CN202041766U - Driving component, photosensitive drum and processing box - Google Patents
Driving component, photosensitive drum and processing box Download PDFInfo
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- CN202041766U CN202041766U CN 201120141861 CN201120141861U CN202041766U CN 202041766 U CN202041766 U CN 202041766U CN 201120141861 CN201120141861 CN 201120141861 CN 201120141861 U CN201120141861 U CN 201120141861U CN 202041766 U CN202041766 U CN 202041766U
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- head
- driven unit
- driving
- imaging device
- claw
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/75—Details relating to xerographic drum, band or plate, e.g. replacing, testing
- G03G15/757—Drive mechanisms for photosensitive medium, e.g. gears
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G21/00—Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
- G03G21/16—Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements
- G03G21/18—Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements using a processing cartridge, whereby the process cartridge comprises at least two image processing means in a single unit
- G03G21/1839—Means for handling the process cartridge in the apparatus body
- G03G21/1857—Means for handling the process cartridge in the apparatus body for transmitting mechanical drive power to the process cartridge, drive mechanisms, gears, couplings, braking mechanisms
- G03G21/186—Axial couplings
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- General Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Computer Vision & Pattern Recognition (AREA)
- Electrophotography Configuration And Component (AREA)
Abstract
The utility model provides a driving component as well as a photosensitive drum and a processing box which are constructed by the driving component. The driving component comprises a casing, a transmission component, a driving claw and a reset component; the transmission component is connected to the driving claw; the driving claw is provided with a working position matched with an imaging equipment driving head and a nonworking position divorced from the imaging equipment driving head; when the imaging equipment driving head acts on the transmission component, the driving claw swings from the nonworking position to the working position; and when the imaging equipment driving head is divorced from the transmission component, the reset component acts on the driving claw through the transmission component, so that the driving claw swings from the working position to the nonworking position. The utility model can reduce the dead center position area to the maximum extent when the processing box is put in or taken out, and avoid the problem that the a rotary driving force receiving head is stuck with the imaging equipment driving head, so that the photosensitive drum can be driven to work safely and reliably.
Description
Technical field
Photosensitive drums and handle box that the utility model relates to driven unit, adopts this driven unit to make up.
Background technology
Electrophotographic image forming comprises duplicating machine, laser printer and similar devices.
A handle box is arranged in the electrophotographic image forming usually, and handle box can be mounted on the master component of electrophotographic image forming and from master component and dismantles.For example, by one is had photosensitive drums and integrally is assembled to the handle box for preparing in the box body as in developing apparatus, charging device and the cleaning device for the treatment of apparatus at least one.
Existing handle box comprises following kind: by fit over the first kind of handle box for preparing in the box with photosensitive drums with by the integral installation that developing apparatus, charging device and cleaning device are formed; By photosensitive drums and charging device integral installation are fitted over the second kind of handle box for preparing in the box; And by integral body assembling photosensitive drums and the third handle box of preparing by two processing units that charging device and cleaning device are formed.
User oneself can be mounted to the electrophotographic image forming master component with removably with above-mentioned handle box.Therefore, the user can carry out the maintenance of equipment, and need not to rely on the attendant of specialty, and then, improved the operability that the user safeguards electrophotographic image forming.In above-mentioned traditional handle box, it is as follows so that drive the photosensitive drums driving mechanism to be used for slave unit master component reception rotary driving force.
In the master component side, be provided with rotatable and a non-circular hole of reversing, rotatable driving force that is used to transmit motor reversed the central part that the hole is arranged on rotatable, be provided with a plurality of bights and have can with the xsect of rotatable unitary rotation.
