JP3691489B2 - Toner bottle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a toner bottle used in an image forming apparatus such as a copying machine, a printer, and a facsimile machine.
[0002]
[Prior art]
In a so-called electrostatic image forming apparatus, an electrostatic latent image formed on a photoreceptor is visualized by the adhesion of toner supplied from a developing device, transferred to a recording sheet, and then subjected to a fixing process. Is recorded and discharged out of the machine. Since the toner is consumed by development, the consumed amount is replenished by the toner replenishing device. A so-called toner bottle containing toner is detachably provided in the toner replenishing device, and when the toner bottle becomes empty, it is replaced with a new toner bottle filled with toner prepared in advance.
[0003]
The toner bottle has a cylindrical main body portion, a bottom portion sealed on one end side of the main body portion, and a toner discharge port narrowed on the other end side of the main body portion. A toner conveying spiral groove formed continuously from the main body portion on the bottom side toward the mouth portion is provided on the inner wall from the mouth portion to the mouth portion, and the main body portion is rotated by the spiral groove along with the rotation. The toner is sent out to the outside, that is, toward the developing device through the mouth.
[0004]
As described above, the toner bottle is rotated by the action of an external force. Conventionally, this rotational force is obtained from the mouth side. For example, (1) a protrusion is formed on a narrowed stepped portion on the mouth side, a so-called shoulder, and this driving protrusion is incorporated in a toner replenishing device and connected to a driving source. The toner bottle is rotated by engaging the parts. (2) A driven gear that is fitted to the outer periphery of the toner bottle is provided near the mouth of the main body, and a rotating drive gear connected to a drive source is engaged with the gear to rotate the toner bottle. I am doing so.
[0005]
[Problems to be solved by the invention]
However, in the technique of (1), the portion near the mouth is a portion in which the toner delivery mechanism is complicatedly provided. There are problems such as complicating the structure, hindering downsizing of the apparatus, and facilitating shaking of the bottom of the toner bottle, making it difficult to stably supply toner.
[0006]
In the technique (2), since the toner bottle is rotated by meshing with the drive gear adjacent to the driven gear, the toner bottle receives a force that tends to shift in the direction perpendicular to the axis due to the rotational moment. If the toner bottle is simply installed in the concave groove, the toner bottle will float or shift laterally, making normal rotation impossible. In order to prevent such a shift, it is necessary to surround and support the entire periphery of the toner bottle, but in this case, the toner bottle cannot be easily attached or detached.
[0007]
Accordingly, an object of the present invention is to provide a toner bottle capable of solving the problems (1) and (2).
[0008]
[Means for Solving the Problems]
  The present invention achieves the above object.TheA container for storing a toner, a cylindrical main body, a bottom sealed at one end of the main body, a mouth for discharging toner narrowed at the other end of the main body, The inner wall from the main body portion to the mouth portion is provided with a spiral groove for toner conveyance formed continuously from the main body portion on the bottom side toward the mouth portion, In the toner bottle in which the toner of the main body portion is sent out to the outside through the mouth portion by the spiral groove, the toner bottle is rotated with respect to the toner bottle at a position outside the bottom portion and away from the central axis of the cylindrical shape. Providing axial projections for force transmissionAnd a center positioning center projecting outwardly in the longitudinal direction of the shaft relative to the axial projection on the central axis line outside the bottom portion.(Claim 1).
[0018]
DETAILED DESCRIPTION OF THE INVENTION
(1) Toner replenishing device equipped with a toner bottle
The toner bottle according to the present invention is used, for example, in an image forming apparatus described below. Therefore, a toner bottle when used in the image forming apparatus and the toner replenishing device will be described together with the image forming apparatus and the toner replenishing device.
As shown in FIG. 15, the image forming apparatus 2 includes a process cartridge 4 that is detachably disposed on an image forming apparatus main body (not shown), and a toner replenishing device 6 that is detachably disposed on the process cartridge 4. In the process cartridge 4, a photosensitive member 8 as an image carrier and a developing device 10 are integrally stored.
[0019]
Around the photosensitive member 8, a charging roller 12, a transfer roller 14, a cleaning blade 16, and the like are provided, and the developing device 10 is provided with stirring screws 18, 20, a developing sleeve 22, a doctor blade 24, and the like. Yes. In FIG. 15, reference numeral 26 denotes a toner recycling belt, and reference numeral 28 denotes a toner density sensor.
[0020]
The image forming operation is performed as follows.
The photoreceptor 8 is neutralized by the neutralizing light 32, and the surface potential is averaged to a reference potential of 0 to -150V. Next, it is charged by the charging roller 12, and the surface potential becomes around -1100V. Next, the surface potential of the portion (image portion) that is exposed with the exposure light 34 and irradiated with light becomes 0 to −290V. Since a bias voltage of about −800 V is applied to the developing sleeve 22, the toner on the developing sleeve 22 adheres to the image portion.
