge 41, the toner T passes through the toner conveying path tube 43 and the toner receiving pipe 17 ahead of the toner receiving portion 14 b. Until the developing device 14 is replenished. As a result, the toner mixing ratio and the like in the developing device 14 are kept substantially constant, and as a result, good development is stably performed.
[0040]
Here, as shown in FIGS. 6 and 7, the double shutter component 5 interposed in the connecting portion between the toner conveyance path tube 43 and the toner receiving pipe 17 is at the same time as the sliding opening / closing plate 7 is in the non-opposing position. Since the swinging type opening / closing plate 6 is in the open position, it is in an open state as a whole. That is, as a result, the toner delivery port 45 of the toner conveyance path tube 43 and the toner intake port 18 of the toner receiving piping 17 are in communication with each other. As a result, the replenishing toner T delivered from the toner delivery outlet 45 passes through the open double shutter component 5 and is taken into the toner intake 18 side.
[0041]
In this color image forming apparatus, for example, when replacement of the photosensitive drum 11 or inspection / repair of the developing device 14 or the drum cleaner 16 is required, the corresponding detachable unit 2 is attached / detached.
[0042]
As shown in FIG. 3, the detachable unit 2 is removed by performing necessary pre-operations such as opening the front cover (door) of the apparatus body 1 and then moving the corresponding detachable unit 2 by hand (see the figure). The drawing is performed by sliding in the direction of arrow C), and finally, the pulled out detachable unit 2 is completely removed from the apparatus main body 1 by hand. On the other hand, as shown in FIG. 3, the attachment / detachment unit 2 is attached by inserting the attachment / detachment unit 2 after the replacement or inspection / repair operation into the corresponding attachment part of the apparatus body 1 by hand. This is performed by pushing the main body 1 so as to slide backward (in the direction of arrow D in the figure), and finally pushing until the detachable unit 2 reaches the fixed set position and stops.
[0043]
When the detachable unit 2 is attached / detached, the double shutter component 5 operates and functions as follows.
[0044]
First, when the detachable unit 2 is removed, as shown in FIG. 8, the toner receiving pipe 17 on the detachable unit 2 side moves in the unit detaching direction C and gradually moves away from the double shutter component 5. As a result, the abutting portion 19a in the shutter accommodating portion 19 of the toner receiving pipe 17 moves in the unit removal direction C, so that the sliding opening / closing plate 7 having the protruding portion 71 in contact with the abutting portion 19a is The urging force F of the spring 8 starts to slide in the arrow S direction along the slide guide groove 92 of the support frame 9. At this time, the pressing protrusion 73 of the sliding opening / closing plate 7 contacts the lower surface of the swinging opening / closing plate 6 in the suspended state (open position) and pushes the opening / closing plate 6 toward the sliding direction S. Then, the front end portion of the opening / closing plate 7 and the protrusion 72 on the upper surface thereof come into contact with the lower surface of the opening / closing plate 6 and similarly push the opening / closing plate 6 toward the sliding direction S. As a result, as the sliding opening / closing plate 7 slides in the direction of arrow S, the swinging opening / closing plate 6 swings upward (in the direction of arrow J).
[0045]
Then, when the sliding opening / closing plate 7 slides to the opposite position (in this example, it stops when the projecting portion 71 comes into contact with the bearing recess 94), as shown in FIG. The swinging opening / closing plate 6 is supported from below through the projection 72 and pressed against the opening 91a (actually the seal member 91c) of the opening 91, and the opening / closing plate 7 itself is swingable. It is directly under the opening / closing plate 6 and is located in the opening space of the opening 91 (inside the frame portion 91b).
[0046]
Therefore, when the detachable unit 2 is completely removed, the double shutter component 5 is moved by the sliding movement of the sliding opening / closing plate 7 so that the swinging opening / closing plate 6 swings to the closed position and the opening 91a ( And the sliding opening / closing plate 7 exists immediately below the swinging opening / closing plate 6 and closes the opening 91a from the lower surface side of the opening / closing plate 6.