In cartridge side, a non-circular projection of reversing is set, projection is arranged on one of them axial end portion of photosensitive drums, and has the xsect that is provided with a plurality of bights.When handle box was filled to the equipment master component, rotatable when rotating under the state that projection and hole are engaged with each other, rotatable rotary driving force was passed to photosensitive drums.As a result, the revolving force slave unit master component that is used to drive photosensitive drums is passed to photosensitive drums.Another kind of known mechanism drives photosensitive drums by the gear that is engaged to photosensitive drums, and then drives the handle box that photosensitive drums constitutes.Yet, in the conventional construction described in the U.S. Pat 5903803, when by moving handle box and handle box is mounted to master component or when master component is removed, need makes rotatable to move along horizontal direction along direction with rotatable axis approximate vertical.That is, need make rotatable to move horizontally by the opening and closing operation of master component lid.By the opening operation of described master component lid, separate with projection in the hole.On the other hand, by the shutoff operation of master component lid, move so that and protrusion engagement towards projection in the hole.Therefore, in traditional handle box, a kind of mechanism need be set on master component, it is used for moving rotatable by the opening and closing operation of master component lid along the rotation direction.In U.S. Pat 4829335 described structures, need not to move the driven wheel that is arranged at master component along its axis direction, described box just can be mounted to master component and tears open but from master component by moving along the direction that is approximately perpendicular to described axis.Yet in this structure, the driving connecting portion between master component and the handle box is the engaging piece between the gear, thereby is difficult to prevent the rotation unevenness of photosensitive drums.
U.S. Patent Application Publication instructions US2008/0152388A1 discloses another kind of handle box, and the improvement of its above-mentioned relatively handle box is that the driven unit that is positioned at an axial end portion of photosensitive drums is to adopt ball formula universal joint to drive connecting structure.This driving connecting structure exists easily to deviate from from driven unit, and particularly in the middle of transportation, this phenomenon more is prone to, and makes the afunction or the job insecurity of driven unit.
China utility model patent CN200920238326.2 provide a kind of drive assembly of photosensitive drum, comprises the gear that is tight with at photosensitive drums one end and axially adjust assembly, and this is axially adjusted assembly and has comprised the first motion sub-component, channel parts and central shaft parts; Described channel parts has spatially orthogonal upper hopper chute and gliding groove, and the described first motion sub-component forms the cooperation of relative slip with described upper hopper chute on first direction; Described central shaft parts and described gear have common axis, and it forms the cooperation of relative slip with described gliding groove on second direction; Described first direction and second direction all perpendicular to photosensitive drum shaft to.The described first motion sub-component comprises that stretching out the outer rotary driving force of described gear receives a head and an adjustment slide block, described rotary driving force receives head can be connected in described adjustment slide block rotatably around its axis, and being provided with one between described rotary driving force reception head and the adjustment slide block can be around the rotary spacing pin of described axis rotation.When handle box fell machine or taking-up, the rotary driving force in the above-mentioned drive assembly of photosensitive drum received stuck problem takes place between head and the imaging device driving head easily.Therefore, above-mentioned drive assembly of photosensitive drum still has further improved space.
The utility model content
First purpose of the present utility model provides a kind of zone, dead-centre position that can at utmost reduce when falling machine and taking out handle box, avoids rotary driving force to receive the driven unit that stuck problem takes place between head and the imaging device driving head.
Second purpose of the present utility model provides a kind of photosensitive drums with this driven unit.
The 3rd purpose of the present utility model provides a kind of handle box with this driven unit.
In order to realize above-mentioned first purpose, the utility model has adopted following technical scheme: a kind of driven unit is provided, can cooperates with the imaging device driving head to transmit rotary driving force, described driven unit comprises: the gear with a stiff end; Pass the central shaft parts of described gear vertically, these central shaft parts and cooperating that described gear shape links circumferentially; Rotary driving force receives head, can form cooperating of circumferential interlock around the axis rotation of described central shaft parts and with these central shaft parts; Described rotary driving force receives head and comprises housing, transmission component, driving claw and the reset components that can cooperate with described imaging device driving head, described transmission component is connected in described driving claw, and described driving claw has working position that cooperates with described imaging device driving head and the off-position that breaks away from described imaging device driving head; When described imaging device driving head acted on described transmission component, described driving claw was rocked to described working position by described off-position under the drive of described transmission component; When described imaging device driving head broke away from described transmission component, described reset components acted on described driving claw by described transmission component, made described driving claw be rocked to described off-position by described working position.