[0021]
The photosensitive member 8 on which the toner image is formed rotates and moves, and a transfer sheet is fed from a sheet feeding unit (not shown) at a timing such that the leading end of the sheet and the leading end of the image coincide with each other at the transfer roller 14 site. Thus, the toner image on the surface of the photoconductor 8 is transferred to the transfer paper. Thereafter, the transfer paper is sent to a fixing unit (not shown), and the toner is fused to the transfer paper by heat and pressure and discharged as a copy.
The residual toner remaining on the photoconductor 8 is scraped off by the cleaning blade 16, and then the photoconductor 8 is neutralized by the neutralizing light 32 to be in a clean state free of toner, and the process proceeds to the next image forming process again. .
[0022]
The above-described photoconductor 8, charging roller 12, developing device 10, cleaning blade 16 and the like are housed in a case around the photoconductor. Residual toner collected by the cleaning device having the cleaning blade 16 is conveyed to the position of the toner recycling belt 26 provided at a position on the direction passing through the paper surface by a toner conveying coil provided coaxially with the pulley 29. Then, the toner is recycled to the developer agitation unit having the agitation screws 18 and 20 by the toner recycling belt 26, and the toner is recycled.
[0023]
Next, the developing device 10 will be described.
The developing sleeve 22 has a fixed shaft in which a five-pole magnet is arranged, and the outer peripheral surface is covered with a non-magnetic pipe material. When the pipe material rotates, the developer moves on the developing sleeve 22. Moving. The developer is a two-component type composed of a small iron ball called a carrier and toner. The developer circulates while being agitated by the agitating screws 18 and 20, whereby the toner has an electric charge, adheres to the carrier and is carried to the surface of the photoreceptor 8, and can adhere to the photoreceptor 8 by the action of electrostatic force. Of the developer, the carrier circulates, but the toner is consumed because it adheres to the image portion on the photoreceptor 8. Therefore, it is necessary to replenish appropriately. Further, if the amount of developer supplied to the photoconductor 8 is not constant, defective image density and uneven density occur, so the doctor blade 24 for regulating the inflow amount of the developer is disposed.
[0024]
As shown in FIG. 15, the toner replenishing device 6 generally includes a toner bottle 38 as a toner container, a toner receiving base 42 that integrally includes a toner hopper unit 40 and accommodates the toner bottle 38, and a toner hopper unit 40. And a bottle holding member 44 that rotates integrally with the toner bottle 38, and the bottle holding member 44 has a plurality of pushing members 46. An opening 48 is formed in the toner hopper 40, and a supply amount regulating member 50 having elasticity for making the toner supply amount appropriate is provided on the outer surface of the opening 48. A toner introduction cover 52 is attached to the outside of the opening 48, and a toner supply port 54 that opens horizontally is formed at the lower end of the toner introduction cover 52.
[0025]
On the other hand, on the process cartridge 4 side, a toner receiving port 56 that is also opened horizontally is formed at the upper position of the stirring screw 20 of the developing device 10. The toner receiving ports 56 are opposed to each other.
[0026]
When the toner bottle 38 rotates, the toner flows out from the opening 38a to the toner hopper 40 as indicated by an arrow A. The toner is pushed up in the direction of arrow B by the pushing member 46 of the bottle holding member 44 along with the rotation of the toner bottle, proceeds through the opening 48 in the direction of arrow C, enters the toner introduction cover 52, and is in a communicating state. The toner is supplied into the developing device 10 as indicated by an arrow D through the toner supply port 54 and the toner receiving port 56. Each of the toner supply port 54 and the toner receiving port 56 is opened and closed by a shutter member described later.
[0027]
Next, the toner replenishing device 6 will be described with reference to FIGS.
[0028]
FIG. 16 is a component configuration diagram of the toner replenishing device 6. The toner bottle 38 is rotationally driven by a driving unit 60 fixed to the apparatus main body rear side plate 58 (FIGS. 18 and 19). The drive unit 60 includes a joint 62, a spring 64, a motor and a case 66 incorporating a shaft. A concave portion 62a and convex portions 62b and 62b are formed at the tip of the joint 62 so as to be fitted to a cylinder. Yes. Correspondingly, at the bottom (rear end) of the toner bottle 38, a center 38b made of a cylindrical protrusion entering the recess 62a of the joint 62, and a prismatic protrusion that engages with the side surfaces of the protrusions 62b and 62b ′. Axial projections 38c and 38c ′ are formed. The position of the bottom of the toner bottle 38 is held by fitting the center 38b into the recess 62a, and the rotation of the toner bottle 38 is obtained by the engagement of the axial protrusions 38c and 38c 'with the protrusions 62b and 62b'. As shown in FIG. 19, when the joint 62 of the drive unit 60 rotates in the direction of arrow E, the toner bottle 38 also rotates in the same direction.
[0029]
The toner bottle 38 has a spiral groove 38D formed on the inner wall thereof from the bottom to the mouth. The spiral groove on the inner wall appears as a spiral groove 38d on the outer periphery. By rotating the toner bottle, the toner is guided to the spiral groove 38D and discharged from the mouth portion 38a. A cap 68 for preventing the toner from being discharged when not in use is detachably provided at the toner opening 38a.
