CN108845483A - Developing box - Google Patents

Abstract

The invention relates to a developing cartridge detachably mounted in an image forming apparatus provided with a power output member, the developing cartridge being rotatable in a circular motion about a central axis in the image forming apparatus, comprising a developing cartridge housing, a power transmitting device at one end of the developing cartridge housing, the power transmitting device including a power receiving member engageable with and disengageable from the power output member, the power receiving member being curvilinearly movable relative to the developing cartridge housing during engagement and disengagement of the power receiving member with and from the power output member.

Description

Delevoping cartridge

Technical field

The present invention relates to electrophotographic image forming fields, more particularly to are removably mounted in electrophotographic image forming Delevoping cartridge.

Background technique

Existing electrophotographic image forming, commonly such as laser printer, duplicator, in general, laser printing Machine is divided into laser black print engine and laser color printer, and one is removably installed in laser black print engine and is wherein accommodated There is the Delevoping cartridge of black reagent, four are removably installed in laser color printer, and there are four types of color developers for receiving respectively Delevoping cartridge.

Known, electronic imaging is that developer supply is dived to electrostatic is formed with using the revolving part being mounted in Delevoping cartridge On the photosensitive part of picture, and using developer by latent electrostatic image developing, it is developed after electrostatic latent image be transferred to image forming medium again Process；Driving force needed for being installed in the revolving part rotation in Delevoping cartridge is from printer, for laser black print engine For, power output member and power reception part are set on printer and Delevoping cartridge respectively, in printer work, power reception Part receives driving force in conjunction with power output member and from power output member to drive revolving part to rotate；For laser color printer For, since installation is provided with power reception part on each Delevoping cartridge there are four Delevoping cartridge in printer, from reducing cost Angle considers, it is preferred that a power output member is only arranged in laser color printer, is separately installed with the aobvious of power reception part Shadow box is around center axis rotation, and in Delevoping cartridge rotary course, power reception part is successively combined in conjunction with power output member with disengaging.

When power reception part is in conjunction with power output member, power reception part receives driving force from power output member, when dynamic When power receiving element is combined with power output member disengaging, power reception part does not receive driving force from power output member；Therefore, it is printing In the course of work of machine, power output member needs constantly to be combined and be detached from combination with the power reception part in Delevoping cartridge.

Existing power reception part is installed on Delevoping cartridge in a manner of universal joint, to ensure that power reception part can be with Power output member accurately combines, and is additionally provided on existing Delevoping cartridge and pushes power reception part to power output member direction Torsional spring, in the entire life cycle of Delevoping cartridge, it is thousands of that power reception part and power output member needs are combined and are detached from combination Secondary, after high-frequency work, the torsional spring is it is possible that the phenomenon to relax, power reception part may be compeled to push away not by torsional spring In place, and then lead to the combination of power reception part and power output member and be detached to combine to have some setbacks.

Summary of the invention

The present invention provides a kind of Delevoping cartridge, and the power reception part in the Delevoping cartridge no longer is compeled to push away by torsional spring, in printer The course of work in, with the movement of Delevoping cartridge, power reception part is transported along its rotation axis to the direction far from power output member Dynamic, after Delevoping cartridge rotates to predetermined position, power reception part is combined with power output member completion.

To achieve the above object, the present invention uses following technical scheme：

The Delevoping cartridge being removably mounted in the imaging device for being provided with power output member, the Delevoping cartridge can be around imagings Center axis rotation in device moves in a circle, and transmits including Delevoping cartridge shell, the power positioned at one end of Delevoping cartridge shell Device, the power transmission include can in conjunction with power output member and be detached from combine power reception part, in power reception For part in conjunction with power output member and during being detached from combination, power reception part does curvilinear motion relative to Delevoping cartridge shell.

Power reception part combines in conjunction with power output member with disengaging.