Further technical scheme is, described transmission component comprises can be by the tooth bar of described imaging device driving head pushing, two cramp bars that are engaged in two transmission gears of these tooth bar both sides and are used for fixing described two transmission gears, and described two cramp bars are parallel to each other and are rotatably supported on the stake body; Described driving claw has two, and wherein first driving claw is fixed on a side end of first cramp bar, and second driving claw is fixed on the end side of second cramp bar.
Further, the axial outer end face of described housing is formed with the spherical of indent, is formed with approaching side around this spherical.
Further, described stake body, cramp bar and transmission gear are positioned at the inside of described housing, and described tooth bar is protruding from described spherical by the inside of described housing.
Further, described tooth bar can be arranged on the base with moving axially relatively, and described reset components is arranged between this tooth bar and the described base.
Further, described tooth bar forms by a bar portion and described base and is slidingly matched, and described reset components is the compression spring that is enclosed within the described bar portion.
Further, described rotary driving force receives between head and the described central shaft parts and is connected by a channel parts, described channel parts has spatially orthogonal upper hopper chute and gliding groove, described base and described upper hopper chute form the cooperation of relative slip, and the head of described central shaft parts and described gliding groove form the cooperation of relative slip.
Further, have on described first driving claw can with first engaging groove of described imaging device driving head engagement, have on described second driving claw can with second engaging groove of described imaging device driving head engagement.
In order to realize above-mentioned second purpose, the utility model has adopted following technical scheme: a kind of photosensitive drums is provided, comprises bulging main body and be installed in the driven unit of described bulging body shaft to an end, described driven unit comprises: the gear with a stiff end; Pass the central shaft parts of described gear vertically, these central shaft parts and cooperating that described gear shape links circumferentially; Rotary driving force receives head, can form cooperating of circumferential interlock around the axis rotation of described central shaft parts and with these central shaft parts; Described rotary driving force receives head and comprises housing, transmission component, driving claw and the reset components that can cooperate with described imaging device driving head, described transmission component is connected in described driving claw, and described driving claw has working position that cooperates with described imaging device driving head and the off-position that breaks away from described imaging device driving head; When described imaging device driving head acted on described transmission component, described driving claw was rocked to described working position by described off-position under the drive of described transmission component; When described imaging device driving head broke away from described transmission component, described reset components acted on described driving claw by described transmission component, made described driving claw be rocked to described off-position by described working position.
In order to realize above-mentioned the 3rd purpose, the utility model has adopted following technical scheme: a kind of handle box is provided, comprises: box body; Be rotatably installed in the photosensitive drums in the described box body, described photosensitive drums comprises bulging main body and is installed in the driven unit of described bulging body shaft to an end that described driven unit comprises: the gear with a stiff end; Pass the central shaft parts of described gear vertically, these central shaft parts and cooperating that described gear shape links circumferentially; Rotary driving force receives head, can form cooperating of circumferential interlock around the axis rotation of described central shaft parts and with these central shaft parts; Described rotary driving force receives head and comprises housing, transmission component, driving claw and the reset components that can cooperate with described imaging device driving head, described transmission component is connected in described driving claw, and described driving claw has working position that cooperates with described imaging device driving head and the off-position that breaks away from described imaging device driving head; When described imaging device driving head acted on described transmission component, described driving claw was rocked to described working position by described off-position under the drive of described transmission component; When described imaging device driving head broke away from described transmission component, described reset components acted on described driving claw by described transmission component, made described driving claw be rocked to described off-position by described working position.
Advantage of the present utility model and beneficial effect: for the handle box that has adopted the utility model driven unit, in being mounted to the process of imaging device, when imaging device drives head acts on transmission component, driving claw under the drive of transmission component by being rocked to the working position that cooperates with the imaging device driving head with off-position that the imaging device driving head breaks away from, thereby guaranteed that the driving function normally carries out.When taking out handle box, the imaging device driving head breaks away from transmission component, and reset components acts on driving claw by transmission component, makes driving claw be rocked to off-position by described working position, makes handle box not be subjected to stopping of imaging device driving head, is able to smooth taking-up.The utility model can at utmost reduce the zone, dead-centre position when falling machine and taking out handle box, and avoided rotary driving force to receive stuck problem has taken place between head and the imaging device driving head, thus the work of driving photosensitive drums that can be safe and reliable.Driven unit assembling of the present utility model is simple, convenient, and structural behaviour is stable, and the handle box machine-falling steady, dependable performance, the working stability that have adopted this driven unit to make up are smooth and easy.