[0030]
A plurality of ribs 44a are integrally formed on the front end side of the bottle holding member 44, and the pushing member 46 is attached to the ribs 44a with a double-sided tape or the like. The pushing member 46 is made of an elastic material such as Mylar or rubber. A rib 44 b is formed on a portion of the inner wall surface of the bottle holding member 44 that faces the end surface of the intermediate portion of the toner bottle 38.
[0031]
On the other hand, the main body portion, which is a cylindrical large-diameter portion of the toner bottle 38, and the mouth portion having a reduced diameter are connected by an intermediate portion having an intermediate diameter, and the mouth side of the intermediate portion 38-3. Driving claws 38q and 38q 'are formed on the end face of the first so-called shoulder. These driving claws 38q, 38q 'are hooked on the rib 44b, and the bottle holding member 44 is rotated by the rotation of the toner bottle 38.
[0032]
In FIG. 16, reference numeral 70 denotes a collet chuck for picking and releasing the cap 68, which is built in the cylindrical case 72 and integrated with the shaft member 76 by a screw 74. Reference numeral 78 denotes a sealing material, 80 denotes a sealing member, and 82 denotes a coil spring that constantly presses a series of components such as the collet chuck 70, the cylindrical case 72, and the shaft member 76 toward the toner bottle 38 side. These assembly parts are held in the toner hopper 40. Reference numeral 84 denotes a handle for opening and closing the cap 68, and an integrally formed shaft portion 84 a is supported by a shaft hole 42 a formed at the front end portion of the toner receiving base 42 and is rotatable.
[0033]
Reference numeral 86 denotes a slide shaft that enters a hole 76a formed in the shaft member 76, is in contact with a cam portion 84b formed in the handle 84, and rotates the handle 84 in the direction F shown in FIG. When a series of components such as the collet chuck 70 are slid in a direction away from the toner bottle 38, the cap 68 is removed from the opening 38a, and the toner in the toner bottle 38 can be discharged into the toner hopper 40 (FIGS. 20 and 20). 21). Details of this will be described later.
[0034]
Next, a shutter member and the like for opening and closing the toner supply port 54 in FIG. 15 will be described.
As shown in FIG. 16, the replenishment amount regulating member 50 provided in the opening 48 of the toner hopper 40 is made of an elastic material such as Mylar or rubber and has a slit hole 50a (elongated square hole). The toner replenishment amount is made appropriate by setting the width of the slit hole 50a. The supply amount regulating member 50 is attached to the opening 48 with a double-sided tape or the like.
[0035]
A shutter member 88 that opens and closes the toner supply port 54 (FIG. 17) is movable in the vertical direction inside the toner introduction cover 52 attached to the outside of the opening 48, that is, the toner supply opened horizontally. It is provided in a vertical state (crossing state) with respect to the mouth 54. The shutter member 88 includes a bendable elastic member 90 as a shutter body, a support member 92 that supports the elastic member 90, and a columnar protrusion 94 that is integrally formed with the support member 92. Reference numeral 92 has a spring member 96 that urges the shutter member 88 to be always closed. In this embodiment, the elastic member 90 is formed of a polyester film such as Mylar, and is attached to the support member 92 with a double-sided tape or the like. The toner introduction cover 52 is formed with a movement hole 52a for the protrusion 94 to move.
[0036]
As shown in FIG. 17, the toner introduction cover 52 has a toner supply port 54 formed on the bottom surface and arcuate guide portions 98 and 98 that guide the elastic member 90 of the shutter member 88. ing. In addition, a sponge seal member 100 as an elastic seal member is provided on the end side of the guide portion 98 so as to bite the tip of the elastic member 90 and prevent toner scattering.
In FIG. 16, reference numeral 104 displayed in the vicinity of the opening 48 indicates a second guide rib protruding in a trapezoidal shape in the horizontal direction for driving a second shutter member described later, and reference numeral 106 indicates an elastic member 90. The deformation | transformation control guide which supports the back side of is shown.
[0037]
As shown in FIG. 18, the toner receiving base 42 is guided by a guide plate 108 and can be attached and detached in the direction of arrow G. The guide plate 108 is attached to the apparatus main body rear side plate 58 and the apparatus main body front side plate 59 with screws (not shown). It is fixed. At the tip of the guide plate 108 is provided a stopper 112 for retaining it supported by a leaf spring 110 fixed to the guide plate 108, and the toner replenishing device 6 is mounted with the stopper 112 pushed down. When the stopper 112 is returned after the mounting, the stopper 112 is engaged with the tip of the receiving table 42, and the toner replenishing device 6 is held in a state of being prevented from being detached as shown in FIG.
[0038]
FIG. 18 shows a state where the toner replenishing device 6 is extracted from the guide plate 106. In the assembled state, the side portions 42m and 42n are fitted in the guides 108m and 108n of the guide plate 108. The toner bottle 38 is attached to and detached from the toner replenishing device 6 with the toner receiving table 42 pulled out to a state close to the state shown in FIG. In this case, as shown in FIG. 18, the stopper 42 is formed by the stepped portion 42e formed on the toner receiving base 42 being caught by the notch 108a formed on the guide plate 108. The stepped portion 42d is caught in the notch of the guide 108m, but this notch is hidden behind the apparatus main body front side plate 59 and cannot be seen.