Power reception part has rotation axis L21, and power output member has rotation axis L3；

Power reception part is successively by being detached from the first position combined, the in conjunction with power output member with power output member Two positions and the third place being detached from again with power output member；Along the direction of rotation of Delevoping cartridge, when power reception part is located at When first position, rotation axis L21 is located at the upstream of rotation axis L3；When power reception part is located at the second position, rotary shaft Line L21 is conllinear with rotation axis L3；When power reception part is located at the third place, rotation axis L21 is located at rotation axis L3's Downstream.

For power reception part during moving to the second position from first position, power reception part does the side of curvilinear motion To opposite with the direction of rotation of Delevoping cartridge；During moving to the third place from the second position, power connects power reception part The direction that addressee does curvilinear motion is identical as the direction of rotation of Delevoping cartridge.

Power reception part does stretching motion also relative to Delevoping cartridge while doing curvilinear motion relative to Delevoping cartridge.

Delevoping cartridge further includes the first control mechanism and the second control mechanism in conjunction with power reception part, the first control machine Structure does curvilinear motion relative to Delevoping cartridge for controlling power reception part, and the second control mechanism is opposite for controlling power reception part Stretching motion is done in Delevoping cartridge.

First control mechanism includes the guide member of the engaging member and guiding engaging member in conjunction with power reception part.

Second control mechanism includes the sliding part in conjunction with power reception part and the elasticity between Delevoping cartridge shell Part.

Detailed description of the invention

Fig. 1 is the overall structure diagram of Delevoping cartridge of the present invention.

Fig. 2 is the mass motion track schematic diagram of Delevoping cartridge of the present invention.

Fig. 3 is the exploded view of power transmission of the present invention Yu Delevoping cartridge end cap and protecting cover.

Fig. 4 A is the side view of power reception part of the present invention.

Fig. 4 B is the overall structure diagram of another power reception part of the present invention.

Fig. 5 A is the overall structure diagram of engaging member of the present invention.

Fig. 5 B is the top view of engaging member of the present invention.

Fig. 6 A is the overall structure diagram of driving gear of the present invention.

Fig. 6 B is the overall structure diagram of another angle of driving gear of the present invention.

Fig. 7 A is the overall structure diagram of protecting cover of the present invention.

Fig. 7 B is the overall structure diagram of another angle of protecting cover of the present invention.

Fig. 8 is the overall structure diagram of end cap of the present invention.

Fig. 9 A is that power reception part is observed along the rotation axis direction of power reception part to the direction close to power output member The status diagram of movement.

Fig. 9 B is the perspective view that power reception part is moved to the direction close to power output member from the outlet of protecting cover.

Figure 10 A is the state along the rotation axis direction of power reception part observation power reception part in conjunction with power output member Schematic diagram.

Figure 10 B is perspective view of the power reception part in conjunction with power output member from the outlet of protecting cover.

Figure 11 A is to be combined along the rotation axis direction of power reception part observation power reception part with power output member disengaging Status diagram.

Figure 11 B is the perspective view that power reception part is combined with power output member disengaging from the outlet of protecting cover.

Figure 12 A is that the position in power reception part of the present invention on the inside of power reception pawl between power output member is closed System's figure.

Figure 12 B is that the position in power reception part of the present invention between power reception pawl top and power output member is closed System's figure.

Figure 12 C is that the position in power reception part of the present invention on the outside of power reception pawl between power output member is closed System's figure.

Specific embodiment

Detailed description of the present invention embodiment with reference to the accompanying drawing.

Fig. 1 is the overall structure diagram of Delevoping cartridge of the present invention；Fig. 2 is the entirety of Delevoping cartridge of the present invention Movement locus schematic diagram.