Description of drawings
The utility model is described in further detail below in conjunction with accompanying drawing.
Fig. 1 is a handle box structural representation of having used the driven unit of a kind of embodiment of the utility model.
Fig. 2 is the structural representation of the photosensitive drums in the middle of Fig. 1.
Fig. 3 is the off working state structural representation of the driven unit in the middle of Fig. 2.
Fig. 4 is the working state structure synoptic diagram of driven unit shown in Figure 3.
Fig. 5 is the parts explosion of driven unit shown in Figure 3.
Fig. 6 is the structural representation that the rotary driving force in the middle of the driven unit shown in Figure 3 receives head, channel parts and central shaft parts, has wherein hidden the housing parts of rotary driving force reception head.
Fig. 7 is the structural representation of the central shaft parts in the middle of the driven unit shown in Figure 3.
Fig. 8 is the gear structure synoptic diagram in the middle of the driven unit shown in Figure 3.
Fig. 9 a be handle box shown in Figure 1 in the machine process that falls, its driven unit and the structural relation front elevation of imaging device driving head before contacting.
Stereographic map when Fig. 9 b is state shown in Fig. 9 a.
Figure 10 be handle box shown in Figure 1 in the machine process that falls, the engagement process synoptic diagram of its driven unit and imaging device driving head.
Figure 11 a be handle box shown in Figure 1 in the machine process that falls, the structural relation front elevation when its driven unit and imaging device driving head are finished and engaged.
Stereographic map when Figure 11 b is state shown in Figure 11 a.
Figure 12 be handle box shown in Figure 1 in the off line process, the engagement process synoptic diagram of its driven unit and imaging device driving head.
Figure 13 be handle box shown in Figure 1 in the off line process, the mechanism after its driven unit and imaging device driving head break away from concerns synoptic diagram.
Embodiment
Referring to Fig. 1, handle box 10 of the present utility model has comprised box body 101 and has been rotatably installed in photosensitive drums 20 in the box body 101.Referring to Fig. 2, this photosensitive drums 20 comprises bulging main body 201 and is fixed on the driven unit 1 of bulging main body 201 axial ends, has photographic layer on the side face of drum main body 201, driven unit 1 is used for receiving the rotary driving force that comes from imaging device (as printer) driving head 7, and this rotary driving force passed to bulging main body 201, make bulging main body 201 under this rotary driving force effect around its axis rotation.Because handle box of the present utility model is basic and this paper background technology in the various existing handle box described similar substantially, photosensitive drums is also similar substantially with photosensitive drums of the prior art, do not exist together and mainly be to be implemented in the driven unit of an axial end portion of photosensitive drums, therefore, main embodiment to driven unit below describes.
Referring to Fig. 3 to Fig. 6, driven unit 1 has comprised that gear 2, central shaft parts 3, rotary driving force receive 4, channel parts 5, spacer pin 6 and compression spring 8 etc.The inner of gear 2 is a stiff end 21, gear 2 can be fixed in an end of bulging main body 201 by this stiff end 21.The shape of cross section of the bar portion 32 of central shaft parts 3 is waist shape, and this bar portion 32 passes the mounting hole 22 of a big or small basically identical in the gear 2 vertically, forms cooperating of circumferentially linking thereby make between central shaft parts 3 and the gear 2.
Referring to Fig. 7, central shaft parts 3 are made up of head 31 and bar portion 32, roughly are the T font.Wherein, head 31 is the lamellar of waist shape, and the shape of cross section of bar portion 32 is waist shape equally, but the cross-sectional area of bar portion 32 is less than the area of head 31.The inner of bar portion 32 is provided with the pin-and-hole 33 of bar portion 32, and this pin-and-hole 33 can pass for spacer pin 6, carries out axial limiting by spacer pin 6, can prevent that central shaft parts 3 from deviating from from gear 2.