[0047]
As a result, when the detachable unit 2 is removed, the toner delivery port 45 (actually the opening 91a; the same applies to the following) is automatically blocked by the double shutter component 5. The toner T is not scattered. In particular, since the toner delivery port 45 is directly blocked by the swingable opening / closing shutter 6, scattering of the toner in the slide shutter as in the conventional example is surely prevented. Further, since the opening space on the lower side of the swinging opening / closing shutter 6 that closes the toner delivery port 45 is closed by the sliding opening / closing plate 7, it is possible to prevent toner from being scattered in a double manner. When the sliding opening / closing plate 7 in this embodiment is in the facing position, as shown in FIG. 9, the tip portion 70 a of the plate portion 70 is not in contact with the inner wall 91 d of the opening 91 and there is a gap. However, if necessary, it is possible to adjust the size and shape of the front end portion 70a and the inner wall 91a so that they are in contact with each other so that there is no gap. In this case, toner scattering is possible. It becomes possible to prevent more completely.
[0048]
On the other hand, when the detachable unit 2 is mounted, as shown in FIG. 8, the toner receiving pipe 17 on the detachable unit 2 side moves in the unit mounting direction D, approaches the double shutter component 5, and is in the shutter accommodating portion 19. While the abutting portion 19a moves, the abutting portion 19a abuts against the protruding portion 71 of the sliding opening / closing plate 7, and the opening / closing plate 7 is gradually pushed in along the mounting direction D. As a result, the sliding opening / closing plate 7 starts to slide in the direction of the arrow R along the slide guide groove 92 of the support frame 9 against the urging force F of the coil spring 8. At this time, when the sliding opening / closing plate 7 slides in the direction of arrow R, the swinging opening / closing plate 6 pressed against the opening 91a by the opening / closing plate 7 (actually the protrusion 72) is moved downward by the opening / closing plate 7. The support (pressing) from is gradually lost. As a result, as the sliding opening / closing plate 7 slides in the direction of arrow R, the swinging opening / closing plate 6 swings downward (in the direction of arrow K).
[0049]
Then, when the sliding opening / closing plate 7 slides to the non-opposing position (in this example, the contact portion 19a stops at the position where the protruding portion 71 is pushed in as much as possible), as shown in FIGS. 7 is separated from the lower surface of the swingable opening / closing plate 6 so that the swinging opening / closing plate 6 is directly below the bearing portion 95 by its own weight. While it is in a state of hanging naturally, the sliding opening / closing plate 7 itself is in a state of moving to a portion of the frame main body 90 that does not face the opening 91a of the opening 90.
[0050]
Therefore, when the detachable unit 2 is completely attached, the double shutter component 5 is moved by the sliding movement of the sliding opening / closing plate 7 so that the swinging opening / closing plate 6 swings to the open position and the opening 91a ( Corresponding to the toner delivery port 45) is opened, and the sliding opening / closing plate 7 is also moved to the non-opposing position to open the opening 91a.
[0051]
As a result, the detachable unit 2 is removed. Attached At this time, the toner delivery port 45 (opening 91a) is automatically opened (opened) by the double shutter component 5. Further, since the toner outlet 45 is directly opened by the swingable opening / closing shutter 6, the toner does not scatter during the operation of the slide shutter as in the conventional example.
[0052]
Further, as shown in FIG. 8 and the like, the double shutter component 5 in this embodiment is configured such that the sliding opening / closing plate 7 slides only by the sliding distance L in the region on the swinging shaft 61 side of the swinging opening / closing plate 6. The swing-type opening / closing plate 6 is set to swing substantially to the open position or the closed position. The slide distance L is shorter than the opening diameter W of the toner intake port 18. As a result, according to the double shutter component 5, the swingable opening / closing plate 6 swings while being located in the opening E of the toner intake port 18. As a result, even if the toner T adhering to the opening / closing plate 6 falls downward while the swinging opening / closing plate 6 is swinging, the toner T is reliably taken into the toner intake 18 and scattered outside. Never do.
[0053]
[Embodiment 2]
FIGS. 10-12 is a principal part conceptual diagram which shows the structure of the double shutter component which concerns on other embodiment to which this invention is applied, and its periphery. In other words, this embodiment is a case where the double shutter component 50 is used in the toner transfer connecting portion between the toner cartridge 41 and the delivery device 42 of the toner replenishing device 40 in the image forming apparatus according to the first embodiment. The rest of the configuration is the same as that of the first embodiment.
