The present invention is directed generally to a cap for a powder container that contains developer, a powder container including the cap, and an image forming apparatus having the function of at least one of a copier, a printer, and a facsimile machine.
There have been known powder containers of a type that rotates a container body containing developer therein to thereby release toner through a discharge port. Some group of such rotating-type powder containers includes, on or near the bottom of the container, a protrusion that is brought into engagement with a distal end of a rotary shaft to transmit a driving force to the container body and rotate the container body. Other group of the rotating-type powder containers includes, in a portion of the powder container, a drive transmission member that rotates the container body when receiving a driving force. An example of the former is disclosed in Japanese Patent Application Laid-open No. H09-6115, while an example of the latter is disclosed in Japanese Patent Application Laid-open No. 2007-178969.
Some group of the conventional rotating-type powder containers is configured as follows: at shipment from a factory, the powder container is placed in a closed state where the discharge port is covered with a shutter provided on a cover member rotatable relative to the container body; the shutter is opened when the powder container is loaded on an apparatus and the container body is rotated. Other group is configured as follows: the discharge port is placed in a closed state with a cap; when the power container is loaded on an apparatus, the cap is removed to open the discharge port. At factory shipment, each of these two groups of powder containers is sealed with the cap, which is to be removed when the powder container is to be used. The cap is desirably efficiently attached to the container during assembly.
It is therefore an object of the present invention to provide a cap, for a powder container, exhibiting favorable operability to open and close a discharge port of the powder container, a powder container including the cap, and an image forming apparatus including the cap.
According to an aspect of the present invention, there is provided a cap configured to be attached to a developer container that discharges developer contained in the container body out of the container body through a discharge port defined in a portion of the container body. The cap includes a first attaching member and a second attaching member. The first attaching member and the second attaching member are detachably assembled into one piece. When any one of the first attaching member and the second attaching member receives a rotary force, the first attaching member and the second attaching member are separated from each other, and only the first attaching member is released from the container body.
According to the aspect of the present invention, the cap is configured to be attached to a developer container that discharges developer contained in the container body out of the container through a discharge port defined in a portion of the container body. When any one of the first attaching member and the second attaching member, which are detachably assembled into one piece, receives a rotary force, the first attaching member and the second attaching member are separated from each other, and only the first attaching member is released from the container body. Thus, operability in attachment and removal of the cap to and from the developer container is improved.
The present application claims priority to and incorporates by reference the entire contents of Japanese priority documents Japanese Patent Application No. 2010-061671 filed in Japan on Mar. 17, 2010 and Japanese Patent Application No. 2010-061682 filed in Japan on Mar. 17, 2010.
The present application incorporates by reference the entire contents of Japanese priority document Japanese Patent Application No. H07-217694 filed in Japan on Aug. 25, 1995.
Exemplary embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the embodiments, modifications, and the like, configuration elements, such as members or components, identical in function or configuration are designated by identical reference numerals, and repeated descriptions are omitted.
The configuration and operations of an overall image forming apparatus according to an embodiment of the present invention are described below. As illustrated in
The toner containers 38Y, 38M, 38C, and 38K housed in the toner-container storing unit 31 are held by toner supply devices 160Y, 160M, 160C, and 160K, respectively. Developers stored in the toner containers 38Y, 38M, 38C, and 38K are each fed (supplied) into a corresponding one of developing devices in the image forming units 6Y, 6M, 6C, and 6K by the toner supply devices 160Y, 160M, 160C, and 160K.
In the present embodiment, a representative one of the image forming units is described below because the image forming units are identical in configuration except for color of the toner. Similarly, a representative one of the toner containers and that of the toner supply devices are described below.
As illustrated in
The other three image forming units 6M, 6C, and 6K are substantially identical in configuration with the image forming unit 6Y for yellow but different from the same in color of the toner to be used. An image of a corresponding one of the toner colors is formed by each of the image forming units 6M, 6C, and 6K.
Referring to
Thereafter, the surface of the photosensitive drum 1Y reaches a position irradiated with laser light L emitted from an exposure device 7 (see
After the developing, the surface of the photosensitive drum 1Y reaches a position where the surface faces the intermediate transfer belt 8 and a primary-transfer bias roller 9Y; the toner image on the photosensitive drum 1Y is transferred to the intermediate transfer belt 8 at this position (primary transfer). At this time, a slight amount of residual toner is left on the photosensitive drum 1Y.
After the primary transfer, the surface of the photosensitive drum 1Y reaches a position where the surface faces the cleaning unit 2Y; the residual toner on the photosensitive drum 1Y is mechanically collected by a cleaning blade 2a at this position (cleaning). The surface of the photosensitive drum 1Y reaches a position where the surface faces the electrostatic discharging unit (not illustrated). Residual potential is removed at this position from the photosensitive drum 1Y. The series of the image forming processes performed on the photosensitive drum 1Y is thus completed.
Image forming processes similar to those discussed above are performed on each of the other image forming units 6M, 6C, and 6K. Specifically, laser light L according to image data is emitted from the exposure device 7 arranged in a lower portion in the image forming unit toward each of the photosensitive drums of the image forming units 6M, 6C, and 6K. More specifically, the exposure device 7 emits the laser light L from its light source to illuminate the photosensitive drum 1 with the laser light L through a plurality of optical devices in a manner of scanning the drum by using a polygon mirror being rotated. Thereafter, color toner images each formed on the photosensitive drums 1 through the developing are transferred onto the intermediate transfer belt 8 to be overlaid on one another. Thus, a color image is formed on the intermediate transfer belt 8.
