CN207992693U - Power reception part, power transmission and handle box - Google Patents

Abstract

The utility model is related to power reception parts, power transmission and handle box, the power reception part is used to be combined and be received with power output member the driving force of power output member output, guide rod including interconnection and power reception portion, and the power transfering part combined with guide rod, the power reception portion is used to receive driving force from outside, power transfering part is for passing the driving force that power reception part receives, the power transfering part is integrally formed with guide rod, between driving gear in power reception part and power transmission connected by orbicule, but tight fit, therefore, handle box is in transportational process, be not in the problem of power reception part falls off from handle box.

Description

Power reception part, power transmission and handle box

Technical field

The utility model is related to electrophotographic image forming field more particularly to a kind of places suitable for electrophotographic image forming Box and the power transmission in handle box are managed, which is used for and the power output member in imaging device It is combined in conjunction with disengaging, when power transmission is combined with power output member, it is defeated that power transmission receives power output member The driving force gone out, and the driving force received is transferred to the component in handle box.

Background technology

Common electrophotographic image forming, such as printer, duplicator etc. are indispensable in modern handle official bussiness field Equipment.By taking printer as an example, handle box is common consumables in printer, wherein the developer for development is accommodated, and It is rotatably mounted with multiple revolving parts wherein.

When handle box works, the multiple revolving part rotates respectively, utilizes electrophotographic image forming technology so that accommodated in handle box The latent electrostatic image developing that will be formed on one of revolving part of developer, and the electrostatic latent image after development is transferred to imaging and is situated between Matter finally exports.To ensure the multiple revolving part rotation, handle box further includes the power reception part being disposed therein, and works as place After reason box is mounted to printer, which is transferred to revolving part for receiving driving force from printer, drives Revolving part rotates.

A kind of existing power reception part being referred to as universal joint, the power reception part are installed in by an orbicule It drives in gear, before handle box is mounted to printer, due to the presence of orbicule, the rotary shaft of the power reception part Line is tilted relative to the rotation axis of driving gear；After handle box is mounted to printer, the power reception part and beat Power output member in print machine combines, and in the handle box course of work, keeps the rotation axis and sliding tooth of power reception part The rotation axis of wheel is parallel or conllinear.

However, just because of the presence of the orbicule, power reception part and the end of driving gear are not tight fits yet, Therefore, using the handle box of such power reception part in transportational process, there is the wind to fall off from handle box in power reception part Danger.

Utility model content

The utility model provides a kind of power transmission including power reception part, the power in the power transmission Receiving element and driving gear tight fit, without worrying that handle box in transportational process, power reception part occurs from handle box The problem of falling off.

In order to achieve the above objectives, the utility model uses following technical scheme：

Power reception part, the driving force for power output member output to be combined and received with power output member, including it is mutual The guide rod of connection and power reception portion and the power transfering part combined with guide rod, the power reception portion from outside for connecing Receive driving force, power transfering part for the driving force that power reception part receives to be passed, the power transfering part with lead Bar is integrally formed.

Preferably, the power transfering part is the column outstanding from guide rod.

The utility model also provides power transmission, including movable part, driving gear and power as described above connect Addressee, the movable part are socketed on power reception part, and a part for movable part and at least power reception part is located at driving In gear.

The driving gear includes the gear cavity that cylindrical gear mass, gear mass are enclosed and from gear cavity side wall The holding tank extended to the direction far from rotation axis L2.

The movable part includes ontology, extends from body outer surface convex block outstanding and from body internal surface exterior surface Sliding slot, the power transfering part combined with sliding slot, and convex block is combined with holding tank.

Preferably, the movable part is separable two, on the direction vertical with rotation axis L2, power transfering part No more than sliding slot.

Specifically, on the direction vertical with rotation axis L2, the distance between sliding slot in described two movable parts is big In the distance between two ends of power transfering part；Or on the direction vertical with rotation axis L2, sliding slot is far from rotation It closes one end of axis L2.

The utility model also provides a kind of handle box, including handle box shell and power transmission as described above, The power transmission is removably mounted on a longitudinal end of handle box shell.

As described above, the utility model is related to power reception part and driving gear between be not to be connected by orbicule, But tight fit, therefore, handle box is not in the problem of power reception part falls off from handle box in transportational process.