[0054]
In other words, in this embodiment, the toner T accommodated in the cylindrical toner cartridge 41 that is detachably attached to the apparatus main body 1 is provided in the lower part on the one end side of the cartridge 41. In the toner replenishing device 40 that is to be sent out from the outlet 41a toward the toner intake port 42a provided at the upper part of the sending device 42 that is coupled to face the sending port 41a, the toner feeding of the toner cartridge 41 is performed. A double shutter component 50 is attached to the outlet 41a side. As shown in FIG. 10B, the toner cartridge 41 is detachably attached to the apparatus main body 1 in the direction of arrows C and D as shown in the detachable unit 2 (see FIG. 3). In order to set and fix 41, a type that rotates in the set (fixed or released) directions G and H is used. Further, a toner transport rotating body such as an agitator (not shown) is disposed in the cartridge 41, and the toner is sequentially sent to the delivery port 41a side by the transport body.
[0055]
The double shutter component 50 has basically the same configuration as that of the first embodiment. As schematically shown in FIG. 10a and the like, the frame main body is provided with an opening 96 communicating with the toner delivery port 41a. A swinging opening / closing plate 6 that swings in the directions of arrows J and K about a swinging shaft 61 that is rotatably attached to one end side of the frame body 97, and a lower side of the opening / closing plate 6 , A sliding opening / closing plate 7 slidably moved in the directions of arrows S and R along a slide guide groove (not shown) in contact with the lower surface of the plate 6, and the opening / closing plate 7 with a predetermined urging force F in the direction of arrow S It comprises a coil spring (8) (not shown) for energizing. In FIG. 10 a, reference numeral 42 b denotes a contact portion that is formed to protrude in the vicinity of the toner inlet 42 a of the delivery device 42, and 75 can contact the contact portion 42 b when the cartridge 41 is mounted on the lower surface 4 of the sliding opening / closing plate 7. It is the projection part provided in this way.
[0056]
In such a double shutter component 50, a position (closed position) where the swingable opening / closing shutter 6 swings in the direction of arrow J and abuts on the opening 96 of the frame main body 97 and closes the opening 96 (arrow K). Oscillates in the direction and hangs down directly below the oscillating shaft 61 so that it can oscillate between a position where the opening 96 is opened (open position). Further, the slide-type opening / closing plate 7 slides in the direction of the arrow S to face the opening 96 (opposing position), and slides in the direction of the arrow R to the position not facing the opening 96 (non-opposing position). And slide between them. The sliding opening / closing plate 7 is set so that the sliding directions S and R coincide with the setting directions G and H of the toner cartridge 41.
[0057]
Next, the operation and function of such a double shutter component 50 will be described.
[0058]
First, when the toner cartridge 41 is mounted, as shown in FIG. 10A, the swinging opening / closing plate 6 is in the open position and the sliding opening / closing plate 7 is in the non-opposing position. Is open as a whole. As a result, the toner T delivered from the delivery port 41a of the cartridge 41 passes through the double shutter component 50 in the open state and is taken into the intake side 42a of the delivery device 42.
[0059]
When the toner cartridge 41 is removed when the toner cartridge 41 is replaced, as shown in FIG. 11, the cartridge 41 is first rotated in the set release direction H, so that the double shutter component 50 is attached to the sliding opening / closing plate 7. In contrast, it gradually moves in the direction of the arrow H (R). As a result, the sliding opening / closing plate 7 starts to slide in the direction of arrow S by the biasing force F of a coil spring (not shown). At this time, the front end portion 7a of the slide type opening / closing plate 7 comes into contact with the lower surface of the swinging type opening / closing plate 6 in the suspended state (open position) and pushes the opening / closing plate 6 toward the sliding direction S. As a result, as the sliding opening / closing plate 7 slides in the direction of arrow S, the swinging opening / closing plate 6 swings upward (in the direction of arrow J).