The intermediate transfer unit 15 includes the intermediate transfer belt 8, four primary-transfer bias rollers, or, more specifically, the primary-transfer bias roller 9Y and primary-transfer bias rollers 9M, 9C, and 9K, a secondary-transfer backup roller 12, a plurality of tension rollers, and an intermediate-transfer cleaning unit. The intermediate transfer belt 8 is stretched and supported by a plurality of rollers, and circularly moved in the direction indicated by an arrow in
Each pair of a corresponding one of the primary-transfer bias rollers 9Y, 9M, 9C, and 9K and a corresponding one of the photosensitive drum 1Y and photosensitive drums 1M, 1C, and 1K sandwiches the intermediate transfer belt 8 therebetween to form a primary transfer nip. Transfer bias of opposite polarity to that of toner is applied to the primary-transfer bias rollers 9Y, 9M, 9C, and 9K.
The intermediate transfer belt 8 moves in the direction indicated by the arrow to sequentially pass through the primary transfer nips of the primary-transfer bias rollers. The color toner images on the photosensitive drums 1Y, 1M, 1C, and 1K are thus transferred onto the intermediate transfer belt 8 in a manner that the toner images are overlaid on one another.
The intermediate transfer belt 8, on which the color toner images are transferred and overlaid, reaches the position where the toner images face a secondary transfer roller 11. At this position, the secondary-transfer backup roller 12 and the secondary transfer roller 11 sandwich the intermediate transfer belt 8 therebetween to form a secondary transfer nip. The four-color toner image formed on the intermediate transfer belt 8 is transferred onto a recording medium P, such as transfer paper, that has been conveyed to the secondary transfer nip position. At this time, residual toner having not been transferred onto the recording medium P is left on the intermediate transfer belt 8. The intermediate transfer belt 8 reaches the position where the intermediate-transfer cleaning unit (not illustrated) is provided; the residual toner on the intermediate transfer belt 8 is collected at this position. Thus, a series of the transfer processes performed on the intermediate transfer belt 8 is completed.
Meanwhile, the recording medium P has been conveyed to the secondary transfer nip position from a paper feed unit 16 arranged in a lower portion in the image-forming-apparatus main body 100 via a paper feed roller 17, a pair of registration rollers 18, and the like. More specifically, a plurality of sheets of the recording medium P, such as transfer paper, are stored as being stacked in the paper feed unit 16. When the paper feed roller 17 is rotated counterclockwise in
The recording medium P conveyed to the pair of registration rollers 18 is temporarily stopped at the nip between the pair of registration rollers 18 that has stopped to rotate. Thereafter, the pair of registration rollers 18 is rotated timed to the color image on the intermediate transfer belt 8 to thereby convey the recording medium P to the secondary transfer nip. Hence, a desired color image is transferred onto the recording medium P. The recording medium P, onto which the color image is transferred at the secondary transfer nip position, is conveyed to a position where a fixing unit 20 is provided. Heat and pressure are applied from a fixing belt and a pressure roller onto the recording medium P at this position to fix, to the recording medium P, the color image transferred onto the surface.
After the fixing, the recording medium P is discharged out of the apparatus through a pair of sheet delivery rollers 19. The recording medium P discharged out of the apparatus by the pair of sheet delivery rollers 19 is sequentially stacked, as an output image, on a stacking unit 30. Thus, a series of image printing processes in the image forming apparatus is completed.
The configuration and the operations of the developing device in the image forming unit are described in further detail below with reference to
How the developing device 5Y configured as discussed above operates is described below. The sleeve of the developing roller 21Y rotates in a direction indicated by an arrow in
Thereafter, the toner supplied into the developer storing unit 24Y is circulated (i.e. moves in a direction perpendicular to the plane of
The developer G carried on the developing roller 21Y is conveyed in the direction indicated by the arrow in
The toner supply devices 160Y, 160M, 160C, and 160K and the toner containers 38Y, 38M, 38C, and 38K are described below. The toner supply devices are identical with one another in configuration except for color of the developer in the toner container loaded thereon. The same holds true for the toner containers. Accordingly, a single toner supply device 160 and a single toner container 38, with reference symbol Y, M, C, or K for use in identifying a toner color omitted therefrom, are described below. The developer to be stored in the toner container is not limited to the toner alone; the developer can alternatively be a mixture of toner and carrier or carriers alone.
The toner container 38 illustrated in
A plurality of rib 44a are formed on and integral with a leading edge portion of a bottle holding member 44. Extruding members 46 are adhered to the ribs 44a with pressure sensitive adhesive double coated tapes or the like. The extruding members 46 are made of an elastic material, such as Mylar or rubber. A rib 44b is formed on an inner wall of the bottle holding member 44 at a portion facing an end surface of an intermediate portion 38-3 of the toner container 38.
A container body 38-1, which is a cylindrical large-diameter portion of the toner container 38, and the discharge port 38a, which is tapered, is connected with the intermediate portion 38-3, which has an intermediate diameter, interposed therebetween. Driving claws 38q1 and 38q2 are formed on an end surface, what is called a shoulder portion, of the intermediate portion 38-3 on the side near to the discharge port. These driving claws 38q1 and 38q2 engage with the rib 44b to allow the bottle holding member 44 to be rotated by rotation of the toner container 38.
Reference numeral 70 denotes a collet chuck that grips and releases the cap 68. The collet chuck 70 is incorporated in a cylindrical casing 72 and integrally coupled to a shaft 76 with a screw 74. Reference numeral 78 denotes a seal, 80 denotes a sealing member, and 82 denotes a coil spring that constantly urges a group of components including the collet chuck 70, the cylindrical casing 72, and the shaft member 76 toward the toner container 38. These components are assembled and held in a toner hopper unit 40. Reference numeral 84 denotes a handle for use in turning the cap 68 open and close. Shaft portions 84a formed integral with the handle 84 are supported by shaft holes 42a defined in a leading-end portion of a toner cradle 42, thereby allowing the handle 84 to rotate.