As shown in Figure 1, Delevoping cartridge D includes Delevoping cartridge shell 10, the end cap 11 positioned at 10 1 ends of Delevoping cartridge shell, shield Lid 12 and power transmission 20；Developer needed for accommodating development in Delevoping cartridge shell 10, the developer are rotatable The revolving part that ground is mounted in Delevoping cartridge shell 10 is supplied outward, and power transmission 20 is used to receive driving force from outside to drive Dynamic revolving part rotation, the end cap 11 are connect with Delevoping cartridge shell 10, are used to support power transmission 20 or revolving part, protecting cover 12 are located at the outermost of Delevoping cartridge D, for protecting power transmission 20, thus, end cap 11, protecting cover 12 and power transmission 20 are located at the same side of Delevoping cartridge shell 10, a part of power transmission 20 be located at Delevoping cartridge shell 10 and protecting cover 12 it Between；As shown, protecting cover 12 is located at than end cap 11 further from the position of Delevoping cartridge shell 10；When end cap 11 only supports revolving part When, the power transmission 20 can directly developed box shell 10 support, and can also be supported on development by end cap 11 On box shell 10.

As shown in Fig. 2, power output member 30 is arranged on the fixation position of imaging device, Delevoping cartridge D is removably installed In imaging device, in the state that Delevoping cartridge D is mounted, Delevoping cartridge D can be circle around the C point being located on imaging device central axis The heart rotates in imaging device along direction shown in r to move in a circle, with the rotation of Delevoping cartridge D, power transmission 20 and dynamic Power output 30 is combined and is detached from and combines.Power output member 30 has rotation axis L3, including rotary shaft 31 and setting are being revolved Power output rod 32 in shaft 31, the power output rod 32 is combined with power transmission 20, with the rotation of rotary shaft 31 Turn, power output rod 32 transfers a driving force to power transmission 20.

[power transmission]

Fig. 3 is the exploded view of power transmission of the present invention Yu Delevoping cartridge end cap and protecting cover.

As shown in figure 3, power transmission 20 has a rotation axis L2, including power reception part 21, and power reception The first control mechanism and the second control mechanism that part 21 combines, wherein combined and taken off with power output member 3 in power reception part 21 During from combination, the first control mechanism does curvilinear motion relative to Delevoping cartridge shell 10 for controlling power reception part 21, Second control mechanism does stretching motion relative to Delevoping cartridge shell 10 for controlling power reception part 21；Power reception part 21 has Rotation axis L21, for being combined with power output member 30, when power reception part 21 is combined with power output member 30, power is connect Addressee 21 receives the driving force that power output member 30 exports, and rotation axis L21 is coaxial with rotation axis L2；Power transmission 20 It is rotated with the rotation of Delevoping cartridge D, first control mechanism is for controlling power reception part 21 relative to Delevoping cartridge shell 10 do curvilinear motion, and when Delevoping cartridge D rotation, the rotation axis L21 along power reception part 21 is observed, the fortune of power reception part 21 Dynamic rail mark is overlapped with the rotational trajectory of Delevoping cartridge D；Second control mechanism is for controlling power reception part 21 relative to development Box shell 10 does stretching motion, i.e., under the control of the second control mechanism, power reception part 21 can be to close to Delevoping cartridge shell 10 Direction and direction far from Delevoping cartridge shell 10 move, and power reception part 21 does curve fortune relative to Delevoping cartridge shell 10 Stretching motion is done relative to Delevoping cartridge shell 10 while dynamic.

It should be noted that above-mentioned first control mechanism and the second control mechanism (being referred to as " control mechanism ") connect with power Addressee 21 combines, and the combination includes at least one of modes such as mechanical bond, magnetic combination and electric-mechanic control system.

First control mechanism includes that the engaging member 22 that is combined with power reception part 21 and guiding engaging member 22 are led Draw part, when power reception part 21 is by external force, power reception part 21 forces engaging member 22 to be guided by the guide member, Under the action of guide member, engaging member 22 drives power reception part 21 to do curvilinear motion relative to Delevoping cartridge shell 10.

Second control mechanism include the sliding part 23 combined with power reception part 21 and be located at power reception part 21 Elastic component 24 between Delevoping cartridge shell 10, as shown in Figure 3, it is preferred that elastic component 24 is conical compression spring, more preferably , elastic component 24 is compressed spring, it is installed between end cap 11 and sliding part 23, when sliding part 23 slides, and conical compression Spring 24 can be more stable support sliding part 23 or power reception part 21.Further, the sliding part 23 is configured to cross Sliding slot shaft coupling, when sliding part 23 is combined with power reception part 21, power reception part 21 can be vertical with rotation axis L21 It is moved in plane.