[0060]
Then, when the toner cartridge 41 is rotated to the full set releasing direction H (the position where the protrusion 75 is completely separated from the contact portion 42b) and the sliding opening / closing plate 7 is slid to the opposite position, as shown in FIG. The opening / closing plate 7 supports the swinging opening / closing plate 6 from below through its upper surface and is pressed against the opening 96 (or a member when there is a seal member), and the opening / closing plate 7 itself. Is positioned in the opening space directly below the swinging opening / closing plate 6. After rotating in the set release direction H, the cartridge 41 is pulled out and removed so as to slide in the direction of arrow C (FIG. 10b).
[0061]
Accordingly, when the toner cartridge 41 is completely removed, the double shutter component 50 is moved by the sliding movement of the sliding opening / closing plate 7 so that the swinging opening / closing plate 6 swings to the closed position. And the sliding opening / closing plate 7 is located directly below the swinging opening / closing plate 6 and the opening 96 is overlapped and closed from the lower surface side of the opening / closing plate 6. As a result, when the toner cartridge 41 is removed, the toner delivery port 41a (actually the opening 96; the same applies to the following) is automatically closed by the double shutter component 50. Similarly, the replenishment toner T does not scatter from the delivery port 41a.
[0062]
On the other hand, when the toner cartridge 41 is mounted, the cartridge 41 is pushed in the direction of arrow D as shown in FIG. 10b and then rotated in the set fixing direction G as shown in FIG. The toner inlet 42a and the contact portion 42b of the apparatus 42 are gradually approached, and the projecting portion 76 of the slide-type opening / closing plate 7 contacts the contact portion 42b during the rotation. As a result, the sliding opening / closing plate 7 begins to slide in the direction of the arrow R against the biasing force F of a coil spring (not shown) (in other words, the opening / closing plate 7 stops when it contacts the contact portion 42b. Only the other double shutter component 50 moves in the direction of arrow G (S)). At this time, when the sliding opening / closing plate 7 slides in the direction of the arrow R, the swinging opening / closing plate 6 pressed against the opening 96 by the opening / closing plate 7 supports (pressing) the opening / closing plate 7 from below. I gradually lose. As a result, as the sliding opening / closing plate 7 slides in the direction of arrow R, the swinging opening / closing plate 6 swings downward (in the direction of arrow K).
[0063]
When the slide-type opening / closing plate 7 slides to the non-opposing position (in this example, the cartridge 41 is fixed and stops when it reaches the set position), as shown in FIG. This is a state separated from the lower surface of the movable opening / closing plate 6, whereby the opening / closing plate 6 naturally hangs down under its own weight, and the sliding opening / closing plate 7 itself does not face the opening 96. It will move to the state.
[0064]
Therefore, when the toner cartridge 41 is completely installed, the double shutter component 50 is moved to the opening 96 (toner delivery port 41a) by the swinging opening / closing plate 6 swinging to the open position by the sliding movement of the sliding opening / closing plate 7. And the sliding opening / closing plate 7 also moves to the non-opposing position to open the opening 96. As a result, when the toner cartridge 41 is removed, the toner delivery port 41a is automatically opened (opened) by the double shutter component 50, and toner scattering does not occur.
[0065]
[Other embodiments]
In the first and second embodiments, as the double shutter parts 5 and 50, as schematically shown in FIG. The type that opens and opens the delivery port in a state of swinging toward the swinging shaft 61 (in other words, a double shutter component of a downward opening / closing type) is illustrated as an example in the present invention. For example, the swinging opening / closing plate 6 swings toward the inside upper side (in the direction of arrow J) of the toner delivery port 45 (41 a) and is substantially upright from the swinging shaft 61. A double shutter component 51 of a type that opens the door (in other words, an upper opening / closing type) may be used.
[0066]
The upper opening / closing type double shutter component 51 is located on the upper end side of the sliding opening / closing plate 7 when compared with the lower opening / closing type double shutter 5 (50) illustrated in the first and second embodiments. The structure is the same except that it is different in that the rising portion 76 is formed to rise. The double shutter component 51 is also provided with a coil spring (8) (not shown) for urging the sliding opening / closing plate 7 in the sliding direction S (not shown). The double shutter component 51 is used by being attached to the toner delivery port 45 (41a) as in the first and second embodiments. However, because of the use of such a shutter component 51, the delivery port 45 ( 41a) is formed with an inner edge portion 62 with which the swingable opening / closing plate 6 abuts when closed, and a plate receiving recess 63 for receiving the swinging opening / closing plate 6 when opened. Reference numeral 19a (42) in the figure denotes an abutting portion formed on the toner inlet 18 (42a) side in the first and second embodiments.