Reference numeral 86 denotes a sliding shaft to be inserted into a hole 76a defined in the shaft member 76 and in contact with cams 84b provided on the handle 84. When the handle 84 is rotated in a direction indicated by arrow F in
A shutter for opening and closing a toner supply port 54 and the like are described below. A supply-amount regulating member 50 provided at an opening 48 in the toner hopper unit 40 is made of an elastic material, such as Mylar or rubber, and has a slit 50a (elongated rectangular hole) as illustrated in
A shutter 88 that opens and closes the toner supply port 54 is provided at a portion inside a toner inlet cover 52 (
As illustrated in
As illustrated in
As illustrated in
When, from this state, push-in of the toner supply device 160 is performed, a cylinder portion of the protrusion 94 formed integral with the support 92 is brought into contact with a guide rib formed on a body portion of the image forming unit 6 and pushed up against the tension applied by the sprint 96. The cylindrical portion is eventually stopped at a flat top portion of the guide rib. Along with this movement, the elastic member 90 is also elevated (retracted) along the guide portions 98, which opens the toner supply port 54 and brings a developing device 5 and the toner supply device 160 into a communicatively connected state. When the toner supply device 160 is pulled out, the protrusion 94 is lowered. Accordingly, the shutter 88 is urged by the spring 96 to automatically move in a closing direction, and the elastic member 90 that has been vertically oriented is curved along the toner supply port 54, placing the shutter 88 in a closed state.
When the toner supply port 54 and a toner receiving port (not illustrated) are open, or, put another way, in a state where the toner supply device 160 and the process cartridge (the image forming unit 6) are mounted on the image-forming-apparatus main body 100, positioning to the intermediate portion 38-3 of the toner container 38 is made by contacting engagement between a spherical small protrusion 38f and an inner-radius portion of the bottle holding member 44, and abutment of the small protrusion 38f on the rib 44b of the bottle holding member 44 engaged with the toner hopper unit 40.
When, as illustrated in
Toner supply is performed based on a density of the toner in the developing device 5 determined with a toner density sensor 26. When the detected value drops to be equal to or lower than a reference density, the driving unit 60 is activated to rotate the joint 62 in the direction indicated by arrow E as illustrated in
When the extruding members 46 pass through the slit in the supply-amount regulating member 50, the toner is squeezed out through the slit. The thus-squeezed toner falls inside the toner inlet cover 52 and passes through the toner supply port 54, which is located in the lower portion in the toner inlet cover 52 and open, and passes through the toner receiving port (not illustrated) to be supplied into the developing device 5.
As discussed above, the toner supply device 160 according to the present embodiment allows replacement of the toner container 38 without causing toner leakage out of the discharge port 38a in the toner container 38 to occur.
The configuration of the toner container 38 is described below. As illustrated in
As illustrated in
As illustrated in
As discussed above, the axial protrusions 38c1 and 38c2 are formed on the bottom portion 38-2 side of the toner container 38 rather than on the one end, through which the toner is to be discharged. This allows runout of the toner container 38 on the discharge port 38a side to be minimized. In this configuration, the two axial protrusions 38c1 and 38c2 are arranged at positions equidistantly away from the center axis O-O so that a rotary force close to a couple is exerted. This configuration prevents the toner container 38 from receiving a radially outward force during rotation, thereby eliminating or reducing the necessity for providing a countermeasure against unintended popout of the toner container 38. Accordingly, reliable toner supply can be achieved with the relatively simple configuration.
As illustrated in
The three elastic claws 120-1a, 120-1b, and 120-1c are equidistantly located on an inner circumference of the ring member 120. Each of the elastic claws 120-1a, 120-1b, and 120-1c is a cantilever-type elastic member having one end that is formed integral with the body of the ring. Stopper holding members, which are also of a cantilever type, are individually interposed between adjacent ones of the elastic claws 120-1a, 120-1b, and 120-1c. The stoppers 120-1A, 120-1B, and 120-1C are formed on the three stopper holding members. Although being slotted and therefore divided at their basal end portions, as a whole, the elastic claws 120-1a, 120-1b, and 120-1c and the stopper holding members form a circular inner circumferential surface. The elastic claws 120-1a, 120-1b, and 120-1c and the stopper holding members are configured in terms of dimensions such that, in a state of being fitted into the outer circumferential surface of the protruding outer-diameter portion 38-2a, the elastic claws 120-1a, 120-1b, and 120-1c and the stopper holding members are rotatable in a sliding manner without deviation during rotation.
Each of the elastic claws 120-1a, 120-1b, and 120-1c has, at its free end, a hook-shaped portion that is inwardly bent. The ring member 120 can be rotatably mounted on the toner container 38 by pressing the ring member 120 into the protruding outer-diameter portion 38-2a as indicated by arrow Q in
The toner container 38 is allowed to rotate relative to the ring member 120 but will not be deviated in the axial direction because the protruding outer-diameter portion 38-2a is interposed between the three elastic claws 120-1a, 120-1b, and 120-1c and the stoppers 120-1A, 120-1B, and 120-1C.
Referring to
The reason why disassembly of the ring member 120 from the toner container 38 is disabled is that, as will be discussed later, the ring member 120 has at least any one of non-interchangeability, a freestanding function, and a rotation-preventing function and therefore it is highly desirable to maintain the relationship where the ring member 120 and the toner container 38 are integral with each other.