Referring to Fig. 8, has transmission gear ring 24 on the outer circumference surface of gear 2, the gear cavity 27 that gear 2 inside are provided with dividing plate perpendicular to axial direction 25 and are positioned at dividing plate 25 tops, the center of this dividing plate 25 is provided with the positioning seat 23 that raises up, this positioning seat 23 has a mounting hole 22, the shape size of this mounting hole 22 equates substantially that with the shape of cross section size of the bar portion 32 of central shaft parts 3 bar portion 32 only can realize axial moving in this mounting hole 22.The circumferential side wall 26 of gear cavity 21 provides spacing for the radially reciprocal translation motion of channel parts 5.
Rotary driving force receives 4 and is connected in the head 31 of central shaft parts 3 by channel parts 5, this rotary driving force receive 4 can be under the effect of imaging device driving head 7 around the axis rotation of these central shaft parts 3, thereby rotary driving force is passed to channel parts 5, central shaft parts 3, gear 2 and drum main body 201 successively.Compression spring 8 is enclosed within on the central shaft parts 3, is clipped between the dividing plate 25 of channel parts 5 and gear 2.By the compression of compression spring 8 and the axial limiting of spacer pin 6, the axial adjustment assembly that rotary driving force receives 4, channel parts 5 and central shaft parts 3 are formed can along driven unit 1 axially, do conditional axially back and forth translation motion with respect to gear 2.
Referring to Fig. 4 to Fig. 6, described rotary driving force receives 4 and comprises housing 41, stake body 42, tooth bar 43, first cramp bar 44, first transmission gear 45, first driving claw 46, second cramp bar 47, second transmission gear 48, second driving claw 49, wherein, tooth bar 43, first cramp bar 44, first transmission gear 45, second cramp bar 47 and second transmission gear 48 constitute the transmission component that is connected in first transmission gear 45 and second driving claw 49.
The axial outer end face of housing 41 is formed with the spherical 411 of indent, be formed with approaching side 412 around this spherical 411, this approaching side 412 provides guiding for the end incision spherical 411 of the longitudinal axis part 72 of imaging device driving head 7, the end of longitudinal axis part 72 is a sphere, and the end of the shape of spherical 411 and longitudinal axis part 72 just in time coincide.Tooth bar 43 forms with base 431 by a bar portion 432 and is slidingly matched, thereby can be arranged on the base 431 with moving axially relatively.Be with the tooth bar that is arranged between tooth bar 43 and the base 431 compression spring 433 that resets in the bar portion 432.Described stake body 42, first cramp bar 44, second cramp bar 47, first transmission gear 45 and second transmission gear 48 all are positioned at the inside of housing 41, and tooth bar 43 is then protruding from spherical 411 by the inside of this housing 41.
First transmission gear 45 is fixed on the middle part of first cramp bar 44, and second transmission gear 48 is fixed on the middle part of second cramp bar 47, and first transmission gear 45 and second transmission gear 48 are engaged in the both sides of tooth bar 43.First driving claw 46 is fixed on a side end of first cramp bar 44, second driving claw 49 is fixed on the end side of second cramp bar 47, have on first driving claw 46 can with first engaging groove, 461, the second driving claws 49 of drive pin 71 engagement of imaging device driving head 7 on have can with second engaging groove 491 of imaging device driving head 7 engagements.First cramp bar 44 and second cramp bar 47 are parallel to each other and are rotatably supported on the stake body 42.By the rotation of first cramp bar 44 and second cramp bar 47, can make first transmission gear 45 and second driving claw 49 produce working position that cooperates with imaging device driving head 7 and the off-position that breaks away from imaging device driving head 7.
Described channel parts 5 has spatially orthogonal upper hopper chute 51 and gliding groove 52, and the base 431 of described tooth bar 43 and upper hopper chute 51 forms the cooperation of relative slip, the cooperation of the head 31 of described central shaft parts 3 and the relative slip of gliding groove 52 formation.