[0067]
The double shutter component 51 operates as follows.
[0068]
First, when the detachable unit 2 (or the toner cartridge 41) is attached, as shown in FIG. 14a, the swingable opening / closing plate 6 swings and is received in the plate receiving recess 63, and the toner delivery port 45 (41a). ) Is opened, and at the same time the sliding opening / closing plate 7 is slid and is in a non-opposing position where it does not oppose the delivery port 45 (41a), the double shutter component 51 is open as a whole. . As a result, the toner delivered from the toner delivery port 45 (41a) passes through the open double shutter component 51 and is taken into the toner intake port 18 (42a).
[0069]
When the detachable unit 2 (or toner cartridge 41) is removed, as shown in FIG. 14b, the toner inlet 18 (42a) side is in the direction of arrow C (H) or the toner outlet 45 (41a) side is arrow D (G ), The protrusion 71 (75) of the sliding opening / closing plate 7 and the contact portion 19a (42a) are relatively separated from each other. As a result, the sliding opening / closing plate 7 slides in the direction of arrow S. At this time, the rising portion 76 of the opening / closing plate 7 moves in the direction of arrow S while contacting the lower surface of the swinging opening / closing plate 6, so that the opening / closing plate 6 swings downward (in the direction of arrow K). Begin to. That is, as the sliding opening / closing plate 7 slides in the direction of arrow S, the swinging opening / closing plate 6 swings downward.
[0070]
Therefore, when the detachable unit 2 (or the toner cartridge 41) is completely removed, the double shutter component 51 starts up the swinging opening / closing plate 6 by the sliding movement of the sliding opening / closing plate 7 as shown in FIG. The toner supply outlet 45 (41a) is closed by swinging to a closed position where it is released from the support by the portion 76 and abuts against the inner edge portion 62, and the sliding opening / closing plate 7 exists directly below the swinging opening / closing plate 6. Then, the outlet 45 (41a) is overlapped from the lower surface side of the opening / closing plate 6 and closed. As a result, as in the first and second embodiments, toner scattering at the toner delivery port 45 (41a) is prevented.
[0071]
On the other hand, when the detachable unit 2 (or toner cartridge 41) is mounted, as shown in FIG. 14b, the toner inlet 18 (42a) side is in the direction of arrow C (H) or the toner outlet 45 (41a) side is arrow D ( G) moves relatively in the direction, so that the projecting portion 71 (75) of the sliding opening / closing plate 7 contacts the contact portion 19a (42a) during the movement. As a result, the sliding opening / closing plate 7 slides in the direction of arrow R. At this time, since the rising portion 76 of the opening / closing plate 7 is in contact with the lower surface of the swinging opening / closing plate 6 and moves in the arrow R direction, the opening / closing plate 6 swings upward (arrow J direction). Begin to. That is, as the sliding opening / closing plate 7 slides in the direction of arrow R, the swinging opening / closing plate 6 swings upward.
[0072]
Therefore, when the detachable unit 2 (or the toner cartridge 41) is completely attached, the double shutter component 51 is accommodated in the swinging opening / closing plate 6 by the sliding movement of the sliding opening / closing plate 7 as shown in FIG. The toner opening 45 (41a) is opened by swinging to the closed position accommodated in the recess 63, and the sliding opening / closing plate 7 is moved to a non-opposing position not facing the delivery port 45 (41a). Open the exit. As a result, the toner delivery port 45 (41 a) is automatically opened by the double shutter component 51.