The ring member 120 has a predetermined width W in the axial, longitudinal direction.
This configuration allows the toner container 38, to which the ring member 120 is attached, to stand upright on a flat surface, such as a table 130, as illustrated in
Referring to
A receptacle 120b for receiving the RFID 122 inserted thereinto is provided on an outer peripheral surface 120a of the ring member 120 in a manner projecting outward from the outer peripheral surface 120a. Any way for mounting the RFID 122 on the ring member 120 can be employed so long as the way does not affect operations of the RFID 122. Examples of the way include adhering the RFID 122 to the ring member 120 with an adhesive and covering the receptacle 120b, into which the RFID 122 is inserted, with a sticker (not illustrated). The RFID 122 can be bonded to the ring member 120 by applying heat sealing from outside of the RFID 122.
As illustrated in
As illustrated in
According to such a configuration, the ring member 120 holding the RFID 122 is rotatable relative to the container body 38-1 and provided with the positioning member 121 for use in positioning relative to the main body when the toner container 38 is loaded on the image-forming-apparatus main body 100. Accordingly, even if the toner container 38 is loaded on the image-forming-apparatus main body 100 without performing positioning of the toner container 38, when the container body 38-1 having been loaded is rotated by the driving unit 60 illustrated in
Put another way, this allows a user to mount the toner container 38 on the toner cradle 42 of the toner supply device 160 with no consideration of the position of the RFID 122; after the toner container 38 has been mounted, this allows the RFID 122 to be located at the optimum position to exchange information according to toner-discharging operation performed by the toner container 38. Hence, the RFID 122 can be located to the optimum position for information exchange without fail irrespective of the toner-discharging operation performed by the toner container 38. This substantially completely prevents the RFID 122 from being affected by toner that would otherwise stick thereto.
The ring member 120 may be provided on the toner container 38 in any form so long as it does not affect operations of the RFID 122. In the embodiment, as illustrated in
As a modification, the RFID 122 can be arranged inside a recess 120c defined in the outer peripheral surface 120a of the ring member 120 as illustrated in
When constructed in this manner, the outer peripheral surface 120a of the ring member 120 can have not only a smooth outer surface but also have a small diameter, which contributes to compact configuration. In a modification illustrated in
The positioning member 121 can be configured to perform a function of establishing non-interchangeability in terms of color or model of the toner container 38. An example is illustrated in
This configuration disables mounting of the toner container 38 on the toner cradle 42 of the toner supply device 160 unless otherwise the shape of the positioning member 121 of the ring member 120 mounted on the toner container 38 fits the shape of the stopper 200, which depends on the color of the toner in the toner container 38. This configuration also allows easy determination as to whether the toner container 38 has been mistakenly loaded by simple visual observation. Hence, the function of establishing non-interchangeability in terms of color or model can be provided based on the variation in the shape of the positioning member 121.
This configuration can be implemented by changing the shapes of the positioning members 121 on a color-by-color basis. Accordingly, by producing the positioning members 121 in different shapes on a per toner-color basis in production of the ring member 120, reduction in the number of components and simplified production process can be achieved.
Regarding the arrangement of the positioning members 121, for example, as illustrated in
When such a configuration is employed, the ring member 120 holding the RFID 122 or the positioning member 121 also performs the function of establishing non-interchangeability. This leads to reduction in the number of components. Furthermore, the ring member 120 can be shaped to perform its function as the ring member and, additionally, the function of establishing non-interchangeability. This leads to simplification of production method.
This configuration allows the RFID 122 to be positioned and held in the space above the toner cradle 42 away from a lower portion of the toner cradle 42 of the toner container 38 where the RFID 122 is likely to be contaminated during mounting and removal of the toner container 38. Hence, influence resulting from toner sticking can be minimized. More specifically, when the toner container 38 is mounted on the toner cradle 42 of the toner supply device 160, the RFID 122 is constantly positioned above the horizontal line that virtually divides the ring member 120. This makes this configuration considerably advantageous in the context that contamination by toner sticking or the like is prevented. Accordingly, information communications can be carried out more reliably.
When the positioning member 121 is provided at a position facing the RFID 122 and the positioning member 121 has a certain weight, as a matter of course, the ring member 120 is rotated relative to the container body 38-1 by the gravity, bringing the positioning member 121 to a lowermost position. Hence, the RFID 122 is brought to the uppermost position. When the antenna 124 is arranged at a position facing the RFID 122 when the RFID 122 is at the uppermost position, information communications can be carried out more reliably. The weight 125 allows the RFID 122 to be moved to a desired position even before an operation of discharging toner from the toner container 38 is performed or even when the operation is not performed. In this example, the RFID 122 is configured to be located at the uppermost position; alternatively, the RFID 122 can be configured to be located at another position. In this configuration, the center of gravity of the ring member 120 is lowered by forming the positioning member 121 at the position facing the location of the RFID 122 and the providing weight 125 in the positioning member. Alternatively, the center of gravity can be changed by making the positioning member 121 from a material, of which density is greater than that of the ring member 120, rather than by using the weight 125.