Description of the drawings

Fig. 1 be the utility model is related to handle box overall structure diagram.

Fig. 2 be the utility model is related to power transmission decomposition diagram.

Fig. 3 be the utility model is related to power transmission overall structure diagram.

Fig. 4 be along by the utility model is related to power transmission rotation axis cutting sectional view.

Fig. 5 be the utility model is related to movable part overall structure diagram.

Fig. 6 A be the utility model is related to power reception part at installing angle position, handle box installation before state show It is intended to.

Fig. 6 B are the enlarged diagrams of handle box state shown in Fig. 6 A.

Fig. 6 C are under handle box state shown in Fig. 6 A, between the power output member in power transmission and imaging device Position relationship schematic diagram.

Fig. 7 A be the utility model is related to power reception part at installing angle position, handle box installation in state show It is intended to.

Fig. 7 B are the enlarged diagrams of handle box state shown in Fig. 7 A.

Fig. 7 C are under handle box state shown in Fig. 7 A, between the power output member in power transmission and imaging device Position relationship schematic diagram.

Fig. 8 A be the utility model is related to power reception part at installing angle position, state that handle box installs Schematic diagram.

Fig. 8 B are the enlarged diagrams of handle box state shown in Fig. 8 A.

Fig. 8 C are under handle box state shown in Fig. 8 A, between the power output member in power transmission and imaging device Position relationship schematic diagram.

When Fig. 9 is that handle box takes out, relative position schematic diagram between power reception portion and power output member.

Figure 10 is the overall structure diagram of power reception part in the utility model another embodiment.

Specific implementation mode

The embodiments of the present invention are described in detail below in conjunction with the accompanying drawings.For convenience of description, first be made it to handle box following fixed Justice：The length direction of definition process box C is that the installation direction of longitudinal direction X, handle box C are transverse direction Y, at the same with longitudinal X of handle box Vertical direction is vertical Z with lateral Y.

Fig. 1 be the utility model is related to handle box overall structure diagram.Handle box C, which is removably mounted on, to be had In the imaging device of power output member 6.

As shown, handle box C includes handle box shell 1, is removably mounted on 1 one longitudinal ends of handle box shell Power transmission 2, the power transmission 2 be used for the power output member 6 of imaging device it is (as shown in Figure 2) combine and connect The driving force that power output member 6 exports is received, then transfers a driving force to the revolving part (not shown) in handle box.Further, Handle box C further includes the holder 5 for being used to support power transmission 2.

[power transmission]

Fig. 2 be the utility model is related to power transmission decomposition diagram；Fig. 3 be the utility model is related to it is dynamic The overall structure diagram of force transfering device；Fig. 4 be along by the utility model is related to power transmission rotation axis The sectional view of cutting；Fig. 5 be the utility model is related to movable part overall structure diagram；Fig. 5 be the utility model is related to Movable part overall structure diagram.

Power transmission 2 includes power reception part 21, movable part 22 and driving gear 24, power reception part 21 and activity Part 22 can move in driving gear 24 along rotation axis L2, further, the power transmission further include for for Power reception part 21 provides the elastic component 23 of elastic reset power, and the movable part 22 and elastic component 23 are socketed in power reception part On 21, elastic component 23 is located between movable part 22 and driving gear 24；As shown in Figure 3 and Figure 4, when power transmission 2 assembles After the completion, movable part 22 and elastic component 23 are located in driving gear 24, and at least part of power reception part 21 also is located at driving In gear 24, and combined with driving gear 24；To prevent the abjection out of driving gear 24 of movable part 22, the power transmission 2 further include the protecting cover 26 combined with driving gear 24.

As described above, the driving force received is transferred to the revolving part in handle box by power transmission 2, such as Fig. 2 institutes Show, there is revolving part rotation axis L1, power transmission 2 there is rotation axis L2, power reception part 21 to have rotation axis L21, the handle box C are regardless of whether be in work, the rotation of the rotation axis L21, power transmission 2 of power reception part The rotation axis L1 of axis L2 and revolving part remains coaxial.