[0073]
In the upper open / close type double shutter component 51, the toner intake 18 is dropped when the replenishing toner dropped onto the upper surface of the swinging opening / closing plate 6 is opened (when swinging in the arrow J direction). For example, as shown in FIG. 14 b, the toner for replenishment slips down the upper surface of the opening / closing plate 6 that swings and tilts in the vicinity of the swinging shaft 61 of the opening / closing plate 6. May be provided with a slit-like opening 65 that allows the toner to pass through the toner intake port 18 (42a) (in this case, the sliding opening / closing plate 7 also has a slit-like opening 65 in the vertical direction at the time of opening). It is preferable to provide an opening 77 that can align and drop the toner falling from the opening 65 toward the toner intake port 18 (42a).
[0074]
Further, the present invention is not limited to the case where there are a plurality of detachable units 2 and toner cartridges 41 to which the double shutter parts are attached as exemplified in the first to third embodiments, and is similarly applied to the case where only a single unit is used. Yes, but more effective when there are multiple. Further, the image forming apparatus may be of a type using an intermediate transfer method.
[0075]
【The invention's effect】
As described above, according to the image forming apparatus of the present invention, the connecting portion having a detachable structure in which the developer is transferred between two structures, one of which is detachably attached to the apparatus main body. Since the double shutter component is attached to the (toner delivery port) side, it is possible to more reliably and easily prevent the developer from scattering at the connecting portion.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of an image forming apparatus according to a first embodiment.
FIG. 2 is a schematic front view illustrating a connecting portion between an attachment / detachment unit and a toner conveyance path tube.
FIG. 3 is a schematic side view showing a connecting portion (separated state) between the detachable unit and the toner conveyance path tube.
FIG. 4 is a perspective view illustrating a main part of a toner receiving pipe.
5 is a perspective view showing the entire double shutter component according to Embodiment 1. FIG.
6 is a partial cross-sectional view showing an opening state of the double shutter component shown in FIG. 5. FIG.
7 is a cross-sectional view taken along the line QQ in FIG. 6;
FIG. 8 is a partial cross-sectional view showing a state in which the double shutter part is being opened or closed.
FIG. 9 is a partial cross-sectional view showing a closed state of the double shutter component.
FIGS. 10A and 10B show a double shutter component according to Embodiment 2 and its periphery, in which FIG. 10A is a partial schematic cross-sectional view, and FIG. 10B is a perspective view showing each operation direction when a toner cartridge is attached / detached. It is.
11 is a partial cross-sectional view showing a state in which the double shutter component shown in FIG. 11 is being opened or closed. FIG.
FIG. 12 is a partial cross-sectional view showing a closed state of the double shutter component.
FIG. 13 is a schematic diagram showing a configuration of a lower shutter type double shutter part and its respective states.
FIG. 14 is a schematic diagram showing a configuration of an upper opening / closing type double shutter part and its respective states.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Main body of an apparatus, 5, 50, 51 ... Double shutter components, 6 ... Swing type opening / closing plate, 7 ... Slide-type opening / closing plate, 8 ... Coil spring (biasing member), 14 ... Developing apparatus (detachable structure) 40) toner replenishing device (fixed structure), 41 ... toner cartridge (detachable structure), 41a, 45 ... toner delivery port, 18, 42b ... toner intake port, 61 ... swinging shaft, C ( H ), D ( G ) ... Mounting direction, T ... Toner (developer), J, K ... Oscillating direction, S, R ... Sliding direction, E ... Toner intake opening.

Claims (9)

Incorporates a first structure in which a developer delivery port from which the developer is delivered is provided at a lower portion, and a developer that is connected to the developer delivery port of the first structure and is sent out from the delivery port to fall. And a second structure having a developer inlet formed thereon,
In the electrophotographic image forming apparatus which is a structure in which either one of the first and second structures is detachably attached to the apparatus main body.