A magnet 201, which is a magnetic member, is provided as a positioning member on the outer peripheral surface 120a of the ring member 120 illustrated in
In the arrangement illustrated in
As discussed above, the magnet 201 is arranged as the positioning member on the ring member 120 attached to the toner container 38 while the magnet 202 is arranged on the toner cradle 42, on which the toner container 38 is to be loaded, of the toner supply device 160. With this arrangement, loading the toner container 38 on the toner cradle 42 (the image-forming-apparatus main body 100) of the toner supply device 160 causes the ring member 120 that holds the RFID 122, which is rotatable relative to the container body 38-1, to include the magnet 201 that serves as the positioning member in positioning to the image-forming-apparatus main body. Hence, even when the toner container 38 is loaded on the toner cradle 42 of the toner supply device 160 without performing positioning of the toner container 38, when the container body 38-1 having been loaded is rotated by the driving unit 60 illustrated in
Put another way, a position of the RFID 122 can be detected by using the magnet 201 and the magnet 202. This allows a user to insert the toner container 38 into the image-forming-apparatus main body side with no consideration of orientation and the like and also allows the RFID 122 to be moved to a position where the RFID 122 can exchange necessary information according to toner discharging operation performed by the toner container 38. Hence, information exchange with the RFID 122 can be carried out without fail irrespective of the toner-discharging operation performed by the toner container 38 while experiencing substantially no influence of toner sticking. When the positioning member is configured to utilize the magnetic force of the magnet, which is the magnetic member, noise resulting from abutment is not produced. Accordingly, this configuration is advantageous as compared to a positioning unit including the positioning member 121 and the stopper 200 in the context of silent operation.
When a plurality of pairs of magnets for use in positioning are arranged in this manner, the magnetic force, or, put another way, a braking force for stopping rotation of the ring member 120 can be increased as compared to an arrangement including a pair of magnets. This allows the ring member 120 to be fixed stably to the position where information is to be exchanged between the RFID 122 and the antenna 124 even when the weight of the toner container 38 is large and therefore an inertial force produced by stoppage of rotation of the toner container 38 is large, or when the rotation speed of the toner container 38 being driven is high. Hence, this configuration substantially negates influence that would otherwise be exerted by toner sticking. Furthermore, the antenna 124 can read information from the RFID 122 reliably.
In the example illustrated in
When such a configuration as discussed above is employed, unintended positioning that would otherwise occur due to attraction between magnets when a plurality of pairs of magnets are arranged can be prevented. For instance, in the configuration illustrated in
In the embodiment discussed above, the contactless RFID 122 is employed as the information recording device: however, the information recording device is not limited to a contactless-type device. For instance, as illustrated in
Also in such a configuration as discussed above where the contact information recording device 126 is mounted on the ring member 120, as illustrated in
In the configuration discussed above, the contact information recording device 126 is formed with the contact terminal 127 having resiliency; however, contact with the information recording device 126 can be made by using an elastic member, such as a leaf spring. When an additional component, such as a leaf spring, is employed, the additional component, such as the leaf spring, can be provided on any one of the toner cradle 42 of the toner supply device 160, which is the image-forming-apparatus main body side, and the toner container 38 side. Positioning of the information recording device 126 can be performed based on contact resistance between the information recording device 126 and the contact terminal 127 by adjusting elastic force of the contact terminal 127. This eliminates the need of providing the positioning member 121 and the magnets, causing the information recording device 126 and the contact terminal 127 to serve as positioning member, thereby simplifying structure.
In the modification illustrated in
Even provided with no information about frequency of usage by a user or a type of output image, the image forming apparatus illustrated in
An embodiment of a toner container, which is a developer supply container including a cap, is described below.
A cap 300 illustrated in
As illustrated in
As illustrated in
The configuration of the developer supply device 360 is basically same as the configuration of the toner supply device 160 except for the configuration of a driving source. In the developer supply device 360, the driving source is configured to transmit rotary force to the gear 302, or a gear 402, corresponding to drive transmission member, attached to the bayonet base 138a of the toner container 138 rather than to move a rear-end portion of the toner container 138. Put another way, when the toner container 138 is mounted on the developer supply device 360, the developer supply device 360 can be rotated by the driving source illustrated in
The outer cap 301 and the gear 302 are made of POM exhibiting excellent durability and detachably assembled into one piece with a releasing unit 303, in which a plurality of slits are defined. In the present embodiment, the outer cap 301 and the gear 302 are assembled into one piece with the releasing unit 303; alternatively, the outer cap 301 and the gear 302 can be assembled into one piece with an adhesive tape having slits in a dotted line. In this case, the outer cap 301 and the gear 302 can be made of different materials such that, for instance, the outer cap 301 and the gear 302 are made of PET and POM, respectively. Accordingly, durability appropriate for function can be ensured.
An annular protrusion 141 and a collar 142 are formed on outer periphery of the bayonet base 138a, to which the cap 300 is to be attached, at portions nearer to the container body 138-1 than the helical protrusion 139 is. A clearance W between the annular protrusion 141 and the helical protrusion 139 is greater than a width W1, taken in an axial direction, of the gear 302 by a certain length. A length Wa between an end surface of the bayonet base 138a and the annular protrusion 141 and a depth Wa1 of the outer cap 301 are determined such that when the cap 300 is attached to the bayonet base 138a, the gear 302 is placed in a space between the annular protrusion 141 and the collar 142 and simultaneously a bottom portion 301a of the outer cap 301 is brought into close contact with the end surface of the bayonet base 138a to thereby seal the discharge port 138b. In the present embodiment, the inner cap 168 is inserted into the discharge port 138b. Accordingly, the bottom portion 301a holds down a flange portion 168a of the inner cap 168.
Each of a protruding length in the radial direction of the annular protrusion 141 and a protruding length in the radial direction of the collar 142 is greater than a diameter of a boss 302a of the gear 302. Accordingly, the configuration where the gear 302 is interposed between the annular protrusion 141 and the collar 142 causes the annular protrusion 141 and the collar 142 to function as a positional member in the axial direction. The radial protruding length of the annular protrusion 141 formed on the side near to the helical protrusion 139 is smaller than the radial protruding length of the collar 142 located on the side near to the container body 138-1. This increases operability in mounting/releasing.
