CN104516224B - A kind of rotary force drive component and handle box - Google Patents

Abstract

The present invention relates to a kind of rotary force drive component and handle boxes, for being engaged with the rotary force driving head in electronic imaging apparatus to transmit rotary driving force, include the axis offset adjustment mechanism of photosensitive element wheel hub, rotary power receiving part, side plate and the rotary power receiving part that can be slided relatively with side plate；Rotary power receiving part axis offset adjustment mechanism is connect with rotary power receiving part, when before rotary force drive component is not loaded into electronic imaging apparatus not by outer force effect, the inclined adjustment mechanism of axis makes rotary power receiving part axis relative to photosensitive element hub axis parallel offset；After being packed into electronic imaging apparatus and being installed in place, axis offset adjustment mechanism is made rotary power receiving part axis be overlapped with photosensitive element hub axis by the sliding of outer force effect opposite side plate, and so that rotary power receiving part is stretched out along photosensitive element hub axis direction and engaged with rotary force driving head, so that drive component is not interfered with rotary force driving head.

Description

A kind of rotary force drive component and handle box

Technical field

The present invention relates to a kind of handle boxes for electronic imaging apparatus, and in particular to the rotary force driving group in handle box Part.

Background technology

A kind of handle box of the prior art, the handle box are removably installed in a kind of electronic imaging apparatus.The electricity Rotary force driving head is provided in sub- imaging device.The handle box includes the photosensitive element for carrying image-carrier, and It is set to the photosensitive element wheel hub of described photosensitive element one end, helical teeth is provided on the photosensitive element wheel hub excircle, it is internal Be provided with cavity, while on photosensitive element wheel hub can be meshed with the rotary force driving head in the electronic imaging apparatus by Rotary power passes to the rotating driving force receiver of the photosensitive element.

Fig. 1 to Fig. 2 show the rotary force driving head and rotating driving force receiver engagement process of the prior art.Such as Fig. 1 a Shown, 11 be the rotary force driving head being set in electronic imaging apparatus, is provided with the transmission pin 111 of passing power； 201 be the photosensitive element being arranged in handle box, and 202 be the photosensitive element wheel hub for being set to described photosensitive element one end, and 203 are The rotating driving force receiver being set on the photosensitive element wheel hub；Being provided on the rotating driving force receiver can be with institute State photosensitive element wheel hub engagement passing power power transmitting portions 2032 and can be with the transmission on the rotary force driving head 11 Pin 111 engages the power reception part 2031 of passing power.During in installation process box to electronic imaging apparatus, rotation Turn driving force and receives head needs in advance relative to the axis L1 run-off the straights of the photosensitive element（As shown in Figure 1a）.Such as Fig. 1 a institutes Show, in this kind of handle box installation process, due to rigging error, caused by electronic imaging apparatus internal part loosens, handle box exists In installation process, rotating driving force receiver 203 may drive hair close to the part of rotary force driving head with the rotary force Raw interference, and continue to install with handle box, rotary force driving head 11 promotes rotating driving force receiver to ajust, but rotary force It receives head 11 can not normally to engage with rotating driving force receiver 203, handle box can not be just installed in place, it may appear that such as Fig. 1 b institutes The case where showing, to which the rotary drive head 11 that cannot achieve as shown in Figure 2 is engaged with the normal of rotating driving force receiver 203.

Invention content

The present invention provides a kind of rotary force drive component, and installation interference is susceptible to solve existing rotary force drive component The technical issues of.

In order to solve the above technical problem, the technical solution that the present invention takes is：

For being engaged with the rotary force driving head in electronic imaging apparatus to transmit a kind of rotation power drive of rotary driving force Component, including photosensitive element wheel hub, drive the rotary power receiving part of the photosensitive element hub rotation and be located at the sense The side plate of optical element wheel hub one end, further include both ends can respectively with the photosensitive element wheel hub and be set on the side plate and with The axis offset adjustment mechanism for the rotary power receiving part that the side plate can slide relatively；The rotary power receiving part axis Line skew adjustment mechanism is connect with the rotary power receiving part, and electronic imaging dress is not loaded into the rotary force drive component When before setting not by outer force effect, the inclined adjustment mechanism of axis makes the rotary power receiving part axis relative to described photosensitive Element hub axis parallel offset；And after the rotary force drive component is packed into electronic imaging apparatus and is installed in place, institute State axis offset adjustment mechanism by outer force effect opposite side plate sliding make the rotary power receiving part axis with it is described photosensitive Element hub axis overlaps, and the rotary power receiving part is made to be stretched out and the rotation along photosensitive element hub axis direction Power drive head engages.

The driving component further includes intermediate power transferring element, the intermediate power transferring element and the rotary power Receiving part and the photosensitive element wheel hub are intermeshed passing power.

The axis offset adjustment mechanism includes sliding part and the first elastic element；The sliding part and the rotation are dynamic Power receiving part connects, and first elastic element is abutted respectively at the side plate and sliding part；The rotary force drive component When being not loaded into before electronic imaging apparatus not by outer force effect, first elastic element makes the sliding part relative to described photosensitive The axis parallel offset of element wheel hub；After being packed into electronic imaging apparatus, the sliding part is by the outer force effect relative to institute Side plate is stated to slide and the rotary power receiving part is made to stretch out and the rotation power drive along photosensitive element hub axis direction Head engagement.

Sliding rail is provided on the side plate, the sliding part is connect by the sliding rail with the side plate, the sliding part On be provided with the matched handle end of the sliding rail, be provided with the placement for placing first elastic element in the handle end Slot.

The intermediate power transferring element includes that first end spherical part, the second end spherical part and centre connect Socket part point, the first end spherical part be provided with the first power transfer part that can be engaged with the photosensitive element wheel hub with And the second end spherical part is provided with the second power transfer part that can be engaged with the rotary power receiving part.

The radial direction of first power transfer part and the second power transfer part along the intermediate power transferring element Direction is stretched out；It is provided with multiple force columns in the photosensitive element wheel hub inner circle circumferential direction；In the rotary power receiving part Portion is hollow, and multiple forced sections are provided in inner circle circumferential direction inside the rotary power receiving part；First power Transmitting portions are set in the gap between force column, and described second power transfering part part is set to the gap between forced section In.

The rotary power receiving part further includes claw, column part and projection section, the claw and the electricity Rotary force driving head in sub- imaging device is engaged to receive power, and the projection section is preventing rotary power receiving part Abjection；Being additionally provided with to match to merge with the rotary power receiving part on the sliding part can drive rotary power receiving part to move Dynamic endoporus, the endoporus coordinate with the column part in rotary power receiving part, and the column part can be relative to endoporus It slides axially.