[0039]
As shown in FIG. 18, the toner bottle 38 is placed on the toner receiving table 42, and the toner replenishing device 6 is pushed into the apparatus main body and set. In this case, before the toner supply device 6 is pushed in, the shutter member 88 is in a state in which the toner supply port 54 formed at the bottom of the toner introduction cover 52 is closed by the urging force of the spring member 96, and the elastic member 90 has an arc shape. The tip is bent along the guide portion 98, and its tip bites into the sponge seal member 100. For this reason, the gap between the opening 48 of the toner hopper 40 and the toner supply port 54 is sealed so as not to cause toner leakage.
[0040]
When the toner replenishing device 6 is pushed in from this state, the cylindrical portion of the protrusion 94 formed integrally with the support member 92 comes into contact with the guide rib provided on the main body of the process cartridge 4, and the spring member 96. It is pushed up against the urging force and finally stops at the flat top of the guide rib. With this operation, the elastic member 90 also rises (withdraws) along the guide portion 98, the toner supply port 54 is opened, and the developing device 10 and the toner replenishing device 6 are in communication. When the toner replenishing device 6 is pulled out, the protrusion 94 is lowered, so that the shutter member 88 automatically moves in the closing direction by the urging force of the spring member 96, and the elastic member 90 moves from the vertical state to the toner supply port 54. It curves so that it follows, and it will be in a closed state.
[0041]
FIG. 20 shows a state in which the toner supply port 54 and the toner receiving port 56 are opened, that is, a state when the toner replenishing device 6 and the process cartridge 4 are mounted on the image forming apparatus main body. In FIG. 20, the intermediate portion 38-3 (see FIG. 2) of the toner bottle 38 is engaged by the contact between the spherical small protrusion 38f and the inner diameter portion 44d of the bottle holding member 44 and the hopper portion 40. The bottle holding member 44 is positioned by contact with the rib 44b.
[0042]
From this state, as shown in FIG. 19, when the handle 84 is rotated downward as indicated by arrow F, the cam portion 84b (FIG. 16) pulls the slide shaft 86 in the direction of arrow J as shown in FIG. . As a result, the shaft member 76 also starts to move in the J direction, the collet chuck 70 comes into contact with the protrusion 72a of the cylindrical case 72, and the collet chuck 70 begins to close accordingly, and the cap 68 is picked. When the movement in the J direction further progresses in this state, as shown in FIG. 21, the cap 68 of the toner bottle 38 is removed by the collet chuck 70, and the toner Tn in the toner bottle 38 is assembled on the toner receiving base 42. The toner can flow into the toner hopper 40.
[0043]
The toner is replenished by detecting the toner density in the developing device 10 with the toner density sensor 28 (FIG. 15). When the detected value is equal to or lower than the reference concentration, the drive unit 60 is operated to rotate the joint 62 in the direction of arrow E as shown in FIG. As a result, the joint 62 engages with the bottom of the toner bottle 38, and the toner bottle 38 also rotates in the same direction. When the toner bottle 38 rotates, the toner is discharged from the mouth portion 38 a and collected in the toner hopper portion 40. On the other hand, the driving claws 38q and 38q ′ formed on the end surface of the intermediate portion 38-3 of the toner bottle 38 by the rotation of the toner bottle 38 engage with the rib 44b integral with the bottle holding member 44 to engage it. Push. As a result, the pushing member 46 integrated with the bottle holding member 44 slides and rotates on the inner wall surface of the toner hopper 40. By the rotation of the pushing member 46, the toner Tn accumulated in the toner hopper 40 is scraped up.
[0044]
When the pushing member 46 passes through the slit hole of the supply amount regulating member 50, the toner is pushed out from the slit hole. The pushed toner falls in the toner introduction cover 52 and is replenished into the developing device 10 through the toner supply port 54 and the toner receiving port 56 which are positioned below and open.
[0045]
(2) Toner bottle
The toner bottle according to the present invention will be described with reference to FIGS. 1 to 8 describe the basic configuration of a toner bottle related to all claims according to the present invention. 9 to FIG. 14 are toner bottles that have increased use value by combining a toner bottle of the above basic configuration with a member called a ring, and the toner bottles related to claims 3 to 8 will be described. It is a thing.
[0046]
FIG. 1 is a perspective view showing the basic configuration of the toner bottle 38. In FIG. 1, arrows a to e show several viewpoints for grasping the toner bottle. As shown by arrow a, the shape when the toner bottle 38 is viewed from the front is shown in FIG. 2 as a front view. Hereinafter, similarly, the shape when viewed from the back as shown by arrow b is shown in FIG. 3 as a rear view, the shape when viewed from the right side as shown by arrow c is shown in FIG. The shape when viewed from the left side is shown in FIG. 5 as a left side view, the shape when viewed from above as shown by arrow e in FIG. 7 and the shape when viewed from below as shown by arrow f in FIG. 8 is a bottom view, and FIG. 6 is an end view of an end surface of the cross section taken along the line KK of FIG.