A plurality of claws 305 are formed inside the boss 302a of the gear 302 in a circular arrangement whose diameter is smaller than the diameter of the annular protrusion 141. Each of the claws 305 is formed by bending an end surface of the boss 302a and partially defining notches in the end surface along the circumferential direction. The claw 305 is elastically deformable in the radial direction. In the present embodiment, the thus-bent portion of the claw 305 is positioned on the side opposite from the outer cap 301, or, put another way, on the side near to the bayonet base 138a.
As illustrated in
To attach the cap 300 to the toner container 138 including the bayonet base 138a configured as discussed above, the outer cap 301 is screwed onto toner container 138 from the side facing the end surface of the bayonet base 138a in a state where the inner cap 168 is inserted into the discharge port 138b. When the claws 305 climb over the annular protrusion 141 during progress of the attaching operation, the claws 305 are elastically deformed in a direction of being folded inward. When the claws 305 have climbed over the annular protrusion 141, the gear 302 is positioned between the annular protrusion 141 and the collar 142. Simultaneously, when the claws 305 have climbed over the annular protrusion 141, the elastic deformation is reversed, causing the claws 305 to rise toward the center of the bayonet base 138a and engage with the annular protrusion 141. This engagement causes the annular protrusion 141 and the collar 142 to restrict movement of the gear 302 in the axial direction, or, in other words, in a releasing direction M, as illustrated in
To load the toner container 138 in the sealed state on the apparatus, an operator rotates the outer cap 301 in a removing direction. This causes the gear 302 to also move in the same direction as the outer cap 301 by a distance corresponding to a circumferential play of the claws 305 and the protrusions 143. However, when the claws 305 abut the protrusions 143 in the circumferential direction and engage therewith, movement of the gear 302 in the rotary direction is restricted. Meanwhile, the releasing unit 303 has relatively low strength in the circumferential direction because of the slits defined therein in the circumferential direction. Accordingly, rotating the outer cap 301 causes the outer cap 301 and the gear 302 to be separated from the releasing unit 303 as illustrated in
To remove the gear 302 from the toner container 138, being a used one, the gear 302 is pulled toward the annular protrusion 141, or, in the releasing direction M, as illustrated in
As discussed above, the cap 300 including the outer cap 301 and the gear 302 that are detachably assembled into one piece is attached to the toner container 138. When a rotary force is applied onto the outer cap 301 in the attached state, the releasing unit 303 is broken, causing the outer cap 301 and the gear 302 to rotate relative to each other, thereby opening the discharge port 138b. Hence, assembly work of the cap 300 is facilitated and operability is improved.
This also allows an operator to determine whether the toner container 138 is a not-yet-opened toner container or an already-opened toner container by checking the state of the releasing unit 303, or, more specifically, by determining whether the outer cap 301 rotates. This allows determination as to whether the toner container 138 is a new one or an old one to be made at relatively low cost, easily, and with favorable operability. This allows determination as to whether the toner container 138 is an authorized product depending on whether the outer cap 301 rotates as well.
After removal of the gear 302, the cap 300, being a brand-new one, can be attached to the toner container 138. Hence, each of the toner container 138 and the gear 302 can be made from a material appropriate for its functional property. This negates a manufacture-related limitation, thereby enhancing product durability and achieving cost reduction. Furthermore, the gear 302 can be removed from the toner container 138, being a used one. This increases efficiency in cleaning of the toner container 138, thereby increasing a reuse ratio.
The helical protrusion 139 is not defined in the bayonet base 138a. The collar 142, a stepped portion 145 formed on a circumferential surface between the collar 142 and the bayonet base 138a, and protrusions 146 are formed on the bayonet base 138a. The protrusions 146 are to individually engage with the claws 305A. The stepped portion 145 is a guide surface that guides the claws 305A when the cap 300A is rotated.
Each of the protrusions 146 extends from the bayonet base 138a in the longitudinal direction of the toner container 138 and includes a circumferential stopper 146A that extends outward than the stepped portion 145 to stop rotation of the claw 305A in a gear-rotating direction, a release restricting portion 146B that restricts movement in the releasing direction M of the claw 305A, and an inclined surface 146C formed on the release restricting portion 146B. The inclined surface 146C is an inclined surface of which height increases from the end surface of the bayonet base 138a to the collar 142. The inclined surface 146C serves as the guide surface that guides the claws 305A to the release restricting portion 146B so that the claws 305A can easily climb over the release restricting portion 146B during attaching of the cap 300A.
When the cap 300A configured as discussed above is attached to the bayonet base 138a and pressed thereinto, as illustrated in
To load the toner container 138 in the sealed state on the apparatus, an operator rotates the outer cap 301 in the removing direction, by which a rotary force (cap-opening force) is applied onto the outer cap 301. At this time, a force for rotating the gear 302 together with the outer cap 301 is applied to the gear 302; however, movement of the gear 302 in the rotary direction is restricted by the circumferential stoppers 146A. Accordingly, the gear 302 and the outer cap 301 are separated from the releasing unit 303. Hence, when the outer cap 301 is removed from the container body 138-1 to open the discharge port 138b, the gear 302 is separated from the outer cap 301 to be left on the container body 138-1 side. More specifically, when the rotary force (cap-opening force) applied by the operator to the outer cap 301 has exceeded a limit of the releasing unit 303, the gear 302 integral with the outer cap 301 is separated from the outer cap 301.