Further include the second elastic element being set between the intermediate power transferring element and photosensitive element wheel hub, it is described Intermediate power transferring element is arranged in the photosensitive element wheel hub, and the sliding part includes endoporus, and the rotary power receives Component one end is column part, the inner hole of the column part and the sliding part.

Boss face, second elastic element one end and intermediate power are set on the intermediate power transferring element excircle The boss face of transferring element abuts, and the other end is abutted with the inside of photosensitive element wheel hub.

The sliding part has bottom surface, and the bottom surface abuts with the end face of the intermediate power transferring element, when abutting Intermediate power transferring element is set to be in retracted state.

The sliding part is provided with inclined-plane, and the inclined-plane is connected to the one end of the intermediate power transferring element, described It inclined-plane can opposite sliding with the intermediate power transferring element.

The photosensitive element hub interior is provided with the non-circular pin of protrusion；The intermediate power transferring element is provided with With the non-circular endoporus of the non-circular pin cooperation.

Multiple protruding portion point, the cylinder of the rotary power receiving part are provided on the intermediate transfer member inner circumferential Being provided on partial excircle can be with the intermeshing multiple protruded stigma part of the multiple protrusion.

The rotary power receiving part further includes power reception part, projection section, the connection power reception part With the neck of projection section, the end face of the boss is abutted with the sliding part to limit the axial direction of rotary power receiving part Position.

Further include third elastic element, third elastic element one end is fixed on sliding part, other end card Tightly on the neck of rotary power receiving part.

Further include the second elastic element being arranged between the intermediate power transferring element and photosensitive element wheel hub, it is described Intermediate power transferring element is arranged in the photosensitive element wheel hub, and the sliding part is provided with bottom surface and endoporus, the rotation Power reception component is arranged with the inner hole and can slide axially relative to endoporus, and the bottom surface is passed with the intermediate power Component abutting is passed, when abutting makes the intermediate power transferring element be in retracted state.

The intermediate power transferring element includes intermediate connector, end coupling and bolt, the end coupling The end set hole of one end, the bolt are connect with end coupling to be passed to intermediate power by the hole of end coupling end It passs component and carries out axial limiting, orthogonal limit guide rail is respectively set and by described two in the both ends of the intermediate connector The limit guide rail at end carries out limit with the end coupling and rotational power transfer member and is slidably connected respectively.

Second elastic element one end is abutted with the bottom of photosensitive element wheel hub, and the other end is supported with the end coupling It connects.

The sliding part is additionally provided with inclined-plane, and the inclined-plane is abutted with the intermediate connector, and the intermediate connector can It is slided relative to the inclined-plane.

The limit guide rail is that either key and the part that the limit guide rail coordinates are key or slot to slot.

The photosensitive element hub interior is provided with cavity, and non-circular hole is offered on bottom, and the end coupling leans on The end set of nearly bolt one end has the non-circular column engaged with the square hole.

The sliding rail is sliding slot, further includes compressing member, and the compressing member is by sliding part handle end and the first elastic element It is limited in the sliding slot of side plate.

The sliding part further includes end face, and the external force acts on the end face, and the sliding part is made to slide, the cunning Compress first elastic element during slide.

The distance of end face of the axis of the rotary power receiving part to the sliding part and the electronic imaging apparatus In rotary force driving head axis to the outer point of force application apart from equal.

A kind of handle box for being suitable for electronic imaging apparatus and detachably being installed with the electronic imaging apparatus, including along institute State handle box longitudinal direction setting photosensitive element, further include be installed on described photosensitive element one end and for the electronics at As the rotary force driving head engagement passing power of device gives the rotary force drive component of the photosensitive element, characterized in that described Rotary force drive component is any rotary force drive component described in claim 1-24.

After using above-mentioned technical proposal, increase both ends can respectively with photosensitive element wheel hub and rotary power receiving part The intermediate power transferring element of part engagement, be set on side plate and with side plate can opposite sliding sliding part and respectively with side plate The first elastic element abutted with sliding part, rotary power receiving part and sliding part coordinate, sliding part be not loaded into electronics at As not made rotary power receiving part axis and photosensitive member by the effect of the elastic force of the first elastic element by when outer force effect before device Part hub axis parallel offset, sliding part overcome the bullet of the first elastic element when after being packed into electronic imaging apparatus by outer force effect Force effect, which makes sliding part slide into rotary power receiving part axis and be overlapped with photosensitive element hub axis, makes intermediate power transmit Component both ends are engaged with photosensitive element wheel hub and rotary power receiving part respectively, and make the rotary power receiving part along sense Optical element hub axis direction, which is stretched out, engages with the rotary force driving head to drive photosensitive element wheel hub to rotate..Pass through cunning The sliding of moving part drives rotary power receiving part to be moved to rotary power receiving part axis and photosensitive element in lateral plates Just the fully extended rotary force driving head in electronic imaging apparatus engages biography to rotary power receiving part when hub axis overlaps Rotary driving force is passed, therefore, will not be interfered during the installation process, existing rotary force drive component is solved and is susceptible to dress The technical issues of machine is interfered.

Description of the drawings

Fig. 1 a show the structural schematic diagram of the prior art.

Fig. 1 b show the schematic diagram interfered in the prior art.

The power transfer mechanism that Fig. 2 show the prior art realizes the schematic diagram engaged.

Fig. 3 show the three-dimensional view of the handle box of the present invention.

Fig. 4 show the phantom of the handle box of the present invention.

Fig. 5 show the assembling schematic diagram of the embodiment of the present invention one.

Fig. 6 show the power transfer part three-dimensional view of the embodiment of the present invention one.

The drive component that Fig. 7 show embodiment one is in the three-dimensional view of original state.

Fig. 8 show the cross section view of Fig. 7.

Fig. 9 show the in running order three-dimensional view of drive component of embodiment one.

Figure 10 show the cross section view of Fig. 9.

Figure 11 a show one handle box installation process schematic diagram of embodiment.

Figure 11 b show one handle box installation process schematic diagram of embodiment.

Figure 11 c show the schematic diagram that one handle box of embodiment is installed in place.

Figure 12 a show one process cartridge disassembling process schematic of embodiment.

Figure 12 b show one process cartridge disassembling process schematic of embodiment.

Figure 12 c show one process cartridge disassembling process schematic of embodiment.

Figure 13 show the cross section view of the embodiment of the present invention two.