Continue as shown in figure 3, power transmission 20 further includes the driving gear 25 for receiving and transmitting driving force, institute It states driving gear 25 and at least one of power reception part 21 and sliding part 23 combines, transmitted for receiving power reception part 21 The driving force to come over, and part driving force passes.

Fig. 4 A is the side view of power reception part of the present invention；Fig. 4 B is another power reception of the present invention The overall structure diagram of part；Fig. 5 A is the overall structure diagram of engaging member of the present invention；Fig. 5 B be the present invention relates to Engaging member top view；Fig. 6 A is the overall structure diagram of driving gear of the present invention；Fig. 6 B be the present invention relates to Driving gear another angle overall structure diagram.

As shown in Fig. 3, Fig. 4 A and Fig. 4 B, power reception part 21 includes rhabodoid 211, is located at 211 1 ends of rhabodoid Power reception pawl 212, along the rotation axis L21 of power reception part 21, the power reception pawl 212 is from the one of rhabodoid 211 A end extends to the direction far from rhabodoid 211, it is preferred that power reception pawl 212 is two be oppositely arranged, as schemed institute Show, power reception pawl 212 has opposite inner surface 212a and outer surface 212b and connects with the rotation axis L21 power intersected Receive pawl top surface 214, wherein inner surface 212a towards rotation axis L21, outer surface 212b far from rotation axis L21, that is, It says, inner surface 212a is than outer surface 212b closer to rotation axis L21；Along the direction of rotation of power reception part 21 itself, power The end that pawl top surface 214 is located at power reception part 21 is received, space S is formed between described two power reception pawls 212, works as power When transfer device 20 is combined with power output member 30, power output rod 32 is combined with power reception pawl 212.

When power reception part 21 is by external force, power reception part 21 forces engaging member 22 to move, from reduction power From the aspect of the assembling difficulty of transfer device 20 and the production technology of power reception part 21, it is preferred that power reception part 21 is also Including the engaging portion 215 for being combined with engaging member 22, for example, engaging portion 215 is the appearance along rhabodoid 211 away from rotation The direction of shaft axis L21 protrusion outstanding, engaging portion 215 can also be that the groove being arranged on rhabodoid 211, circlip are connected to In the groove.

As fig. 5 a and fig. 5b, engaging member 22 includes movable body 221, across the perforation 222 of movable body 221, Yi Jishe The guidance part 223 on movable body 221 is set, power reception part 21 passes through perforation 222, specifically, rhabodoid 211 passes through perforation 222, the guidance part 223 is used in conjunction with guide member, as shown, guidance part 223 is the guiding being arranged on movable body 221 Slot, guide member are the guide projections 126 (as shown in figures 7 a and 7b) combined with guide channel 223.

Fig. 3 is returned to, sliding part 23 includes slide mass 231 and support rod 232, and the two is loose fit, and the slide mass 231 can It is slided along support rod 232, as shown, slide mass 231 has top surface 234 and bottom surface 235, the top surface along rotation axis L2 234 towards power reception part 21, and bottom surface 235 is far from power reception part 21.

As described above, sliding part 23 is configured to cross-shaped chute coupling structure, thus, slide mass 231 is additionally provided with sliding One in slot 233 and slide protrusion 213, it is preferred that sliding groove 233 is arranged on slide mass 231, as shown, sliding groove 233 are formed as extending upward through slide mass 231 in the side vertical with rotation axis L2, and along rotation axis L2, and sliding groove 233 is from top Face 234 is to 231 sunken inside of slide mass, it is furthermore preferred that sliding groove 233 is formed as dovetail groove；Slide protrusion 213 is formed as and slides The matched shape of slot 233, and slide protrusion 213 is combined with power reception part 21, it is preferred that slide protrusion 213 and rhabodoid 211 Integrally formed, as shown in Figure 4 A and 4 B shown in FIG., slide protrusion 213 is located at two ends of rhabodoid 211 with power reception pawl 212 End.