As shown in Figure 2 and Figure 4, power reception part 21 include be connected with each other guide rod 211 and power reception portion 212 and The power transfering part 213 combined with guide rod 211, power reception portion 212 are used to receive driving force, power transfering part 213 from outside Driving force for receiving power reception part passes.Preferably, power transfering part 213 is prominent from guide rod 211 Column, in the utility model embodiment, the power transfering part 213 is integrally formed with guide rod 211, therefore, it is possible to save The step of power transfering part 213 is combined with guide rod 211 advantageously reduces production cost, and is not in power transfering part 213 The risk to fall off from guide rod 211；Movable part 22 and elastic component 23 are socketed on guide rod 211, and movable part 22 is passed with power simultaneously It passs portion 213 and driving gear 24 combines, the driving force for receiving power reception portion 212 is transferred to driving gear 24；It is excellent Choosing, elastic component 23 is spring, as shown in figure 4, one end of spring 23 is abutted with movable part 22, the other end is supported with driving gear 24 It connects.

[driving gear]

The structure of driving gear 24 is described with reference to Fig. 4, driving gear 24 includes the gear mass 241 of cylinder, gear Gear cavity 242 that body 241 is enclosed, the holding tank 243 extended from 242 side wall of gear cavity to the direction far from rotation axis L2 And the bottom wall 245 combined with 241 1 ends of gear mass, the end where the bottom wall 245 is relative to the another of gear mass A end is further from power reception portion 212；The bottom wall 245 can also be separately formed with gear mass 241, and then the two passes through glue The modes such as viscous, welding combine.

As shown in figure 4, forming step surface 244 between holding tank 243 and gear cavity 242, movable part 22 passes through holding tank 243 It being combined with gear mass 241, movable part 22 and spring 23 are respectively positioned in gear cavity 242, and bottom wall 245 is connected with each other with gear mass 241, Preferably, the two is integrally formed, and there is bottom wall 245 through-hole 245a and opposite top surface 245b and bottom surface 245c, guide rod 211 to wear Through-hole 245a is crossed, one end of spring 23 is abutted with top surface 245b, and the other end is abutted with movable part 22, that is to say, that 23, spring Between movable part 22 and gear mass 241.

It is being driven in gear 24 in motion process, to prevent power reception along its rotation axis L21 in power reception part 21 The abjection out of driving gear 24 of part 21, the power transmission 2 further includes fixing piece 25, as shown in figure 4, fixing piece 25 passes through Preset hole on guide rod 211, commonly, the fixing piece 25 are pin, after power transmission 2 is completed to assemble, pin 25 Across guide rod 211, and positioned at the position abutted with bottom wall bottom surface 245c.

[movable part]

The structure of movable part 22 is described with reference to Fig. 2, Fig. 5 and Fig. 6 C.As described above, movable part 22 is socketed in guide rod On 211, from the point of view of facilitating power transmission 2 to assemble, the movable part 22 is separable two, due to the two Movable part 22 is complementary, thus, the structure of one of movable part 22 is only described herein.

Movable part 22 includes ontology 221, from body outer surface convex block 222 outstanding and from body internal surface exterior surface The sliding slot 223 of extension, which in the shape of a spiral, generally extends along the rotation axis L2 of power transmission 2, described dynamic Power receiving element 21 is combined with sliding slot 223, specifically, power transfering part 213 is located in sliding slot 223, and is led by sliding slot 223 Draw；To avoid power transfering part 213 because being interfered by external structure, and then hinder power transfering part 213 sliding in sliding slot 223 It is dynamic, it is preferred that on the direction vertical with rotation axis L2, the distance between sliding slot 223 in described two movable parts is more than The distance between two ends of power transfering part 213, that is to say, that on the direction vertical with rotation axis L2, power passes It passs portion 213 and is no more than sliding slot 223；It is furthermore preferred that as shown in figure 5, on the direction vertical with rotation axis L2, sliding slot 223 is remote One end closing from rotation axis L2, power transfering part 213 are protected completely by sliding slot 223, thus, power transfering part 213 will not Interfered by external structure.

The convex block 222 is received the receiving of slot 243, as shown in Figure 6 C, convex along the rotation axis L2 of power transmission 2 The length of block 222 is l1, and the length of holding tank 243 is l2, is met：L2 ＞ l1, l=l2-l1.