Figure 14 show the power transfer part of embodiment two topology view Figure 15 show embodiment two power pass Pass the cross-sectional view of part engagement.

.Figure 16 a show two handle box installation process schematic diagram of embodiment.

Figure 16 b show two handle box installation process schematic diagram of embodiment.

Figure 16 c show two handle box of embodiment and are installed in place schematic diagram.

Figure 17 a show two process cartridge disassembling process schematic of embodiment.

Figure 17 b show two process cartridge disassembling process schematic of embodiment.

Figure 17 c show two process cartridge disassembling process schematic of embodiment.

Figure 18 show the cross section view of the embodiment of the present invention three.

Figure 19 show the topology view of the power transfer part of embodiment three.

Figure 20 a show three handle box installation process schematic diagram of embodiment.

Figure 20 b show three handle box installation process schematic diagram of embodiment.

Figure 20 c show three handle box of embodiment and are installed in place schematic diagram.

Figure 21 a show three process cartridge disassembling process schematic of embodiment.

Figure 21 b show three process cartridge disassembling process schematic of embodiment.

Figure 21 c show three process cartridge disassembling process schematic of embodiment.

Specific implementation mode

Technical scheme of the present invention is illustrated with reference to embodiment.

Embodiment one

Fig. 3 to Figure 12 show the specific embodiment of the present embodiment one.

Fig. 3 show the three-dimensional view of handle box 2, and 21 be that the rotary force being arranged on one end of handle box longitudinal direction drives Dynamic component, the drive component 21 are arranged on one end of photosensitive element.The longitudinal direction of shown handle box 2 is to illustrate X-coordinate Direction, the longitudinal direction due to photosensitive element along the handle box is arranged, therefore the axis direction and X-direction of the photosensitive element In the same direction；Y-direction is the other direction vertical with X-direction, and handle box is as installed to in this programme the mistake of electronic imaging apparatus The installation direction of handle box in journey；Z-direction is the direction vertical with X-direction, Y-direction.

Fig. 4 is the phantom of the handle box of the axis L1 direction cuttings along the photosensitive element, can be clearly illustrated Facilities of the driving component 21 in handle box 2.As shown, 211 be the longitudinal direction setting along the handle box Photosensitive element in handle box 2；212 be the photosensitive element wheel hub being arranged on described photosensitive element one end, the photosensitive member Be provided with the helical gear to passing power on part wheel hub excircle, inside has a cavity, the photosensitive element with it is described photosensitive Element wheel hub is relatively fixed connection, and is coaxially disposed；213 be the intermediate power transferring element of the drive component of the present embodiment, 214 be the rotary power receiving part for engaging passing power with the rotary force driving head being arranged in electronic imaging apparatus； Wherein 213 one end of intermediate power transferring element be arranged in the cavity of the photosensitive element wheel hub and with the photosensitive element wheel hub 212 engagement passing powers, the other end engage passing power with the rotary power receiving part 214；215 be to be arranged in the sense Side plate on one end of optical element wheel hub 212,216 be the sliding that is arranged on side plate and can be slided relative to the side plate 215 Part；217 be the first elastic element that the sliding part 216 can be made to restore reset condition.

After the rotary power receiving part 214 is engaged with the rotary force driving head 11 in electronic imaging apparatus, by power The photosensitive element wheel hub 212 is passed to by the intermediate power transferring element 213, to drive the photosensitive element 211 Rotation.

The driving component in the present invention includes photosensitive element wheel hub, intermediate power transferring element, rotary power reception Component, side plate and axis offset adjustment mechanism；The axis offset adjustment mechanism be set on the side plate and with the side Plate opposite can slide, and the axis offset adjustment mechanism includes the sliding part and the first elastic element.

Fig. 5 is the assembly decomposition view of the drive component 21 of the present embodiment.Photosensitive element wheel hub 212 is arranged in photosensitive element On 211 end, 213 one end of intermediate power transferring element is connect with the photosensitive element wheel hub 212, the other end and the rotation Power reception component 214 connects；Rotary power receiving part 214 have receive the claw 2141 of power, column part 2142 with And projection section 2143, the projection section to prevent rotary power receiving part 214 deviate from；Side plate 215 is set to described One end of photosensitive element wheel hub 212 there is sliding rail 2151, sliding part 216 are set to thereon on the side plate 215,215 phase of side plate Photosensitive element wheel hub 212 is not moved；Sliding part 216 has the handle end 2161 coordinated with the sliding rail 2151, handle end It is additionally provided with the placing groove 2162 of the first elastic element 217 on 2161, is additionally provided on sliding part 216 and is connect with the rotary power The endoporus 2163 received component 214 to coordinate, and rotary power receiving part 214 can be driven to move, endoporus 2163 connect with rotary power The column part 2142 received on component coordinates, and the column part 2142 can be carried out relative to endoporus 2163 along photosensitive element axial direction It slides in direction；Sliding part handle end 2161 and the first elastic element 217 are also limited in side by the present embodiment by compressing member 218 In the sliding rail 2151 of plate 215, compressing member 218 is relatively fixed on setting or side plate 215 with side plate 215 and is provided with pressing section； The sliding rail can be arranged to sliding slot, can also be key, and the sliding slot to match is accordingly arranged on sliding part 215, makes sliding part 216 can slide relative to side plate 215.

Fig. 6 is for illustrating intermediate power transferring element 213 and photosensitive element wheel hub 212 and rotary power receiving part Connection relation between part 214.As shown in fig. 6, being provided with multiple force columns in 212 inner circle circumferential direction of photosensitive element wheel hub 2121；Intermediate power transferring element 213 include first end spherical part 2131, the second end spherical part 2133 and in Between coupling part 2132, is wherein respectively arranged on first end spherical part 2131 and the second end spherical part 2133 One power transfer part 21311 and the second power transfer part 21331, the power transfer part 21311 and 21331 edges The radial direction of the intermediate power transferring element 213 is stretched out；214 inside of rotary power receiving part is hollow, on end Be provided with receive power and symmetrically arranged claw 2141 in a circumferential direction, inside be provided in inner circle circumferential direction it is more A forced section 2144；Power transfer part 21311 is set in the gap between force column 2121, power transfering part part 21331 It is set in the gap between forced section 2144；Intermediate power transferring element 213 is limited in photosensitive element wheel hub 212 and rotation Between rotatory force receiving part 214；Since two ends of intermediate power transferring element 213 are spherical part, intermediate power passes Passing component 213 can occur arbitrarily relative to the axis of photosensitive element wheel hub 212 and the axis of rotary power receiving part 214 The beat of angle；First power transfer part 21311 engages passing power with force column 2121, and second power transmits Passing power is engaged with forced section 2144 in part 21331.