[0047]
a.Axial projectionExample
  1 to 14, reference numeral 38-1 indicates a cylindrical main body. One end side of the main body is sealed. This sealed part is connected to the bottom 38-2.WhenCalled. Of the other end side of the main body portion 38-1, the narrowed portion constitutes a toner discharge port 38a. On the inner wall from the main body portion 38-1 to the mouth portion 38a, a spiral groove 38D for toner conveyance formed continuously from the main body portion 38-1 on the bottom 38-2 side toward the mouth portion 38a is formed. . The spiral groove 38D appears as 38d on the outer peripheral surface.
[0048]
1 to 6, for convenience of explanation, the mouth portion 38a is shown facing up. However, in use, for example, as shown in FIG. 21, the toner replenishing device so that the mouth portion 38a faces in the horizontal direction. Used by being attached to. Therefore, the toner in the toner bottle 38 is guided to the spiral groove 38D according to the rotation of the toner bottle 38, and is sent to the outside through the mouth portion 38a.
[0049]
As shown in FIG. 2 and FIG. 8, the outer side of the bottom portion 38-2 is a prismatic convex portion at a position away from the cylindrical central axis OO, and a shaft for transmitting rotational force to the toner bottle. Directional protrusions 38c and 38c ′ are formed. In this example, the axial protrusions 38c and 38c 'are prismatic protrusions, but the present invention is not limited to this, and any shape that can easily engage with the protrusions 62b and 62b' serving as a driving source of the rotational force may be used. As shown in FIG. 14, any protrusion that engages with the protrusions 62 b and 62 b ′ of the joint 60 that rotates about the axis O may be used. Thus, by rotating the joint 60 in the direction of the arrow E, the convex portion 62b and the axial projection 38c or the convex portion 62b ′ and the axial projection 38c ′ are engaged, and the toner bottle 38 is rotated. Will be. In this case, it goes without saying that the mouth portion 38a side is rotatably supported by the support means.
[0050]
As described above, since the axial projection for transmitting the rotational force is formed on the bottom side 38-2 instead of the mouth side from which the toner is discharged, the vibration on the side of the mouth 38a can be minimized. In addition, since the two axial projections 38 that are separated from the central axis OO about the central axis OO are provided and a rotational force close to a couple acts, the toner bottle is rotated during the rotation. 38 does not receive the force of popping out in the radial direction, and therefore, a measure for preventing popping out is unnecessary or reduced, so that the configuration can be simplified and stable toner supply can be achieved.
[0051]
b.CenterExample
  Center positioning column 38b outside the bottom 38-2 and projecting on the central axis line OO outward by Δt from the axial projections 38c and 38c ′ in the axial longitudinal direction. Is provided. As described with reference to FIGS. 16 and 18, the center 38b holds the position of the bottom of the toner bottle 38 by fitting the joint 62 into the recess 62a. In particular, the axial projections 38c and 38c ′ are provided. The relation of projecting by Δt outward in the axial longitudinal direction has the following meaning.
[0052]
  That is, the rotation stop position of the joint 62 is unstable. For this reason, when the toner bottle 38 is attached, the protrusions 62b and 62 are provided.b 'There may be a mode in which the positions of the axial protrusions 38c and 38c 'overlap. In this case, the convex portions 62b and 62b 'And the axial projections 38c, 38c 'cannot be engaged to transmit the rotational force. However, if the height of the center 38b is set higher than the axial protrusions 38c and 38c ′ as in this example, anyway, the center 38b fits into the recess 62a only at its tip, Temporarily convex part 62b, 62b 'Even if the positions of the axial projections 38c and 38c 'overlap, the joint 62 is rotated in that state.RuThus, the convex portions 62b and 62b 'Is displaced from the axial protrusions 38c and 38c '.
[0053]
  On the other hand, since the joint 62 is biased by the spring 64, the projections 62b and 62 are formed.b '14 is automatically moved between the axial protrusions 38c and 38c ′, and the rotation of the joint 62 applies a rotational force to the toner bottle 38 as shown in FIG. It can be in a state that can be made to. Therefore, according to this example,TheControl such as stopping the point 62 at a specific rotational position becomes unnecessary.
[0054]
  c.referenceExample
  A portion closer to the bottom 38-2 than the mouth 38a supports the toner bottle 38 and rotates integrally with the toner bottle 38 to guide the toner discharged from the mouth 38a to a predetermined portion. A cylindrical intermediate portion 38-3 is formed to be fitted to the bottle holding member 44. The intermediate portion 38-3 is a part of the main body portion 38-1, but is smaller in diameter than the other main body portions and larger in diameter than the mouth portion 38a. Naturally, a spiral groove 38D is also formed on the inner wall of the intermediate portion 38-3.