For fixed taper compressed spring 24, the sliding part 23 further includes the fixed part 236 being arranged on bottom surface 235, such as Shown in Fig. 3, fixed part 236 is along rotation axis L21 from bottom surface 235 to far from the convex block outstanding of slide mass 231, conical compression bullet The minor diameter of spring 24 is combined with convex block 236, thus, conical compression spring 24 is fixed.

As shown in Figure 6 A and 6 B, driving gear 25 include cylinder 251, cylinder 251 be enclosed cavity 252, Positioned at the first sliding tooth 253 of 251 outer surface of cylinder and the second sliding tooth 254 and 251 inner surface of cylinder is set Power reception portion 258, thus, power reception portion 257 is located in cavity 252, it is preferred that power reception portion 258 is from cylinder 251 inner surfaces extend raised into cavity 252, and have the power reception face 255 for being combined with support rod 232；Such as figure Shown, cylinder 251 has opposite upper and lower opening, that is to say, that cavity 252 is connected to outside, and power reception portion 258 is in circle 251 inner surface of cylinder is circumferentially disposed, and to prevent support rod 232 from deviating from out of cavity 252, sliding tooth 25 further includes setting A part of loose slot 256 in power reception portion 258, support rod 232 is located in loose slot 256.

Further, first sliding tooth 253 and the second sliding tooth 254 have different diameters, wherein the first driving The diameter of tooth 253 is greater than the diameter of the second sliding tooth 254, and power reception portion 258 has lower surface 257, as shown in Figure 6B, following table Face 257 is arranged close to the second sliding tooth 254.

[protecting cover]

Fig. 7 A is the overall structure diagram of protecting cover of the present invention；Fig. 7 B is another of protecting cover of the present invention The overall structure diagram of angle.

As shown, protecting cover 12 can be rotated with Delevoping cartridge shell 10 along direction shown in r, including ontology 121, setting exist Through-hole 122 on ontology 121 and the import 123 being disposed adjacent on ontology 121 with through-hole 122 and outlet 124；Power passes Delivery device 21 passes through through-hole 122, and along direction of rotation r, import 123 is located at the downstreams and upstream of through-hole 122 with outlet 124, Due to the setting of import 123 and outlet 124, when protecting cover 12 as Delevoping cartridge shell 10 is rotated along direction shown in r, power output member 30 can not be combined and be detached from combination with power reception part 21 by what protecting cover 12 hindered, that is to say, that in the rotation rail of protecting cover 12 On mark, protecting cover 12, which is not formed power output member 30, interferes.

As described above, guide member 126 is used to guide engaging member 22, and then really during Delevoping cartridge shell 10 rotates The motion profile for protecting power reception part 21 is stablized；In the embodiment of the present invention, guide member 126 is fixed on protecting cover 12, it is preferred that Guide member 126 is fixed in through-hole 122, it is furthermore preferred that guide member 126 is fixed in through-hole 122 by fixed part 128, As shown in Figure 7 B, fixed part 128 can regard the protrusion inside from 122 inner surface radial direction of through-hole as, and have radial extremity face 125, guide member 126 is further protruded inwardly from from the radial extremity face 125；For the circular motion for adapting to Delevoping cartridge D, radial extremity Face 125 is preferably curved surface, meanwhile, to guarantee that power reception part 21 does curvilinear motion, more particularly, guarantee power reception part 21 It as Delevoping cartridge shell 10 is rotated around C point together, and then prevents power reception part 21 from being interfered during the motion by protecting cover 12, leads Draw the generally non-linear shape of part (guide projections) 126, as shown in Figure 7 B, is observed along the direction of rotation axis L2, guide member 126 For distorted shape, and the direction of twist of guide member 126 is opposite with direction of rotation r.