To remove the gear 302 from the toner container 138, being a used one, the gear 302 is rotated, as illustrated in
As discussed above, the cap 300A including the outer cap 301 and the gear 302 that are detachably assembled into one piece is attached to the toner container 138. When a rotary force is applied onto the outer cap 301 in the attached state, the releasing unit 303 is broken, causing the outer cap 301 and the gear 302 to rotate relative to each other, thereby opening the discharge port 138b. Hence, assembly work of the cap 300A is facilitated and operability is improved.
After removal of the gear 302, the cap 300A, being a brand-new one, can be attached to the toner container 138. Hence, each of the toner container 138 and the gear 302 can be made from a material appropriate for its functional property. This negates a manufacture-related limitation, thereby enhancing product durability and achieving cost reduction. Furthermore, the gear 302 can be removed from the toner container 138, being a used one. This increases efficiency in cleaning of the toner container 138, thereby increasing a reuse ratio.
In this modification, the protrusions 146 are formed on portions of the circumference of the bayonet base 138a so as to conform to the two claws 305A. However, in a situation where there are a number of factors, such as a backlash and an increase in the driving force transmitted to the gear 302, that impart loads on the gear 302 in the direction opposite to the rotating direction of the gear 302, the claws 305A can slip off from the protrusion 146.
For such a situation, as illustrated in
In the modification discussed above, the gear (spur gear) 302 is used as the drive transmission member; however, the drive transmission member is not limited thereto. A modification of the drive transmission member can be, for instance, a plurality of protrusions 308A and 308B that axially protrude from a disk portion 307 as illustrated in
Although the surface of the outer cap 301 can be a flat surface, the surface of the outer cap 301 preferably has an uneven portion, such as a knurled portion. This is because, when an operator loads the cap 300, 300A on the toner container 138, the uneven portion allows the operator to perform screwing of the cap 300, 300A into the toner container 138 and removal therefrom without experiencing slip.
A cap according to another embodiment is described below with reference to
The cap 400 can be made of a material different from a material of the toner container 138. Accordingly, a material appropriate for transmitting power can be used. The toner container 138 is typically made of PET or PE, which is unfavorable for transmitting power. In particular, when the drive transmission member is made of PET or PE, the toner container 138 can be disadvantageously limited in the number of times the toner container 38 can be used. In this context, the gear 402 serving as the drive transmission member is typically made of POM or the like. When torque to be received is assumed to be high, the gear 402 can be made of metal. The same goes for the gear 302. The gear 402 is identical in configuration with the gear 302. As illustrated in
To attach the cap 400 configured as discussed above to the toner container 138 including the bayonet base 138a, the cap 400 is pushed onto the bayonet base 138a from the side facing the end surface of the bayonet base 138a in a state where the inner cap 168 is inserted into the discharge port 138b. When the claws 405 climb over the annular protrusion 141 during progress of the attaching operation, the claws 405 are elastically deformed in a direction of being folded inward. When the claws 405 have climbed over the annular protrusion 141, the gear 402 is positioned between the annular protrusion 141 and the collar 142. Simultaneously, when the claws 405 have climbed over the annular protrusion 141, the elastic deformation is reversed, causing the claws 405 to rise toward the center of the bayonet base 138a and engage with the annular protrusion 141. Accordingly, movement of the gear 402 in the axial direction, or, put another way, in the releasing direction M, is restricted by the annular protrusion 141 and the collar 142. Hence, the gear 402 in a slip-off-prevented state is attached to the bayonet base 138a as illustrated in
To load the toner container 138 in the sealed state on the apparatus, as illustrated in
After the toner container 138 and the cover member 330 assembled into one piece are loaded on the apparatus, the driving gear 374 and the gear 402 are caused to mesh with each other as illustrated in
To remove the gear 402 from the toner container 138, being a used one, the gear 402 is pulled toward the annular protrusion 141, or, in other words, in the releasing direction M as illustrated in
After removal of the gear 402, the cap 400, being a brand-new one, can be attached to the toner container 138. Hence, each of the toner container 138 and the gear 402 can be made from a material appropriate for its functional property. This negates a manufacture-related limitation, thereby enhancing product durability and achieving cost reduction. Furthermore, the gear 402 can be removed from the toner container 138, being a used one. This increases efficiency in cleaning of the toner container 138, thereby increasing a reuse ratio.
Meanwhile, each of the gear 402 and the gear 302 is a portion, through which rotary force from the driving gear 374 is transmitted to the toner container 138. Accordingly, each of the gear 402 and the gear 302 may be made of a material with a high friction coefficient, or contain a magnet or the like. As the configuration of the drive transmission member other than the gear 402, the plurality of protrusions 308A and 308B and the gears 309 having discussed above with reference to
In the present embodiment, the fixing member 401 has a hexagonal outer shape so as not to rotate when the fixing member 401 is arranged in the cover member 330; a recess, whose shape conforms to the fixing member 401 to trap the fixing member 401 therein, is also defined in a portion of the internal shape of the cover member 330 so that the fixing member 401 serves as the rotation stopper. However, the shapes of the fixing member 401 and the recess are not limited thereto.
The fixing member 401 and the internal shape of the cover member 330 can be changed according to, for instance, a toner color or a model of an apparatus, on which the toner container 138 is to be mounted. This allows mounting of the toner container 138 of a mistaken toner color or mounting of the toner container 138 on a mistaken apparatus to be prevented. Put another way, the fixing member 401 and the internal shape of the cover member 330 can be used as a unit providing the function of establishing non-interchangeability in terms of color or model.