[0055]
As described with reference to FIG. 20, the outer diameter portion of the intermediate portion 38-3 is small so as to be brought into contact with the inner peripheral surface of the bottle holding member 44 and held without deviation with respect to the rotation center of the bottle holding member 44. A protrusion 38f is provided. The small protrusions 38f are provided corresponding to positions at which the circumference is divided at equal intervals in order to uniformly contact the inner peripheral surface of the bottle holding member 44. In this example, four small protrusions 38f are provided at 90 ° intervals. Although the number may be 4 or more, the minimum value is 3 and the 120 ° interval is the limit in order to stabilize the position. The size of the small protrusion 38f is determined by the relationship between the diameter of the intermediate portion 38-3 and the inner diameter of the bottle holding member 44, but the degree of contact with the bottle holding member 44 takes into account the ease of attaching and detaching the toner bottle 38. Then, it is better that the contact pressure does not become so strong.
[0056]
As described above, the small protrusion 38f is accurately held by the inner diameter portion of the bottle holding member 44, whereby the main body portion 38-1 of the toner bottle 38 has a curved inner diameter for supporting the toner bottle formed on the toner receiving base 42. Positioning is performed with the center at the center and being rotatable. Therefore, since the toner bottle 38 rotates without being shaken, toner can be replenished stably.
[0057]
  d.referenceExample
  Drive pawls 38q and 38q 'projecting in the direction of the central axis OO are formed on an end surface on the mouth portion 38a side, that is, a so-called shoulder portion of the intermediate portion 38-3. These driving claws 38q and 38q 'engage with the bottle holding member 44, more specifically, the rib 44b that rotates integrally with the bottle holding member 44, and rotates the pushing member 46. Two drive claws 38q and 38q 'are provided facing each other on the diameter direction of the intermediate portion 38-3. These drive claws 38q and 38q 'transmit the rotation of the toner bottle 38 to the toner holding member 44 through the rib 44b.
[0058]
Since these drive claws 38q, 38q 'and the rib 44b are formed of small pieces, the probability of colliding in the axial direction is low even when the toner bottle 38 is moved in the axial direction. By the rotation of the toner holding member 44, the pushing member 46 rotates, and the toner discharged into the toner hopper 40 from the opening 38 a is scraped and flows out from the opening 48 to the developing device 10 through the toner supply port 54.
[0059]
As described above, the simple driving claws 38q and 38q ′ projecting from the end face of the intermediate portion 38-3 allow the toner in the toner hopper 40 to be interlocked with the rotation of the toner bottle 38 without requiring another driving means. Can be automatically led out of the toner hopper.
[0060]
  e.referenceExample
  A ring 120 as shown in FIGS. 9 and 10 is rotatable on the bottom 38-2 of the toner bottle 38 described with reference to FIGS. 1 to 8, and the ring 120 is attached to the toner bottle 38 during the rotation. On the other hand, it can be fitted so as not to shift in the longitudinal direction of the shaft. Fig.10 (a) is PP sectional drawing of FIG.10 (b). The fitting means for fitting so as not to cause the deviation is formed in the convex outer diameter portion 38-2a formed in the bottom portion 38-2 and the inner diameter portion of the ring 120 in FIGS. And three stoppers 120-1A, 120-1B, 120-1C formed on the inner diameter portion of the ring 120, and the like. A groove is formed between the convex outer diameter portion 38-2a and the main body portion 38-1, as indicated by reference numeral 38-4 in FIG.
[0061]
The three elastic claw members 120-1a, 120-1b, and 120-1c are located at positions equally divided into three on the inner diameter circumference of the ring 120, and are cantilevered with one end integrated with the ring body. It consists of the elastic member. Between each of these adjacent elastic claw members 120-1a, 120-1b, 120-1c is also a cantilevered stopper holding member, and these three stopper holding members include stoppers 120-1A, 120-1B and 120-1C are formed. Although these three elastic claw members 120-1a, 120-1b, 120-1c and the three stopper holding members are divided on the base end side through a slit portion, a circular inner peripheral surface as a whole When the outer diameter of the convex outer diameter portion 38-2a is fitted to the outer diameter of the convex outer diameter portion 38-2a, the size is formed so as to be slidable and rotatable without causing rotational runout.
[0062]
The free ends of the three elastic claw members 120-1a, 120-1b, and 120-1c have a bowl-like shape bent inward. As shown by the arrow Q in FIG. 9, the ring 120 can be attached to the toner bottle 38 by pushing the ring 120 into the convex outer diameter portion 38-2a. At the time of mounting, the free end sides of the three elastic claw members 120-1a, 120-1b, and 120-1c are bent, and the claw portion gets over the convex outer diameter portion 38-2a and enters the groove 38-4. At this time, the three elastic claw members 120-1a, 120-1b, 120-1c and the stoppers 120-1A, 120-1B, 120-1C have a slidable clearance in the convex outer diameter portion 38-2a. I will be jealous. Thus, once the ring 120 is fitted, it cannot be easily removed. This is a means for fulfilling the function of the ring 120. In order to make disassembly impossible, the three elastic claw members 120-1a, 120-1b, 120-1c have right-angled bent portions in accordance with the right-angle portions of the convex outer diameter portions 38-2a. The bent portion follows the right angle portion of the corner of the convex outer diameter portion 38-2a, and functions as an axial stopper and an undissolvable function.