Fig. 7 to Figure 10 respectively describes the two states residing for drive component.Fig. 7 is the original state residing for drive component Three-dimensional view, Fig. 8 be Fig. 7 sectional view.When handle box is before being installed to electronic imaging apparatus, drive component is in such as Fig. 7 With state shown in Fig. 8；After handle box is installed in place, drive component is in state as shown in Figure 9 and Figure 10（Work shape State）.Before handle box installation, under the action of the natural elongation of the first elastic element 217, made by the first elastic element 217 Sliding part 216 is maintained at original state, the i.e. shape that the axis L3 of sliding part 216 and photosensitive element hub axis L1 shifts State, and rotary power receiving part 214 is maintained in endoporus 2163, at the same the axis of rotary power receiving part 214 with The axis L3 of sliding part 216 is coaxial, and rotary power receiving part 214 is also as sliding part 216 is relative to photosensitive element wheel at this time The axis L1 of hub shifts, i.e. axis L1 is misaligned with axis L3 but relatively parallel；Due to 213 quilt of intermediate power transferring element It is limited between photosensitive element wheel hub 212 and power transmission member 214, and there is mutually matched relationship with the two, work as rotation When rotatory force receiving part 214 is in initial position shown in Fig. 8, rotary power receiving part 214 drives intermediate power to be transmitted Axis L1 run-off the straight of the component 213 relative to photosensitive element wheel hub, while also relative to the axis of rotary power receiving part 214 Line L3 run-off the straights.At this point, drive component is in original state, the axis L2 of intermediate power transferring element 213 is relative to photosensitive The axis L1 of element wheel hub and the axis L3 run-off the straights of rotary power receiving part 214, i.e., equal shape between L2 and L1, L2 and L3 At there is angle.During handle box is installed to electronic imaging apparatus, negative side of the sliding part 216 along handle box installation direction It is acted on to by an external force F, power F makes sliding by overcoming the elastic force of the first elastic element 217 by driving sliding part 216 Part 216 is slided along the negative direction in handle box installation direction in sliding rail 2151；At this point, rotary power receiving part 214 also with It sliding part 216 to be moved, and intermediate power transferring element 213 is driven gradually to ajust（Folder i.e. between L2 and L1, L2 and L3 Angle angle tapers into）, and the one end engaged with the rotary power receiving part on intermediate power transferring element 213 is to institute It is close to state rotary power receiving part；Finally, after handle box is installed in place, external force F overcomes the bullet of the first elastic element 217 Property power simultaneously makes its compression so that intermediate power transferring element 213, rotary power receiving part 214 and sliding part 216 are maintained at State as shown in Figure 9 and Figure 10, the i.e. working condition of drive component；At this point, the axis L2 of intermediate power transferring element, rotation Power reception component L3 and the axis L1 of photosensitive element wheel hub are coaxial.Meanwhile handle box installation is from original state to working condition This during, intermediate power transferring element 213 is ajusted from tilting to, and makes rotary power receiving part 214 in handle box There is certain displacement, you can rotary power receiving part 214 is made to be carried out on the longitudinal direction of handle box on longitudinal direction It stretches out.

Figure 11 a to Figure 11 c show handle box and are installed to drive component in electronic imaging apparatus to be nibbled with rotary force driving head The process schematic of conjunction.As shown in fig. 11a, 11 be the rotary force driving head being arranged in electronic imaging apparatus, and 13 be driving rotation Turn the driving gear of the rotation of power drive head 11,12 be the right side wall of electronic imaging apparatus, and 14 be electronic imaging apparatus rear wall, Middle rotary force driving head 11 and driving gear 13 are all disposed on the right side wall 12 of electronic imaging apparatus, and 141 is on rear walls 14 The medial surface opposite with the installation direction of handle box.Figure 11 a show handle box before installation, the initial shape residing for drive component State, intermediate power transferring element 213 is relative to the axis L1 of photosensitive element wheel hub and the axis of rotary power receiving part 214 The axis L3 of L3 run-off the straights, rotary power receiving part 214 shifts relative to the axis L1 of photosensitive element wheel hub, and First elastic element 217 is in nature elongation state and sliding part 216 is made to be maintained at original state, at this time rotary power receiving part Part 214 is in retracted state.When handle box edge, diagram Y-direction is installed, and is gradually leaned on to electronic imaging apparatus medial surface 141 Closely, since rotary power receiving part 214 is constantly in retracted state, in handle box installation process, rotary power receiving part 214 will not generate interference with rotary force driving head 11；The installation of box is continued with, the end face 2161 of sliding part 216 is touched first To the medial surface 141 of electronic imaging apparatus, medial surface 141 just generates sliding part 161 effect of a power F, the effect side of power F To the installation direction Y-direction with handle box on the contrary, as shown in figure 11b, rotary power receiving part 214 and rotation power drive at this time First 11 is coaxial, but still fails to be intermeshed, and between each other there is no interference, rotary power receiving part is in retraction shape State；Handle box continues to install, and power F promotes sliding part 216 to be slided relative to photosensitive element 211 along the negative direction of Y-direction, and passes through Rotary power receiving part 214 drives intermediate power transferring element 213 gradually to ajust, and intermediate power transferring element 213 is being ajusted During promote rotary power receiving part 214 along handle box longitudinal direction stretch out, i.e., X-direction as shown in fig. 11c.Figure 11c show the state that handle box is installed in place, i.e. handle box is in running order, at this time rotary power receiving part 214 with Rotary force driving head 11 realizes engagement, rotary force driving head 11, rotary power receiving part 214, intermediate power transferring element 213 It is all coaxial with the axis L1 of photosensitive element wheel hub.When starting electronic imaging apparatus, the driving rotation driving of gear 13 rotates power drive First 11 rotation, to be passed power by rotary power receiving element 214, intermediate transfer component 213 and photosensitive element wheel hub 212 Photosensitive element is passed, photosensitive element is made to rotate.