Referring to Fig. 9 a, Fig. 9 b and Figure 10, in the machine process that falls of handle box 10, with before imaging device driving head 7 contacts, first driving claw 46 and second driving claw 49 are in off-position at driven unit 1, and tooth bar 43 is protruding from the spherical 411 of housing 41.If imaging device driving head 7 is the approaching side 412 incision sphericals 411 from housing 41 at this moment, the axial adjustment assembly that rotary driving force receives 4, channel parts 5 and central shaft parts 3 are formed can along driven unit 1 axially, move inward with respect to gear 2, so that longitudinal axis part 72 ends of imaging device driving head 7 can enter into spherical 411 smoothly and contact with tooth bar 43; After longitudinal axis part 72 ends entered into spherical 411, above-mentioned axial adjustment assembly can outwards move with respect to gear 2 under the effect of compression spring 8 vertically.When imaging device drives 7 touched tooth bar 43 and it is inwardly pushed vertically, tooth bar 43 was under the compressing of longitudinal axis part 72 ends of imaging device driving head 7 and toward interior motion.As Figure 11 a and 11b, engaged transmission by tooth bar 43 and first transmission gear 45 and second transmission gear 48, the rotation in opposite directions that first cramp bar 44 and second cramp bar 47 are taken place inwardly, first driving claw 46 and second driving claw 49 are respectively under the drive of first cramp bar 44 and second cramp bar 47, be rocked to the working position by off-position, thereby guaranteed that the driving function normally carries out.
Referring to Figure 12 and Figure 13, in the off line process of handle box 10, when imaging device drives 7 breaks away from tooth bars 43, the tooth bar in opposite directions rotations of compression spring 433 that reset by tooth bar 43 being resetted drive first cramp bar 44 and second cramp bar 47 to take place outwardly, make first driving claw 46 and second driving claw 49 respectively under the drive of first cramp bar 44 and second cramp bar 47, be rocked to off-position by the working position, make handle box 10 not be subjected to stopping of imaging device driving head 7, be able to smooth taking-up.In the off line process of handle box 10, above-mentioned axial adjustment assembly equally can with respect to gear 2 driven unit 1 axially on move.
It below only is preferred implementation of the present utility model; should be pointed out that for the person of ordinary skill of the art, under the prerequisite that does not break away from the present utility model design; can also make some distortion and improvement, and not break away from the protection domain of the utility model claim.For example, other axial limiting structure that spacing latch can adopt those skilled in the art to expect easily realizes that the axial limiting structure can be and the individual member of central shaft isolation of components, also can be formed in a part on the central shaft parts.In addition, above-mentioned compression spring can also substitute with other elastomeric element, for example can compressed elastic plastic member structure etc.; The bar cross section shape of central shaft parts and the shape of the through hole on the gear dividing plate also are not limited to waist shape, it can also be the Any shape that rectangle, flat shape quadrilateral etc. have two flat shape limits, as long as can make the axial adjustment assembly only can be with respect to gear translation vertically, and can not with respect to gear radially translation and rotate around axis get final product.
Claims (10)
1. driven unit can cooperate with the imaging device driving head to transmit rotary driving force, and described driven unit comprises:
Gear with a stiff end;
Pass the central shaft parts of described gear vertically, these central shaft parts and cooperating that described gear shape links circumferentially;
Rotary driving force receives head, can form cooperating of circumferential interlock around the axis rotation of described central shaft parts and with these central shaft parts;
It is characterized in that:
Described rotary driving force receives head and comprises housing, transmission component, driving claw and the reset components that can cooperate with described imaging device driving head, described transmission component is connected in described driving claw, and described driving claw has working position that cooperates with described imaging device driving head and the off-position that breaks away from described imaging device driving head;
When described imaging device driving head acted on described transmission component, described driving claw was rocked to described working position by described off-position under the drive of described transmission component; When described imaging device driving head broke away from described transmission component, described reset components acted on described driving claw by described transmission component, made described driving claw be rocked to described off-position by described working position.
2. driven unit according to claim 1, it is characterized in that, described transmission component comprises can be by the tooth bar of described imaging device driving head pushing, two cramp bars that are engaged in two transmission gears of these tooth bar both sides and are used for fixing described two transmission gears, and described two cramp bars are parallel to each other and are rotatably supported on the stake body; Described driving claw has two, and wherein first driving claw is fixed on a side end of first cramp bar, and second driving claw is fixed on the end side of second cramp bar.