In the first structure,
A plate-like swinging opening / closing member that swings between a position where the outlet is closed and a position where the outlet is opened around a fulcrum disposed in the vicinity of the developer outlet, and opens and closes the outlet;
As the detachment operation of the first or second structure from the apparatus main body is performed between the position where the developer outlet is closed and the position where the developer delivery port is opened on the lower side of the swinging opening / closing member. The apparatus main body of the first or second structure is slid while moving in contact with the lower surface of the type opening / closing member to swing the swinging type opening / closing member to a position where the developer delivery port is closed. A sliding opening / closing member that slides in contact with the lower surface of the swinging opening / closing member in association with the attachment operation to swing the swinging opening / closing member to a position where the developer delivery port is opened; ,
An image forming apparatus comprising: a double shutter component including an elastic urging member that elastically urges the sliding opening / closing member toward a direction of closing the developer delivery port.   The swingable opening / closing member of the double shutter part is set so as to swing when the end thereof is located opposite to the opening of the developer intake port of the second structure. The image forming apparatus according to claim 1.   When the first structure and the second structure are a developer conveyance path tube and a detachable developing device, they are at least one of a detachable developer storage cartridge and a developer supply device. The image forming apparatus according to claim 1. Incorporates a first structure in which a developer delivery port from which the developer is delivered is provided at a lower portion, and a developer that is connected to the developer delivery port of the first structure and is sent out from the delivery port to fall. And a second structure having a developer inlet formed thereon,
In the electrophotographic image forming apparatus which is a structure in which one of the first and second structures is detachably attached to the apparatus main body.
In the first structure,
A plate-like swinging opening / closing member that swings between a position where the outlet is closed and a position where the outlet is opened around a fulcrum disposed in the vicinity of the developer outlet, and opens and closes the outlet;
Between the position where the developer outlet is closed and the position where the developer delivery port is closed on the lower side of the swinging opening / closing member, the swinging type is released as the first or second structure is removed from the apparatus main body. An image forming apparatus, comprising: a sliding opening / closing member that slides in a state in contact with a lower surface of the opening / closing member to swing the swinging opening / closing member to a position where the developer delivery port is closed. Incorporates a first structure in which a developer delivery port from which the developer is delivered is provided at a lower portion, and a developer that is connected to the developer delivery port of the first structure and is sent out from the delivery port to fall. And a second structure having a developer inlet formed thereon,
In the electrophotographic image forming apparatus which is a structure in which either one of the first and second structures is attached to the apparatus main body.
In the first structure,
A plate-like swinging opening / closing member that swings between a position where the outlet is closed and a position where the outlet is opened around a fulcrum disposed in the vicinity of the developer outlet, and opens and closes the outlet;
The swinging type opening / closing member has a position between the position at which the developer delivery port is closed and the position at which the developer outlet is opened as the first or second structure is attached to the apparatus main body. An image forming apparatus comprising: a sliding opening / closing member that slides in a state in contact with a lower surface of the opening / closing member to swing the swinging opening / closing member to a position where the developer delivery port is opened. The image forming apparatus according to claim 4.
When the swingable opening / closing member swings in accordance with the removal operation of the first or second structure and reaches a position where the developer outlet is closed, the swing support point of the swingable opening / closing member An image forming apparatus comprising the developer intake port below an end opposite to the end on the side. The image forming apparatus according to claim 5 .
When the swingable opening / closing member swings with the mounting operation of the first or second structure and starts to open the developer outlet, the end of the swingable opening / closing member on the swing fulcrum side An image forming apparatus, wherein the developer intake port is located below an end portion on the opposite side of the image forming portion. The image forming apparatus according to claim 4,
The image forming apparatus according to claim 1, wherein the first structure is a developer container or a developer transport unit. A developer accommodating container that has a developer accommodating portion that accommodates the developer and a developer delivery outlet that drops and delivers the developer in the developer accommodating portion, and is detachably attached to the apparatus main body of the image forming apparatus. Because
A plate-like swinging opening / closing member that swings between a position where the outlet is closed and a position where the outlet is opened around a fulcrum disposed in the vicinity of the developer outlet, and opens and closes the outlet;
A position between the position where the developer outlet is closed and the position where the developer outlet is opened on the lower side of the swinging opening / closing member is as follows. The slide-type opening / closing member is slid in contact with the lower surface to swing the developer opening / closing member to a position where the developer delivery port is closed, and the developer containing container is attached to the apparatus main body according to the operation of attaching the developer container. A sliding opening / closing member that slides in contact with the lower surface of the swinging opening / closing member and swings the swinging opening / closing member to a position where the developer delivery port is opened;
And a developer container .

Images