Figure 12 a to Figure 12 c show by handle box from electronic imaging apparatus disassemble during drive component with rotation Turn the process schematic that power drive head is disengaged from.As figure 12 a shows, by handle box from electronic imaging apparatus along and installation side To（Y-direction）Opposite direction（I.e. along the directions diagram Y '）It disassembles.In the gradual disassembly process of handle box, due to power F Gradually revocation, the direction of elastic-restoring force and the direction of process cartridge disassembling that the first elastic element 217 generates are on the contrary, the first elasticity The elastic-restoring force that element 217 generates acts on sliding part 216, to make intermediate power transferring element 213 that beat occur, such as schemes Shown in 12b, while restoring force possessed by elastic element makes sliding part 216 in sliding rail 2151 along the anti-of process cartridge disassembling direction Direction is slided, then by driving the negative side of rotary power receiving part 214 in X direction when intermediate power transferring element generation beat To（Illustrate the directions X '）It retracts, and is disengaged from rotary force driving head 11, directed force F, which gradually weakens, even to disappear；Continue Demounting process cartridge, handle box are completely disengaged with electronic imaging apparatus and are contacted, as shown in fig. 12 c.

Mode by the implementation of the present embodiment, can make handle box during being installed to electronic imaging apparatus not with rotation The life of power drive hair interferes；During the installation or removal of handle box, the end face of sliding part still with electronic imaging During the medial surface of device is kept in contact, rotary power receiving part 214 is relative to rotary force driving head 11 in handle box Installation direction on do not relatively move；Only rotary power receiving part 214 relative to rotary force driving head 11 in the axial direction It relatively moves, and is engaged with or is disengaged from, to keep handle box installation smooth.

Embodiment two

Figure 13 to Figure 17 show the embodiment of the present invention two.

Figure 13 show the assembled view of the drive component 22 of embodiment two, and 222 be photosensitive element wheel hub, has axis L1 is internally provided with the non-circular pin 2221 of protrusion；223 be intermediate power transferring element, have axis L2, axis L2 with Axis L1 is coaxial, and also there is non-circular endoporus 2231, end set to have multiple protruding portion point 2232, boss face is arranged on excircle 2233；Intermediate power transferring element 223 is arranged in photosensitive element wheel hub 222, and passes through endoporus 2231 and photosensitive element wheel hub Interior pin 2221 coordinates passing power；The second bullet is provided between intermediate power transferring element 223 and photosensitive element wheel hub 222 Property element 228,228 one end of the second elastic element abuts with the boss face 2233 of intermediate power transferring element 223, the other end and sense The inside of optical element wheel hub 222 abuts；Side plate 225 is set to one end of photosensitive element wheel hub 222, and opposite with handle box shell Fixed setting；Sliding part 226 is arranged on side plate 225, sliding slot is provided on side plate 225, facilities such as embodiment is one by one Sample, sliding part 226 have endoporus 2262, and the first elastic element 227, the first elasticity are arranged between sliding part 226 and side plate 225 227 one end of element is abutted with sliding part 226, and the other end is abutted with side plate 225, and the first elastic element 227 acts on sliding part 226 And it is at the original state to shift relative to the axis L1 of photosensitive element wheel hub；On the inner bottom surface of sliding part 226 also It is provided with inclined-plane 2263 and bottom surface 2264, inclined-plane 2263 can act on intermediate power under the action of the first elastic element 227 The end of transferring element 223 makes it generate axial movement, and bottom surface 2264 can make intermediate power transferring element 223 be maintained at retraction State；224 be the rotary power receiving part that passing power is engaged with the rotary force driving head being arranged in electronic imaging apparatus, With axis L3, one end is power reception part, is provided with the claw that passing power can be engaged with rotary force driving head 2241, boss 2242 is set on excircle, boss 2242 for being abutted with the end face of sliding part 226, connect boss 2242 and The neck 2244 of power reception part, the other end are column part 2243, the endoporus 2262 of column part 2243 and sliding part 226 Coordinate, multiple protruded stigma parts 2245 are provided on the circumferencial direction of column part column part（As shown in figure 14）；229 be one end It is fixed on sliding part 226, the other end is stuck in the elasticity member of the third on the neck 2244 of rotary power receiving part 224 Part.

Figure 14, which is shown between intermediate transfer component 223 and rotary power receiving part 224, engages the specific of passing power Topology view.As shown, being provided with multiple protruding portion point 2232 on 223 inner periphery of intermediate transfer component, correspondingly, rotating Multiple protruded stigma parts 2245 are provided on the excircle of power reception component 224；When intermediate transferring element 223 connects with rotary power When receiving the engagement of component 224, protrusion 2232 is intermeshed with protruded stigma part 2245, it can be achieved that mutual power transmits.Figure 15 show the cross-sectional view of engaging portion when intermediate transfer component 223 is engaged with rotary power receiving part 224.

Be described below in detail by using the handle box of the drive component of the present embodiment two be installed to electronic imaging apparatus and The process dismantled from electronic imaging apparatus.

Figure 16 a to Figure 16 c show handle box and are installed to drive component in electronic imaging apparatus to be nibbled with rotary force driving head The process schematic of conjunction.Figure 16 a show the drive component 22 and are mounted on regarding for original state residing on handle box 2 Figure, intermediate power transferring element 223 are maintained at retracted state under the action of sliding part 226, the second elastic element 228 be in by Compressive state；Under the action of the first elastic element 227 and sliding part 226, rotary power receiving part 224 is maintained at and feels The state of the opposite offsets of the axis L1 of optical element wheel hub.Handle box is installed to along Y-direction in electronic imaging apparatus, sliding part 226 end face 2261 touches the medial surface 141 of electronic imaging apparatus first, at this point, medial surface 141 generates sliding part 226 One and handle box installation direction opposite effect power F, as shown in fig 16b.Continue installation process box, under the action of power F, the One elastic element 227 is gradually compressed, and sliding part 226 overcomes elastic force edge and the handle box installation side of the first elastic element 227 Opposite sliding is carried out in the opposite direction, and drives rotary power receiving part 224 along the side opposite with handle box installation direction To relative movement, and at this point, intermediate power transferring element with the installation of handle box together with handle box to electronic imaging apparatus Medial surface is close, i.e., intermediate power transferring element 223 is relatively moved with rotary power receiving part 224, axis L2 and L3 phases It is mutually close；With the installation of handle box, in sliding process, bottom surface 2264 and the intermediate power of sliding part 226 pass sliding part 226 The end face for passing component 223 progressively disengages contact, work of the intermediate power transferring element 223 in the screen resilience of the second elastic element 228 With the lower longitudinal direction along handle box（Illustrate X-direction）It stretches out.When handle box is installed in place, as shown in figure 16 c, for driving Working condition residing for component 22.Intermediate power transferring element 223 is illustrated in the rebound effect lower edge of the second elastic element 228 X-direction is stretched out, and is engaged with rotary power receiving part 224, and after the two engagement, intermediate power transferring element continues to stretch out, and Rotary power receiving part 224 is promoted to stretch out and be arranged the rotary force driving head 11 in electronic imaging apparatus in X direction together Engagement.At this point, photosensitive element wheel hub 222, intermediate power transferring element 223, rotary power receiving part 224 and rotation power drive First 11 are in coaxial state.After starting electronic imaging apparatus, driving gear 13 drives rotary force driving head 11 to rotate, rotation Turn power drive head and engage by the claw 2241 with rotary power receiving part 224 to impart power to rotary power receiving part 224, by rotary power receiving part 224 and intermediate power transferring element 223 engage and intermediate power transferring element Engaging between 223 and photosensitive element wheel hub, to communicate rotational motion to photosensitive element wheel hub, to reach by photosensitive Element wheel hub 222 drives the purpose of photosensitive element rotation（It is tight fit relationship between photosensitive element wheel hub and photosensitive element, and Coaxially）.