[0063]
Since the convex outer diameter portion 38-2a is sandwiched by three elastic claw members 120-1a, 120-1b, 120-1c and stoppers 120-1A, 120-1B, 120-1C, the toner bottle 38 is a ring. Can rotate with respect to 120 but does not shift in the axial direction.
[0064]
f.The convex outer shape has a smaller diameter than the diameter of the main body.Example
In FIG. 11, one end side of the ring 120 is close to and opposed to the edge of the main body 38-1 of the toner bottle 38, and the convex outer diameter 38-2a is the diameter of the main body 38-1. The end surface portion of the toner bottle 38 formed to have a smaller diameter than the diameter difference covers the elastic claws 120-1a, 120-1b, 120-1c. In addition, as described above, since the toner bottle 38 cannot move in the axial direction with respect to the ring 120, the three elastic claw members 120-1a, 120-1b, 120-1c are externally attached. It cannot be manipulated, so that the ring 120 cannot be disassembled. If the external force is applied to try to disassemble the toner bottle 38, the convex outer diameter portion 38-2a of the toner bottle 38 will be damaged.
[0065]
The reason why the ring 120 cannot be disassembled from the toner bottle 38 as described above is that the ring 120 has any one or all of incompatibility, a stand function, and a rotation prevention function as will be described later. This is because it is important that the toner bottle 38 is in an integral relationship.
[0066]
g.referenceExample
  This example relates to the stand function of the ring 120.
  The ring 120 has a predetermined width W in the longitudinal direction of the shaft. FIG. 11 shows a state in which the ring 120 is fitted to the convex outer diameter portion 38-2a of the toner bottle 38, and the ring is cut along a line corresponding to the cross section taken along the arrow line PO—B ′ in FIG. It is sectional drawing represented supposing the case where it did. As can be seen from FIG. 11, in the assembled state, the predetermined width W is such that one end side is in contact with the end surface of the main body 38-1 of the toner bottle 38 and the other end side is more outward than the center 38b. It is set to be located. That is, the surface on the other end side of the ring 120 is higher than the surface of the center 38b by Δt. Therefore, not only the center 38 b but also the axial protrusions 38 c and 38 c ′ are inside the other end side of the ring 120.
[0067]
For this reason, the toner bottle 38 with the ring 120 can stand on a plane such as a table 130 as shown in FIG. Without such a ring 120, the toner bottle 38 cannot stand as shown in FIG. 12 because the center 38 b protrudes from the bottom of the toner bottle 38. Therefore, the toner bottle 38 having a cylindrical shape is easy to roll when the toner bottle is replaced, but falls down from the table or the like onto the floor surface when the toner bottle is replaced. Sometimes. In that respect, if the ring 120 is combined as in this example, it is possible to stably stand upright, so that it is possible to reduce the number of fall accidents.
[0068]
h.referenceExample
  This example relates to the anti-rotation function of the ring 120.
  In FIG. 9, the ring 120 has a radial protrusion on the outer peripheral surface thereof, the shape and size of which protrudes in the radial direction and is determined so as to engage with the recess 200 formed in the toner receiving base 42 as a stationary member. 120-4 is formed. In this example, the radial protrusion 120-4 has a rectangular parallelepiped shape. On the other hand, the concave portion 200 formed in the toner receiving base 42 has a rectangular shape with a size and shape that fits into the radial protrusion 120-4. Therefore, when the toner bottle 38 is mounted, the radial protrusion 120-4 is inserted into the recess 200 as shown in FIG.
[0069]
By mounting in this manner, the ring 120 is prevented from rotating with respect to the toner receiving base 42. In addition, the toner bottle 38 is stably positioned and rotated by using the ring 120 as a bearing due to the correct positioning due to the relationship between the radial protrusion 120-4 and the recess 200. Further, since the radial protrusion 120-4 only protrudes outward, the engagement with the concave portion 200 can be easily performed by simply lifting the ring together with the toner bottle.
[0070]
i.referenceExample
  This example relates to the incompatibility prevention function of the ring 120.
  The ring 120 is provided with a protrusion 120-5 for preventing toner bottle compatibility at a position on the radial direction facing the radial protrusion 120-4. The protrusion 120-5 corresponds to the toner bottle 38 and 1: 1, and has a unique combination relationship. In this example, the protrusion 120 has a single plate shape.
  On the other hand, as shown in FIG. 18, an identification member 141 having a groove 140 having a width matching the protrusion 120-5 of a specific ring, for example, the ring 120 is provided on the front surface of the apparatus main body front plate 59. The position of the identification member 141 is provided in accordance with the position of the identification member 141 of the ring 120 combined with the toner bottle 38 containing the toner for the image forming apparatus and the toner bottle 38.
[0071]
Therefore, if the toner bottle is combined with the ring 120 having the protrusion 120-5, the position of the protrusion 120-5 matches the position of the groove 140 as shown in FIG. Can be done without problems. On the other hand, the user side or the maintenance service side has various positions and shapes as shown in FIGS. 13A, 13B, and 13C so as to be compatible with various image forming apparatuses. Protrusions 120-5a, 120-5b, 120-5c, etc. are prepared.