When assembling power transmission 2, to prevent separable two movable parts to be detached from, as shown in figure 5, movable part 22 further include one of at least engaging portion 224 being disposed therein and sealing wire 225, after two 22 sets of movable parts are connected to guide rod 211, The snapping of two movable parts 22 is realized using the engaging portion 224, then is melted sealing wire 225 with the mode of welding, to protect Two movable parts 22 of card can be closely combined together.

[power reception part flexible]

Fig. 6 A be the utility model is related to power reception part at installing angle position, handle box installation before state show It is intended to；Fig. 6 B are the enlarged diagrams of handle box state shown in Fig. 6 A；Fig. 6 C are under handle box state shown in Fig. 6 A, and power transmits The position relationship schematic diagram between power output member in device and imaging device；Fig. 7 A be the utility model is related to power connect Addressee is at installing angle position, the status diagram in handle box installation；Fig. 7 B are the amplifications of handle box state shown in Fig. 7 A Schematic diagram；Fig. 7 C are under handle box state shown in Fig. 7 A, between the power output member in power transmission and imaging device Position relationship schematic diagram；Fig. 8 A be the utility model is related to power reception part at installing angle position, handle box installs Complete status diagram；Fig. 8 B are the enlarged diagrams of handle box state shown in Fig. 8 A；Fig. 8 C are handle box states shown in Fig. 8 A Under, the position relationship schematic diagram between power output member in power transmission and imaging device；Fig. 9 is that handle box takes out When, relative position schematic diagram between power reception portion and power output member.

Power reception part 21 can extend and retract on the direction where its rotation axis L21/L2, such as Fig. 6 A and Fig. 6 B institutes Showing, handle box C is mounted along direction shown in d1, and when original state, power reception part 21 is in stretching state, as shown in Figure 6 C, On the direction of rotation axis L2, power reception portion 212 has overlapped region, power output member 6 with power output member 6 Interference will be formed to movement of the power reception part 21 on the directions d1, thus, power reception part 21 at this time is in installing angle Position, rotation axis L21, the rotation axis L2 of power transmission 2 and the rotation axis of photosensitive drums of power reception part 21 L1 keeps coaxial, during further installation process box C, in above-mentioned spiral sliding slot 223 to power transfering part 213 Guide function under, handle box C is smoothly installed.

The location of power reception portion 212 is random, when power reception portion 212 and power output member 6 are no mutual When the region of overlapping, during the installation process, power output member 6 will not be to power reception part 21 on the directions d1 by handle box C Movement forms interference, thus, power reception part 21 would not also be in the installing angle position, and handle box C can be smoothly It is mounted.

Continue it is as shown in Figure 6 C, there are the l=l2-l1, thus, movable part 22 can be along the rotation of power transmission 2 Shaft axis L2 is moved in holding tank 243.Before handle box C is mounted, convex block 222 is in first position shown in Fig. 6 C, at this point, Power reception part 21 is in stretching state, and the distance between convex block 222 and step surface 244 are l, to accurately control power reception The distance that part 21 is moved along rotation axis L2, the overlay region between rotation axis L21, power reception part 21 and power output member 6 The length in domain is l3, meets l=l3, that is to say, that the distance and power reception portion 212 that movable part 22 is moved along rotation axis L2 It is equal at a distance from the movement of 6 nonoverlapping position of power output member from being moved to the position that power output member 6 is overlapped, work as activity When convex block 222 on part 22 reaches the position abutted with step surface 244, the arrival power reception of power output member 6 portion 212 just on Side, on the direction of rotation axis L2, there is no the regions of overlapping therebetween；Certainly, the convex block 222 and step surface 244 The distance between l be more than between power reception part 21 and power output member 6 when the length l3 of overlapping region, can similarly ensure There is no overlapping region between power output member 6 and power reception portion 212, it is therefore, described on the direction where rotation axis L2 Convex block 222 is slideably received the receiving of slot 243；The mode realized in the utility model embodiment is so that convex block 222 and platform At least there is gap, overlapping region between the length l and power reception part 21 and power output member 6 in the gap between terrace 244 Length l3 meet：L >=l3, or it is less than holding tank along the rotation axis L2 of power transmission 2, the length l1 of convex block 222 243 length l2.