Figure 17 a to Figure 17 c show handle box drive component and rotary force driving head from electronic imaging apparatus dismounting The process schematic being disengaged from.By handle box along the direction opposite with handle box installation direction（Illustrate the directions Y '）Dismounting, As illustrated in fig 17 a.With the dismounting of handle box, the medial surface 141 of electronic imaging apparatus gradually weakens the power F of sliding part 226 It even disappears, sliding part 226 is under the action of the screen resilience of the first elastic element 227 along the side opposite with process cartridge disassembling direction To sliding, inclined-plane 2263 acts on intermediate power transferring element 223, and it is made to bounce back along the directions axis L1, while the second elasticity Element 228 is compressed；It is gradually de- with rotational power transfer member 224 in the retraction process of intermediate power transferring element 223 Intermediate power can be made to pass when the bottom surface of sliding part 226 2264 is abutted with the end face of intermediate power transferring element 223 from engagement Pass the state that component is maintained at retraction；After intermediate power transferring element 223 is disengaged from rotary power receiving part 224, rotation Rotate negative direction of the force transmission member 224 under the action of third elastic element 229 in X direction（Illustrate the directions X '）Retraction, As illustrated in fig. 17b.Continue demounting process cartridge, handle box is completely disengaged with electronic imaging apparatus and contacted, and as shown in fig. 17 c, is realized Processing is separated from electronic imaging.

Embodiment three

Figure 18 to Figure 21 is the embodiment of the present invention three.

Figure 18 show the assembled view of the drive component 23 of embodiment three.232 be to be set to photosensitive element longitudinal direction The photosensitive element wheel hub of one end has axis L1, is internally provided with cavity, is additionally provided with bottom 2321, is offered on bottom Non-circular hole 2322；233 be intermediate power transferring element, have axis L2, be arranged in photosensitive element wheel hub 232, and with sense Optical element wheel hub is coaxial；Intermediate power transferring element 233 includes three parts, respectively intermediate connector 2331, end connection Part 2332 and bolt 2333, bolt can carry out axial limiting to intermediate power transmission member 233；234 receive for rotary power Rotary power receive end is arranged in component thereon, and being provided in rotary power receive end can be with setting in electronic imaging apparatus The claw 2341 of interior rotation power drive head engagement passing power, the other end of rotary power receiving part be column part 2343 simultaneously It is connect with intermediate connector 2331；Side plate 235 is arranged on one end of photosensitive element wheel hub, and sliding is additionally provided on side plate 235 Part 236 is provided with sliding slot, the facilities of sliding part 236 facilities on side plate 235 and embodiment one on side plate 235 Equally；First elastic element 237 be arranged between side plate 235 and sliding part 236, one end is abutted with side plate 235, the other end and Sliding part 236 abuts；Sliding part 236 has end face 2361, endoporus 2362, inner face 2363, inclined-plane 2364 and bottom surface 2365；Rotary power receiving part 234 is disposed through in the endoporus 2362 of sliding part 236, column part 2343 and endoporus 2362 cooperations, rotary power receiving part 234 can be slided relative to endoporus 2362；Under the action of the first elastic element 237, make Sliding part 236 is maintained at the state of offset opposite with the axis L1 of photosensitive element wheel hub 232；Second elastic element, 238 one end with The bottom 2321 of photosensitive element wheel hub 232 abuts, and the end coupling 2332 of the other end and intermediate power transferring element 233 supports It connects；When sliding part 236 is in shift state, bottom surface 2365 is connected to the part on intermediate power transferring element 233, makes Intermediate power transferring element 233 is in confined state generally in retracted state, the second elastic element 238；It is dynamic due to rotating Power receiving part 234 is connect with intermediate connecting part 2331, thus rotary power receiving part 234 is by intermediate connecting part 2331 drawing is also at retracted state.It is the original state residing for drive component 23 shown in Figure 18.

Figure 19 show intermediate power transferring element 233 and the concrete structure of rotary power receiving part 234 and closes with connecting System.Intermediate connector 2331 is provided at both ends with the limit guide rail with position-limiting action, be respectively set to slot 23311 and 23312, two slots are arranged in a mutually vertical manner, and the slot may be configured as T-slot structure；One end of end coupling 2232 is provided with can The key 23322 coordinated with slot 23312, the key mutually should be T-type key, and the other end is provided with non-circular column 23321, non-circular 23321 can coordinate passing power with the non-circular hole 2322 in photosensitive element wheel hub 232, and hole is provided on non-circular column 23321 23323, to place bolt 2333；One end of rotational power transfer member 234 is power reception part, and end set has claw 2341, the other end is provided with the T-type key 2342 that can coordinate with T-slot 23311.Intermediate connector 2331, end coupling 2332 Connection between rotational power transfer member 234 has the function of shaft coupling；It can opposite sliding between T-type key and T-slot；T Type has the function of limit, can prevent from being mutually disengaged between component.

Certainly, T-slot can also be separately positioned on to rotary power receiving part 234 and end coupling in this implementation On 2332, T-type key is set on the both ends of intermediate connecting part 2331 accordingly.

The cooperation of T-slot described above and T-type key, only the preferred embodiment for the present invention, can also be other real Mode is applied, the T-type can be symmetrical, can be asymmetric；Can be plane contact between the keyway can also be that arc surface connects It touches.While cooperation between key and slot needs opposite to slide, there is certain position-limiting action on the axis direction of each component, And can cooperate passing power.

In the present embodiment, with non-circular column for the passing power that cooperates, the non-circular hole is set as non-circular hole Square hole, the non-circular column are set as steering column.