Continue as shown in figures 7 a and 7b, guide member 126 has first end 126a and second end 126b, along rotation side It is located at the downstream of second end 126b to r, first end 126a, first end 126a is than second end 126b further from Delevoping cartridge Shell 10, and first end 126a than second end 126b closer to import 123, in other words, second end 126b is than first End 126a closer to outlet 124, thus, under the guide function of guide member 126, engaging member 22 can be from first end 126a Second end 126b is slid into, the direction shown in arrow d1 and d2 along Fig. 7 A moves power reception part 21 simultaneously, that is to say, that dynamic Power receiving element 21 along direction shown in d1 on the direction of rotation axis L2 close to Delevoping cartridge shell 10 move while, also along d2 Shown direction is upwardly away from Delevoping cartridge shell 10 in the side vertical with rotation axis L2 and moves；To prevent engaging member 22 from guide member 126 fall off, and in the embodiment of the present invention, Delevoping cartridge D further includes the limited part being disposed adjacent with the second end 126b of guide member 127。

[end cap]

Fig. 8 is the overall structure diagram of end cap of the present invention.

As shown, end cap 11 include the end cover body 110 combined with Delevoping cartridge shell 10, it is coaxial prominent from end cover body 110 The first cylinder 111 and the second cylinder 112, wherein the first cylinder 111 and end cover body 115 are enclosed accommodating chamber 116, second Cylindrical body 112, the first cylindrical body 111 and end cover body 115 are enclosed annular chamber 113, and the major diameter portion of compressed spring 24 is held Chamber 116 of receiving accommodates, and lower surface 257 is abutted with the terminal surface 114 of the first cylinder 111, and cylinder 251 enters annular chamber 116；Into one Step, to ensure that the driving force for driving gear 25 passes, the second cylinder 112 is arranged jagged 115, that is to say, that the On the circumferencial direction of two cylinders 112, annular chamber 113 is connected to by notch 115 with outside.

[combination and disengaging of power transmission and power output member combine]

Fig. 9 A is that power reception part is observed along the rotation axis direction of power reception part to the direction close to power output member The status diagram of movement；Fig. 9 B is that power reception part is moved to the direction close to power output member from the outlet of protecting cover Perspective view；Figure 10 A is the state along the rotation axis direction of power reception part observation power reception part in conjunction with power output member Schematic diagram；Figure 10 B is perspective view of the power reception part in conjunction with power output member from the outlet of protecting cover；Figure 11 A is along dynamic The rotation axis direction observation power reception part of power receiving element is detached from the status diagram combined with power output member；Figure 11 B is Power reception part is detached from the perspective view combined with power output member from the outlet of protecting cover.

As shown in fig. 9 a and fig. 9b, power reception part 21 is located at first position relative to power output member 30, at this point, power Receiving element 21 is not combined with power output member 30, and the rotation axis L2 and L3 of the two are parallel to each other, along direction of rotation r, rotary shaft Line L2 is located at the upstream of rotation axis L3.

Power transmission 20 is rotated with Delevoping cartridge shell 10 along direction shown in r, and power transmission 20 moves closer to Power output member 30, as shown in figs. 10 a and 10b, power reception part 21 are gradually combined with power output member 30, in the knot of the two It is possible that two kinds of situations during conjunction：

The first situation, the camber line where the r of direction of rotation pass through space S, then power reception part 21 can be with power output Part 30 smoothly combines；

Second situation, the camber line where the r of direction of rotation are not passed through space S, then power reception pawl 212 can be to power reception The combination of part 21 and power output member 30 forms interference.

When there is above-mentioned second situation, power reception part 21 will receive the active force from power output member 30, with Further rotating for Delevoping cartridge D, the active force force power reception part 21 to move to close to the direction of Delevoping cartridge shell 10, together When, power reception part 21 drives engaging member 22 to be directed to the guiding of part 126, and engaging member 22 starts the first end from guide member 126 126a is moved to second end 126b, and since guide member 126 is distorted shape, the motion profile of engaging member 22 is also twisting curve, In turn, engaging member 22 forces power reception part 21 to do curvilinear motion while close to Delevoping cartridge shell 10 again.