Specific motion process is described with reference to Fig. 7 A, Fig. 7 B and Fig. 7 C.As shown in figures 7 a and 7b, when handle box C after When continuous mounted along direction shown in d1, power reception portion 212 will be touched with power output member 6, as handle box C continues to apply The power in the directions d1, power reception portion 212 are squeezed by power output member 6, and make power reception part 21 whole along direction shown in d2 Movement；At this point, power transfering part 213 starts to slide along sliding slot 223, and drive movable part 22 also along direction shown in d2, due to cunning In the shape of a spiral, therefore, power transfering part 213 will drive the whole edge of power reception part 21 to slot 223 while sliding along sliding slot 223 The hand of spiral of sliding slot 223 rotates, and power reception part 21 rotates integrally certain angle so that power reception portion 212 It avoids the region Chong Die with power output member 6 or power output member 6 moves to the top in power reception portion 212；Such as Fig. 7 C Shown, spring 23 will be compressed by movable part 22, and convex block 222 is in than first position closer to the second position of step surface 244, this When, power reception part 21 is in retracted mode, the rotation axis L21 of power reception part 21, the rotation axis of power transmission 2 L2 and the rotation axis L1 of photosensitive drums keep coaxial, and pin 25 is transported also along rotation axis L2 to the direction far from bottom wall 245 Dynamic distance l4, and meet l3=l4.

As shown in Figure 8 A and 8 B, when power output member 6 crosses the top in power reception portion 212, power reception part 21 will no longer be squeezed by power output member 6, as shown in Figure 8 C, spring 23 will elastic reset, movable part 22 answers spring 23 It is moved along direction shown in d3 under the force effect of position, and drives power reception part 21 also along direction shown in d3 by power transfering part 213 Movement, so that power reception part 21 stretches out again, power reception portion 212 completes to combine with power output member 6；At this point, dynamic The rotation axis L1 of the rotation axis L21 of power receiving element 21, the rotation axis L2 of power transmission 2 and photosensitive drums are still protected It holds coaxial.

When handle box C needs to be removed, the power when motion process of the power reception part 21 is mounted with handle box C The motion process of receiving element 21 is on the contrary, still combine Fig. 6 A- Fig. 8 C, as shown in Figure 8 A, when the edges handle box C and direction phase shown in d1 Anti- direction is taken out, and when the part in power reception portion 212 is stopped by power output member 6, and power reception part 21 cannot be with Power output member 6, which is detached from, to be combined, at this point, power reception part 21, which is in, is detached from dead angle position.

When further edge pulls handle box C in the opposite direction with side shown in d1, a part of quilt in power reception portion 212 Power output member 6 is touched, and the power reception portion 212 after stress drives 213 setting in motion of power transfering part, power transfering part 213 Start to slide in sliding slot 223, as noted previously, as sliding slot 223 is in the shape of a spiral, therefore, power transfering part 213 is in sliding slot 223 While interior sliding, it will it rotates a certain angle along rotation axis L2 so that power reception part 21 is whole, meanwhile, spring 23 is again Secondary to be compressed, the direction shown in d2 along Fig. 7 C of power reception part 21 moves, finally, as shown in figure 9, power output member 6 is no longer right Power reception portion 212 forms blocking, and power reception part 21 is detached from power output member 6 and combines, and makees in the elastic reset of spring 23 Under, power reception part 21 stretches out again.

[another embodiment of power reception part]

Figure 10 is the overall structure diagram of power reception part in the utility model another embodiment.It is related in the present embodiment And power reception part and the structure of power reception part in above-described embodiment be substantially the same, the two difference is that anti-stopping power connects Addressee structure for being detached from from driving gear 24, to make description clearer, power reception part involved in the present embodiment with The identical component of power reception part involved in above-described embodiment, which uses, to be identically numbered.

As shown in Figure 10, the power reception part 21 that the present embodiment is related to includes the guide rod 211 and power reception being connected with each other Portion 212, the power transfering part 213 combined with guide rod 211 and the deformable part 214 combined with driving gear 24.It is described variable Shape portion 214 is connect with guide rod 211 and for fixing power reception part 21, deformable part 214 and power reception portion 212 are located at Two opposing end portions of guide rod 211, that is to say, that deformable part 214 is oppositely arranged with power reception portion 212 on guide rod 211. Deformable part 214 includes notch 214a, is located at the both sides notch 214a deformable 214b, be located at deformable 214b from By the fastening part 214c of end.