Be described below in detail by using the handle box of the drive component of the present embodiment three be installed to electronic imaging apparatus and The process dismantled from electronic imaging apparatus.

Figure 20 a to Figure 20 c show handle box and are installed to drive component in electronic imaging apparatus to be nibbled with rotary force driving head The process schematic of conjunction.Figure 20 a show the view that drive component 23 is in original state, rotary power receiving part 234 Axis is L3, at this point, axis L3 is inclined relative to the axis L1 of photosensitive element wheel hub and the axis L2 of intermediate power transferring element It moves, handle box is installed along diagram Y-direction, when drive component is in original state, rotary power receiving part 234 is in Retracted state so that when handle box is installed, rotary force does not drive rotary power receiving part 234 in electronic imaging apparatus with setting Dynamic head 11 generates interference.As illustrated in fig. 20,12 be electronic imaging apparatus right side wall, 14 be electronic imaging apparatus rear wall, Rotary force driving head 11 is arranged on right side wall 12, and driving gear 13 is for driving rotary force driving head 11 to rotate.By handle box It is installed along Y-direction, the end face 2361 of sliding part 236 is contacted with the trailing flank of electronic imaging apparatus 141 first, rear wall 14 Just power F is acted to sliding part 236, as shown in fig. 20b.Handle box continues to install, under the action of directed force F so that sliding Moving part 236 is slided along the direction opposite with handle box installation direction, and gradually compresses the first elastic element 237；Work as sliding part To a certain extent, bottom surface 2365 is disengaged with intermediate connector 2331, intermediate power transferring element 233 for 236 movements It is stretched out along the directions axis L1 of photosensitive element wheel hub under the rebound effect of the second elastic element 238, while pushing rotation dynamic Longitudinal direction of the power receiving part 234 along handle box（Illustrate X-direction）It stretches out；After handle box is installed in place, rotation is dynamic The stretching of power receiving part 234 is engaged with the rotary force driving head 11 in electronic imaging apparatus, as shown in Figure 20 c, i.e. drive component It is in running order.After starting electronic imaging apparatus, driving gear 13 drives rotary force driving head 11 to rotate, and drives rotation dynamic Power receiving part 234 rotates, to drive photosensitive element wheel hub 232 to rotate by intermediate power transferring element, finally by sense Optical element wheel hub 232 drives the photosensitive element rotation being arranged in handle box.At this point, photosensitive element 231, photosensitive element wheel hub 232, the axis of intermediate power transferring element 233, rotary power receiving part 234 and rotary force driving head 11 is in substantially same The state of axis.

Figure 21 a to Figure 21 c show handle box drive component and rotary force driving head from electronic imaging apparatus dismounting The process schematic being disengaged from.As shown in fig. 21 a, by handle box along the direction opposite with handle box installation direction（Illustrate The directions Y '）Separate electronic imaging apparatus.With the movement of handle box, rear wall 14 gradually weakens the directed force F of sliding part 236 Even disappear, rebound effect lower edge with process cartridge disassembling direction opposite reversed of the sliding part 236 in the first elastic element 237 It is mobile, and rotary power receiving part 234 is driven to slide, keep rotary power receiving part 234 opposite and intermediate power is transmitted The axis offset of component 233；Meanwhile sliding part 236 is during sliding, inclined-plane 2364 and intermediate power transferring element Part on 233 abuts, and the elastic force that intermediate power transferring element 233 overcomes the second elastic element 238 is promoted to bounce back, while in Between power transmission member 233 drive rotary power receiving part 234 along X ' shown in Figure 21 b during as handle box moves It retracts in direction.As shown in fig. 21b, drive component 23 restPoses, rotary power receiving part 234 and electronic imaging apparatus Rotary force driving head 11 be disengaged from, then handle box is smoothly separated from electronic imaging apparatus, as shown in Figure 21 c.

In scheme in the present invention, if the axis L4 of the rotary force driving head 11 in electronic imaging apparatus is filled to electronic imaging The distance of medial surface 141 in setting is h1, due to rotary power receiving part 214（224 or 234）It is stretched along handle box longitudinal direction Go out and engage passing power with the rotary force driving head 11, for the smooth engagement for ensureing between the two, the rotary power receives The axis L3 of component is to the sliding part 216（226 or 236）End face 2161（2261 or 2361）Distance h2 be configured to H1 is equal, as shown in Figure 11 a and Figure 11 b.The axis L4 of rotary force driving head 11 in the electronic imaging apparatus to electronics at It is distances of the axis L4 to outer directed force F position as the distance of the medial surface 141 in device is h1.

Embodiment through the invention, can make handle box be smoothly installed in electronic imaging apparatus without with electronic imaging The rotary force driving head of device leads to the problem of interference and causes handle box that can not be installed in place.

Claims (25)

1. a kind of rotary force drive component, for being engaged with the rotary force driving head in electronic imaging apparatus to transmit rotation driving Power, including photosensitive element wheel hub, drive the rotary power receiving part of the photosensitive element hub rotation and positioned at described photosensitive The side plate of element wheel hub one end, characterized in that

It further include the axis offset for the rotary power receiving part that is set on the side plate and can be slided relatively with the side plate Adjustment mechanism；

The rotary power receiving part axis offset adjustment mechanism is connect with the rotary power receiving part, in the rotation When power drive component is not loaded into before electronic imaging apparatus not by outer force effect, the inclined adjustment mechanism of axis makes the rotary power Receiving part axis is relative to the photosensitive element hub axis parallel offset；And

After the rotary force drive component is packed into electronic imaging apparatus and is installed in place, the axis offset adjustment mechanism is by outer Force effect makes the rotary power receiving part axis be overlapped with the photosensitive element hub axis with respect to side plate sliding, and makes institute Rotary power receiving part is stated to engage with the rotary force driving head along the stretching of photosensitive element hub axis direction.

2. rotary force drive component as described in claim 1, characterized in that the driving component further includes that intermediate power is transmitted Component, the intermediate power transferring element are passed with the rotary power receiving part and photosensitive element wheel hub intermeshing Graduating power.

3. rotary force drive component as claimed in claim 2, characterized in that the axis offset adjustment mechanism includes sliding part And first elastic element；The sliding part is connect with the rotary power receiving part, first elastic element respectively with The side plate and sliding part abut；When the rotary force drive component is not loaded into before electronic imaging apparatus not by outer force effect, institute State the axis parallel offset that the first elastic element makes the sliding part relative to the photosensitive element wheel hub；It is being packed into electronic imaging After device, the sliding part is slided relative to the side plate by the outer force effect and makes the rotary power receiving part along sense Optical element hub axis direction is stretched out engages with the rotary force driving head.