With the rotation of Delevoping cartridge D, when power reception pawl 212, which is no longer formed power output member 30, interferes, power is connect Addressee 21 is combined with the completion of power output member 30, as shown in Figure 10 B, the rotation axis L21 and power output of power reception part 21 The rotation axis L3 of part 30 is conllinear, and power reception part 21 is located at the second position relative to power output member 30；Thus, power reception For part 21 during moving to the second position from first position, power reception part 21 does song under the action of the first control mechanism Line movement, and power reception part 21 do curvilinear motion direction it is opposite with the direction of rotation of Delevoping cartridge D.

As described above, sliding part 23 is configured to cross-shaped chute coupling, the power reception part 21 combined with sliding part 23 can In the planar movement vertical with rotation axis L2, therefore, no matter which kind of curvilinear motion power reception part 21 does, in sliding part 23 Under effect, the movement of power reception part 21 can be realized.In above-mentioned second situation, power reception part 21 is carried out ultromotivity After the active force of output 30, under the guide function of guide member 126, on the r of direction of rotation, power reception part 21 is moved closer to Outlet 124, meanwhile, power reception part 21 will force compressed spring 24 to be compressed close to the movement of Delevoping cartridge shell 10.

As seen in figs. 11a and 11b, power reception part 21 is in the third place relative to power output member 30, at this point, dynamic Power receiving element 21 is combined with the disengaging of power output member 30.The mistake of combination is progressively disengaged in power reception part 21 and power output member 30 Cheng Zhong, power reception part 21 are gradually no longer influenced by the active force from power output member 30, in the elastic reset of compressed spring 24 Under power effect, power reception part 21 drives engaging member 22 gradually to reset under the guide function of guide member 126, thus, power connects During moving to the third place from the second position, power reception part 21 is done addressee 21 under the action of the first control mechanism Curvilinear motion, and power reception part 21 do curvilinear motion direction it is identical as the direction of rotation of Delevoping cartridge D；When power reception part 21 When completely disengaging combination with power output member 30, as shown in Figure 11 B, power output member 30 moves to outlet 124, along rotation axis R, rotation axis L21 are located at the downstream of rotation axis L3.

As the transformation of the embodiment of the present invention, the guide member (guide projections) 126 can also exchange with guide channel 223, I.e. guide channel 223 is arranged on fixed part 128, and guide member 126 is arranged on engaging member 22.

[shape of power reception pawl]

Figure 12 A is that the position in power reception part of the present invention on the inside of power reception pawl between power output member is closed System's figure；Figure 12 B is the positional relationship in power reception part of the present invention between power reception pawl top and power output member Figure；Figure 12 C is the location diagram in power reception part of the present invention on the outside of power reception pawl between power output member.

As described above, power reception pawl 212 has opposite inner surface 212a and outer surface 212b, it is as shown in Figure 4 A, interior Surface 212a and outer surface 212b is curved surface, and being respectively provided with inner vertex P1 and outer dead centre P2, the inner vertex P1 is interior table Near the point of rotation axis L21 on the 212a of face, outer dead centre P2 is the point on the 212b of outer surface farthest away from rotation axis L21, because And inner vertex P1 relative to outer dead centre P2 closer to rotation axis L21, in the embodiment of the present invention, along rotation axis L21, interior top Point P1 and outer dead centre P2 is different with a distance from rhabodoid 211, as shown, inner vertex P1 is than outer dead centre P2 further from rhabodoid 211, in other words, inner vertex P1 is than outer dead centre P2 closer to power reception pawl top surface 214.