The notch 214a is formed as：Side along rotation axis L2 from from the free terminal of guide rod 211 to power reception portion 212 To cutting so that the free terminal of guide rod 211 forms two deformable spaced 214b, thus, when deformable When 214b is by outer force effect, it can be deformed relative to power transfering part 213.

The fastening part 214c includes the fastening face 214c1 being disposed adjacent and guiding face 214c2, and guiding face 214c2 is oblique Face, for receiving applied external force, two deformable 214b of guiding fasten face 214c1 towards Direction distortion close to each other For being fastened with driving gear 24, and then fixed power reception part 21, it is preferred that fastening face 214c1 is plane, along perpendicular to rotation The direction of shaft axis L2, the distance from rotation axis L2 to fastening face 214c1 outermosts are more than the diameter of the through-hole 245a, and From the free terminal of fastening face 214a to fastening part 214c, the distance of fastening part 214c to rotation axis L2/ rotation axis L21 by It is decrescence small.

When assembling power transmission 2, the deformable part 214 passes through the through-hole 245a on driving gear bottom wall, logical Under the squeezing action of hole 245a, guiding face 214c2 guides two deformable 214b and moves closer to, thus, fastening part 214c can After passing through through-hole 245a, fastening part 214c to pass completely through through-hole 245a, the fastening face 214c1 will be supported with bottom wall bottom surface 245c It connects, to realize that power reception part 21 is combined with driving gear 24, and will not be detached from from driving gear 24.

Correspondingly, when needing to take out power reception part 21 from driving gear 24, it is only necessary to two deformable The fastening part 214c of 214b applies active force respectively so that two deformable 214b towards Direction distortion close to each other, and Power towards 212 direction of power reception portion is applied to fastening part 214c, you can release fastening face 214c1 and bottom wall bottom surface 245c's It abuts, to release power reception part 21 and drive the combination of gear 24.

As described above, the utility model is related to power reception part and driving gear between be not to be connected by orbicule, But tight fit, therefore, handle box is not in the problem of power reception part falls off from handle box in transportational process.

Claims (10)

1. power reception part, the driving force for power output member output to be combined and received with power output member, including mutually interconnect The guide rod connect and power reception portion and the power transfering part combined with guide rod, the power reception portion are used to receive from outside Driving force, power transfering part is for passing the driving force that power reception part receives, which is characterized in that the power passes It is integrally formed with guide rod to pass portion.

2. power reception part according to claim 1, which is characterized in that the power transfering part is outstanding from guide rod Column.

3. power transmission has rotation axis L2, which is characterized in that power transmission includes movable part, driving gear And power reception part as claimed in claim 1 or 2, the movable part are socketed on power reception part, and movable part and At least a part for power reception part is located in driving gear.

4. power transmission according to claim 3, which is characterized in that the driving gear includes the gear of cylinder The gear cavity that body, gear mass are enclosed and the holding tank extended from gear cavity side wall to the direction far from rotation axis L2.

5. power transmission according to claim 4, which is characterized in that the movable part includes ontology, external from this Surface convex block outstanding and the sliding slot extended from body internal surface exterior surface, the power transfering part is combined with sliding slot, convex Block is combined with holding tank.

6. power transmission according to claim 5, which is characterized in that the movable part is separable two.

7. power transmission according to claim 6, which is characterized in that on the direction vertical with rotation axis L2, Power transfering part is no more than sliding slot.

8. power transmission according to claim 7, which is characterized in that on the direction vertical with rotation axis L2, The distance between sliding slot in described two movable parts is more than the distance between two ends of power transfering part.

9. power transmission according to claim 7, which is characterized in that on the direction vertical with rotation axis L2, One end closing of the sliding slot far from rotation axis L2.

10. handle box, which is characterized in that including handle box shell and such as any one of claim 3-9 claims institute The power transmission stated, the power transmission are removably mounted on a longitudinal end of handle box shell.