In the modifications illustrated in
As is common to the caps, thickness of the disk portion of the gear 302 or the gear 402 can be partially reduced as illustrated in
In the embodiments, the claws 305, 305A, or 405 are formed on the gear 302, 402 so that the claws engage with the protrusions 143 or the protrusions 146 formed on the bayonet base 138a of the toner container 138, causing the gear 302, 402 to be rotated together with the toner container 138. Alternatively, as illustrated in
As the inner cap 168 discussed in the embodiment, a plurality of vanes 168A longer than the bayonet base 138a of the toner container 138 can be formed as illustrated in
The embodiment discussed above with reference to
“Claim 1”
A powder container comprising:
a container body that contains powder;
a discharge port, through which the powder in the container body is discharged out of the container body, the discharge port being provided on one end of the container body;
a retainer that holds an information recording device that is rotatable relative to the container body and capable of carrying out communications in any one of a contact manner and a contactless manner; and
a positioning member that, when being loaded on an image-forming-apparatus main body, engages with a side where the image-forming-apparatus main body belongs to perform positioning.
“Claim 2”
A powder container comprising:
a container body that contains powder;
a discharge port, through which the powder in the container body is discharged out of the container body, the discharge port being provided on one end of the container body;
a retainer that holds an information recording device that is rotatable relative to the container body and capable of carrying out communications in any one of a contact manner and a contactless manner; and
a positioning member that, when being loaded on an image-forming-apparatus main body, performs positioning by using a magnetic member provided on a side where the image-forming-apparatus main body belongs.
“Claim 3”
The powder container of Claim 1 or 2, wherein the positioning member also performs a function of establishing non-interchangeability in terms of any one of color and model.
“Claim 4”
The powder container of Claim 3, wherein the function of establishing non-interchangeability is performed based on variation in shape of the positioning member.
“Claim 5”
The powder container of Claim 3, wherein the function of establishing non-interchangeability is performed based on variation in position of the retainer.
“Claim 6”
The powder container of any one of Claims 1 to 5, wherein when the container body is loaded on the image-forming-apparatus main body, on a cross-section perpendicular to a rotation axis of the container body, if gravity direction is down, the information recording device is located on an outer periphery of the container body on an upper side with respect to a horizontal line passing through the rotation axis.
“Claim 7”
The powder container of any one of Claims 1 to 6, wherein stability of the powder container loaded on the image-forming-apparatus main body is ensured by adjusting weight of the positioning member.
“Claim 8”
The powder container of any one of Claims 2 to 6, wherein the positioning member is a magnetic member and fixes a position of the positioning member when loaded on the image-forming-apparatus main body to a predetermined position by using magnetic force produced by the magnetic member on the side where the image forming apparatus belongs.
“Claim 9”
The powder container of any one of Claims 1 to 8, wherein when the information recording device is a contact information recording device that carries out communications in contact with an information communication unit placed on the side where the image-forming-apparatus main body belongs, positioning of the contact information recording device is performed based on contact resistance between the information recording device and the information communication unit.
“Claim 10”
The powder container of any one of Claims 1 to 8, wherein a movement path of the information recording device moved by rotation of the retainer is positioned inside relative to a movement path of the positioning member.
“Claim 11”
A toner supply device that supplies toner contained in a powder container to a developing device, the toner being in a form of powder, wherein the powder container is the powder container of any one of Claims 1 to 10.
“Claim 12”
An image forming apparatus comprising:
an image carrier, on which a latent image is formed;
a developing unit that supplies developer to a developing area where the latent image is developed; and
a toner supply device that supplies toner to the developing device, wherein the toner supply device is the toner supply device of Claim 11.
Although the invention has been described with respect to specific embodiments for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art that fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
---|---|---|---|
2010-061671 | Mar 2010 | JP | national |
2010-061682 | Mar 2010 | JP | national |
This application is a continuation of and claims the benefit of priority under 35 U.S.C. §120 from U.S. Ser. No. 13/318,503, filed Nov. 2, 2011, which is a U.S. national stage application under 35 U.S.C. §371 of International Application No. PCT/JP2011/052462, filed Feb. 1, 2011, which claims the benefit of priority under 35 U.S.C. §119 from Japanese Patent Application No. 2010-061671, filed Mar. 17, 2010, and Japanese Patent Application No. 2010-061682 filed Mar. 17, 2010, in the Japanese Patent Office. The entire contents of each of the above applications are incorporated herein by reference
Number | Name | Date | Kind |
---|---|---|---|
5557382 | Tatsumi et al. | Sep 1996 | A |
5722014 | Fike | Feb 1998 | A |
7277664 | Katsuyama et al. | Oct 2007 | B2 |
7542703 | Kasahara et al. | Jun 2009 | B2 |
7822371 | Taguchi et al. | Oct 2010 | B2 |
20040126144 | Yoshino et al. | Jul 2004 | A1 |
20070122205 | Taguchi et al. | May 2007 | A1 |
20080226342 | Deguchi | Sep 2008 | A1 |
20080260432 | Ohyama et al. | Oct 2008 | A1 |
20080298820 | Sugiura | Dec 2008 | A1 |
Number | Date | Country |
---|---|---|
06-149049 | May 1994 | JP |
08-152783 | Jun 1995 | JP |
09-006115 | Jan 1997 | JP |
2004-196322 | Jul 2004 | JP |
2007-178969 | Jul 2007 | JP |
2008-292596 | Dec 2008 | JP |
Entry |
---|
International Search Report issued Mar. 1, 2011 in PCT/JP11/052462 filed Feb. 1, 2011. |
Number | Date | Country | |
---|---|---|---|
20150104218 A1 | Apr 2015 | US |
Number | Date | Country | |
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Parent | 13318503 | US | |
Child | 14579963 | US |