As illustrated in fig. 12, rotary shaft 31 includes integrally formed first part 31a and second part 31b, first part The diameter of 31a is greater than the diameter of second part 31b, has on the intersection of first part 31a and second part 31b from rotary shaft Line L3 farthest outermost point P3.When power reception part 21 is combined with power output member 31, along rotation axis L3, outermost point P3 ratio Inner vertex P1 is further from rhabodoid 211, as shown in Figure 12 B, when being observed along the direction perpendicular to rotation axis L21, power reception Pawl top surface 214 is no more than power output rod 32, it is preferred that power reception pawl top surface 214 is flushed with power output rod 32.

When power reception part 21 needs to be combined with the disengaging of power output member 30, power output member 30 is easier to connect to power Addressee 21, which applies, forces power reception part 21 to the active force far from power output member 30, i.e., power reception part 21 is to close to development The direction of box shell 10 moves, thus, power reception part 21 and power output member 30 are easier to get detached combination.

Along rotation axis L3, outermost point P3 is than outer dead centre P2 further from rhabodoid 211, thus, above-mentioned outermost point P3, interior top The positional relationship of point P2 and outer dead centre P3 may be summarized to be：Along rotation axis L3/L21, outermost point P3 is than inner vertex P1 and outer top Any one in point P2 is further from rhabodoid 211；As indicated in fig. 12 c, when power reception part 21 moves closer to power output member When 30, power output member 30, which is easier to apply to power reception part 21, forces power reception part 21 to separate power output member 30 Active force, i.e. power reception part 21 are moved to the direction close to Delevoping cartridge shell 10, thus, it is defeated in power reception part 21 and power During part 30 combines out, power reception pawl 212 is less to the interference of power output member 30, is more advantageous to power reception part 21 It is combined faster with power output member 30.

Claims (8)

1. being removably mounted on the Delevoping cartridge in the imaging device for being provided with power output member, the Delevoping cartridge can be filled around imaging Center axis rotation in setting moves in a circle, and transmits dress including Delevoping cartridge shell, the power positioned at one end of Delevoping cartridge shell Set, the power transmission include can in conjunction with power output member and be detached from combine power reception part, which is characterized in that For power reception part in conjunction with power output member and during being detached from combination, power reception part does curve relative to Delevoping cartridge shell Movement.

2. Delevoping cartridge according to claim 1, which is characterized in that with the rotation of Delevoping cartridge, power reception part and power Output is combined and is detached from and combines.

3. Delevoping cartridge according to claim 2, which is characterized in that power reception part has rotation axis L21, power output Part has rotation axis L3；

Power reception part is successively by being detached from the first position combined, the second in conjunction with power output member with power output member The third place set and be detached from again with power output member；

Along the direction of rotation of Delevoping cartridge, when power reception part is located at first position, rotation axis L21 is located at rotation axis L3's Upstream；

When power reception part is located at the second position, rotation axis L21 is conllinear with rotation axis L3；

When power reception part is located at the third place, rotation axis L21 is located at the downstream of rotation axis L3.

4. Delevoping cartridge according to claim 3, which is characterized in that power reception part is moving to second from first position During setting, the direction that power reception part does curvilinear motion is opposite with the direction of rotation of Delevoping cartridge；Power reception part is from During two positions move to the third place, power reception part does the direction of curvilinear motion and the direction of rotation phase of Delevoping cartridge Together.

5. Delevoping cartridge described in any one of -4 claims according to claim 1, which is characterized in that power reception part is in phase Stretching motion is done also relative to Delevoping cartridge while doing curvilinear motion for Delevoping cartridge.

6. Delevoping cartridge according to claim 5, which is characterized in that Delevoping cartridge further includes in conjunction with power reception part One control mechanism and the second control mechanism, the first control mechanism do curve fortune relative to Delevoping cartridge for controlling power reception part Dynamic, the second control mechanism does stretching motion relative to Delevoping cartridge for controlling power reception part.

7. Delevoping cartridge according to claim 6, which is characterized in that the first control mechanism includes in conjunction with power reception part Engaging member and the guide member for guiding engaging member.

8. Delevoping cartridge according to claim 6, which is characterized in that the second control mechanism includes in conjunction with power reception part Sliding part and the elastic component between Delevoping cartridge shell.