4. rotary force drive component as claimed in claim 3, characterized in that be provided with sliding rail, the sliding on the side plate Part is connect by the sliding rail with the side plate, be provided on the sliding part with the matched handle end of the sliding rail, it is described The placing groove for placing first elastic element is provided in handle end.

5. rotary force drive component as claimed in claim 4, characterized in that the intermediate power transferring element includes first End ball part, the second end spherical part and middle interconnecting piece point, the first end spherical part is provided with can be with First power transfer part of photosensitive element wheel hub engagement, and be provided with can be with the rotation for the second end spherical part Second power transfer part of rotatory force receiving part engagement.

6. rotary force drive component as claimed in claim 5, characterized in that first power transfer part and second dynamic Power transmitting portions are stretched out along the radial direction of the intermediate power transferring element；It is set in the photosensitive element wheel hub inner circle circumferential direction It is equipped with multiple force columns；It is hollow inside the rotary power receiving part, along inner circle inside the rotary power receiving part Multiple forced sections are provided in circumferential direction；First power transfer part is set in the gap between force column, and described Two power transfering part parts are set in the gap between forced section.

7. rotary force drive component as claimed in claim 6, characterized in that the rotary power receiving part further includes card Pawl, column part and projection section, the claw are engaged with the rotary force driving head in the electronic imaging apparatus to receive Power, the projection section to prevent rotary power receiving part deviate from；It is additionally provided on the sliding part and the rotation Power reception component can drive the endoporus of rotary power receiving part movement, the endoporus and rotary power receiving part with merging On column part cooperation, the column part can slide axially relative to endoporus.

8. rotary force drive component as claimed in claim 4, characterized in that further include being set to the intermediate power transfer part The second elastic element between part and photosensitive element wheel hub, the intermediate power transferring element are arranged in the photosensitive element wheel hub Interior, the sliding part includes endoporus, and rotary power receiving part one end is column part, the column part and the cunning The inner hole of moving part.

9. rotary force drive component as claimed in claim 8, characterized in that set on the intermediate power transferring element excircle Boss face is set, second elastic element one end is abutted with the boss face of intermediate power transferring element, the other end and photosensitive element The inside of wheel hub abuts.

10. rotary force drive component as claimed in claim 9, characterized in that the sliding part have bottom surface, the bottom surface with The end face of the intermediate power transferring element abuts, and when abutting makes intermediate power transferring element be in retracted state.

11. rotary force drive component as claimed in claim 9, characterized in that the sliding part is provided with inclined-plane, the inclined-plane It is connected to the one end of the intermediate power transferring element, the inclined-plane can opposite sliding with the intermediate power transferring element.

12. rotary force drive component as claimed in claim 9, characterized in that the photosensitive element hub interior is provided with convex The non-circular pin risen；The intermediate power transferring element is provided with the non-circular endoporus with the non-circular pin cooperation.

13. rotary force drive component as claimed in claim 8, characterized in that be arranged on the intermediate transfer member inner circumferential There is multiple protruding portion point, being provided on the excircle of the column part of the rotary power receiving part can be with the multiple protrusion The intermeshing multiple protruded stigma parts in part.

14. rotary force drive component as claimed in claim 8, characterized in that the rotary power receiving part further includes moving Power receiving portion, projection section, the neck for connecting the power reception part and projection section, the end face of the boss and institute Sliding part is stated to abut to limit the axial position of rotary power receiving part.

15. rotary force drive component as claimed in claim 14, characterized in that further include third elastic element, the third Elastic element one end is fixed on sliding part, and the other end is clamped on the neck of rotary power receiving part.

16. rotary force drive component as claimed in claim 4, characterized in that further include that setting is transmitted in the intermediate power The second elastic element between component and photosensitive element wheel hub, the intermediate power transferring element are arranged in the photosensitive element wheel In hub, the sliding part is provided with bottom surface and endoporus, and the rotary power receiving part is arranged with the inner hole and can phase It slides axially for endoporus, the bottom surface is abutted with the intermediate power transferring element, and when abutting makes the intermediate power transmit Component is in retracted state.

17. rotary force drive component as claimed in claim 16, characterized in that the intermediate power transferring element includes centre Connector, end coupling and bolt, the end set hole of described end coupling one end, the bolt are connected by end The hole of part end and end coupling are connected to carry out axial limiting to intermediate power transmission member, and the two of the intermediate connector End be respectively set orthogonal limit guide rail and by the limit guide rail at the both ends respectively with the end coupling and rotation Rotation force transmission member carries out limit and is slidably connected.

18. rotary force drive component as claimed in claim 17, characterized in that second elastic element one end and photosensitive member The bottom of part wheel hub abuts, and the other end is abutted with the end coupling.

19. rotary force drive component as claimed in claim 18, characterized in that the sliding part is additionally provided with inclined-plane, described Inclined-plane is abutted with the intermediate connector, and the intermediate connector can be slided relative to the inclined-plane.

20. rotary force drive component as claimed in claim 17, characterized in that the limit guide rail is slot or key, with institute The part for stating limit guide rail cooperation is key or slot.

21. rotary force drive component as claimed in claim 17, characterized in that the photosensitive element hub interior setting is free Chamber offers non-circular hole on bottom, and end set of the end coupling close to bolt one end has to be engaged with non-circular hole Non-circular column.

22. any rotary force drive component as described in claim 4-21, characterized in that the sliding rail is sliding slot, further includes Sliding part handle end and the first elastic element are limited in the sliding slot of side plate by compressing member, the compressing member.

23. rotary force drive component as claimed in claim 22, characterized in that the sliding part further includes end face, described outer Power acts on the end face, and the sliding part is made to slide, and makes the first elastic element pressure in the sliding part sliding process Contracting.

24. rotary force drive component as claimed in claim 23, characterized in that the axis of the rotary power receiving part arrives The axis of rotary force driving head in the distance of the end face of the sliding part and the electronic imaging apparatus is to the outer force effect Point is apart from equal.

25. a kind of handle box for being suitable for electronic imaging apparatus and detachably being installed with the electronic imaging apparatus, including along institute State handle box longitudinal direction setting photosensitive element, further include be installed on described photosensitive element one end and for the electronics at As the rotary force driving head engagement passing power of device gives the rotary force drive component of the photosensitive element, characterized in that described Rotary force drive component is any rotary force drive component described in claim 1-24.