[0072]
Even if a toner bottle having a ring in which any one of these protrusions 120-5a, 120-5b, 120-5c, etc. is used is mistakenly attached to the toner supply device 6 of FIG. 18, these protrusions 120- 5a, 120-5b, 120-5c, etc. are different from the protrusion 120-5 in the arrangement position and shape, and therefore the toner receiving base 6 cannot be advanced deeper than the part of the identification member 141. It cannot be attached to the supply device 6. That is, the ring 120 has a toner bottle incompatibility function, and this function avoids in advance the selection of a toner bottle different from the toner bottle containing toner specific to the image forming apparatus. .
[0073]
In many cases, the toner uses a different additive composition as a charge control material for each image forming apparatus in relation to the development speed. If a toner whose characteristics do not match is selected, the image forming function is impaired. Incompatibility prevention functions such as examples are important.
[0074]
In addition, although the protrusion 120-5 illustrated what protruded in the outer-diameter direction of the ring 120 in the Example, it is not restricted to this, For example, you may comprise inside. The position and shape of the protrusion are not limited as long as alternative identification can be performed in relation to the identification member 141.
The configuration related to the stand function, the anti-rotation function, and the incompatibility prevention function described above may be applied to one ring, but of course, a ring that uses only one of these functions may be used. Is possible.
[0075]
In addition, the ring 120 is provided with ribs 120a, 120b, 120c and the like. The ribs 120a and 120b are in contact with the guide 108n, and the rib 120c is in contact with the guide 108m to stabilize the guiding operation when the toner receiving base 6 is inserted and to improve the positional accuracy.
[0076]
In the ring 120, when comparing the protrusion 120-5 side and the radial protrusion 120-4 side, the radial protrusion 120-4 side is rounded, whereas the protrusion 120-5 side is The corners protrude from both sides centering on 120-5. This is a feature given to the shape so that the operator does not confuse the protrusion 120-5 side with the radial protrusion 120-4. Thus, by making the shape of the ring vertically asymmetric, it is easy to see that the rounded protrusion is the radial protrusion 120-4 and the opposite protrusion is the protrusion 120-5. Misidentification can be prevented.
[0077]
【The invention's effect】
  axisSince the driving force is obtained from the direction, the lateral deviation in the direction perpendicular to the axis is eliminated, and the toner can be stably supplied. Simplify the drive system configurationIn addition, since the drive system is automatically connected to the axial protrusion on the basis of the center, the drive system is smoothly and reliably connected.
[0078]
According to the second aspect of the present invention, since the drive system is automatically connected to the axial protrusion on the basis of the center, the drive system is smoothly and reliably connected.
[Brief description of the drawings]
FIG. 1 is a perspective view of a toner bottle.
FIG. 2 is a front view of a toner bottle.
FIG. 3 is a rear view of the toner bottle.
FIG. 4 is a right side view of the toner bottle.
FIG. 5 is a left side view of the toner bottle.
6 is an end view of the toner bottle in FIG. 2 taken along the line KK. FIG.
FIG. 7 is a plan view of a toner bottle.
FIG. 8 is a bottom view of the toner bottle.
FIG. 9 is a perspective view showing the ring together with the bottom of the toner bottle.
10 (a) is a cross-sectional view taken along the line PP in FIG. 10 (b), and FIG. 10 (b) is a front view of the ring.
FIG. 11 is a cross-sectional view of the ring assembled in a toner bottle.
FIG. 12 is a perspective view illustrating a state in which a toner bottle with a ring is erected.
FIG. 13 is a diagram illustrating various examples of protrusions for preventing compatibility.
FIG. 14 is a partial cross-sectional view illustrating a state in which a toner bottle with a ring is attached to a toner receiving tray.
FIG. 15 is a cross-sectional view illustrating the entire image forming apparatus.
FIG. 16 is an exploded perspective view of the toner supply device.
FIG. 17 is an exploded perspective view of a toner introduction cover.
FIG. 18 is an exploded perspective view of the toner supply device.
FIG. 19 is a perspective view of the toner supply device when a toner bottle is attached.
FIG. 20 is a cross-sectional view illustrating a state before the cap of the toner bottle held on the bottle holding member is removed.
FIG. 21 is a cross-sectional view illustrating a state where a cap of a toner bottle held on a bottle holding member is removed and toner is discharged.
[Explanation of symbols]
38 Toner Bottle
38b center
38c, 38c 'axial projection

Claims (1)

A container for containing toner, a cylindrical main body, a bottom sealed at one end of the main body, and a toner discharge mouth narrowed at the other end of the main body The inner wall from the main body portion to the mouth portion is provided with a spiral groove for toner conveyance formed continuously from the main body portion on the bottom side toward the mouth portion, In the toner bottle in which the toner of the main body is sent out to the outside through the mouth by the spiral groove,
An axial protrusion for transmitting a rotational force to the toner bottle is provided outside the bottom portion and away from the cylindrical central axis , and outside the bottom portion and on the central axis. A toner bottle comprising a center positioning center that protrudes outward in the longitudinal direction of the shaft relative to the axial protrusion .

Images