3. driven unit according to claim 2 is characterized in that the axial outer end face of described housing is formed with the spherical of indent, is formed with approaching side around this spherical.
4. driven unit according to claim 3 is characterized in that described stake body, cramp bar and transmission gear are positioned at the inside of described housing, and described tooth bar is protruding from described spherical by the inside of described housing.
5. driven unit according to claim 2 is characterized in that, described tooth bar can be arranged on the base with moving axially relatively, and described reset components is arranged between this tooth bar and the described base.
6. driven unit according to claim 5 is characterized in that, described tooth bar forms by a bar portion and described base and is slidingly matched, and described reset components is the compression spring that is enclosed within the described bar portion.
7. driven unit according to claim 5, it is characterized in that, described rotary driving force receives between head and the described central shaft parts and is connected by a channel parts, described channel parts has spatially orthogonal upper hopper chute and gliding groove, described base and described upper hopper chute form the cooperation of relative slip, and the head of described central shaft parts and described gliding groove form the cooperation of relative slip.
8. rotary driving force according to claim 2 receives head, it is characterized in that, have on described first driving claw can with first engaging groove of described imaging device driving head engagement, have on described second driving claw can with second engaging groove of described imaging device driving head engagement.
9. photosensitive drums comprises:
Rouse main body and be installed in the driven unit of described bulging body shaft to an end;
It is characterized in that:
Described driven unit is each described driven unit of claim 1 to 8.
10. handle box comprises:
Box body;
Be rotatably installed in the photosensitive drums in the described box body, described photosensitive drums comprises bulging main body and is installed in the driven unit of described bulging body shaft to an end;
It is characterized in that:
Described driven unit is each described driven unit of claim 1 to 8.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
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CN 201120141861 CN202041766U (en) | 2011-05-06 | 2011-05-06 | Driving component, photosensitive drum and processing box |
PCT/CN2012/075028 WO2012152203A1 (en) | 2011-05-06 | 2012-05-03 | Drive assembly, photo-conductor drum and processing cartridge |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201120141861 CN202041766U (en) | 2011-05-06 | 2011-05-06 | Driving component, photosensitive drum and processing box |
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CN202041766U true CN202041766U (en) | 2011-11-16 |
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CN 201120141861 Expired - Fee Related CN202041766U (en) | 2011-05-06 | 2011-05-06 | Driving component, photosensitive drum and processing box |
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WO (1) | WO2012152203A1 (en) |
Cited By (17)
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WO2012152203A1 (en) * | 2011-05-06 | 2012-11-15 | 珠海天威飞马打印耗材有限公司 | Drive assembly, photo-conductor drum and processing cartridge |
CN104076658A (en) * | 2012-06-22 | 2014-10-01 | 珠海赛纳打印科技股份有限公司 | Rotating force driving assembly suitable for cartridge, assembly method thereof and cartridge |
CN104991428A (en) * | 2014-08-15 | 2015-10-21 | 上福全球科技股份有限公司 | Transmission device for photosensitive drum |
CN105334712A (en) * | 2014-08-08 | 2016-02-17 | 江西镭博钛电子科技有限公司 | Processing box |
EP3015919A1 (en) * | 2014-10-31 | 2016-05-04 | Mitsubishi Chemical Corporation | Process cartridge, and method of separating process cartridge |
CN105573082A (en) * | 2016-03-16 | 2016-05-11 | 刘清 | Processing box and imaging device |
CN105824213A (en) * | 2016-05-24 | 2016-08-03 | 珠海联合天润打印耗材有限公司 | Drive assembly and developing box |
CN105824214A (en) * | 2016-05-24 | 2016-08-03 | 珠海联合天润打印耗材有限公司 | Developing box and drive module |
CN105824224A (en) * | 2015-01-09 | 2016-08-03 | 江西镭博钛电子科技有限公司 | Processing box |
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2011
- 2011-05-06 CN CN 201120141861 patent/CN202041766U/en not_active Expired - Fee Related
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2012
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