CN108535987A - A method of handle box is dismantled from electronic imaging apparatus - Google Patents

Abstract

This application involves a kind of methods for dismantling handle box from electronic imaging apparatus, the handle box is releasably attached in the electronic imaging apparatus, the handle box includes handle box shell, further include the engaging section being arranged in handle box shell one end, the engaging section can be engaged with the driving unit being arranged in the electronic imaging apparatus to receive rotary power；The method includes, and when the handle box is dismantled from electronic imaging, its disassembly direction is made to form angle with the installation direction that handle box is installed to electronic imaging apparatus.A kind of method for dismantling handle box from electronic imaging apparatus provided herein, to solve the problem of that the power reception unit of the existing handle box handle box after the driving unit close-fitting with electronic imaging apparatus engages cannot successfully take out from electronic imaging apparatus.

Description

A method of handle box is dismantled from electronic imaging apparatus

Technical field

The present invention relates to a kind of handle box more particularly to a kind of methods for dismantling handle box from electronic imaging apparatus.

Background technology

A kind of handle box, the handle box can be removably mounted on electronic imaging apparatus.The electronic imaging apparatus It is interior to be equipped with rotating speed power drive unit.The handle box, which includes at least, to be had developing cell, developer, control powder unit and accommodates above-mentioned The case frame of unit, according further to different types of handle box structure, it is also additional be provided with photosensitive unit, charhing unit with And cleaning unit.The power reception unit of the handle box is axially disposed within one end of handle box along developing cell, by described Power reception unit is transferred to processing with after the driving unit intermeshing in electronic imaging apparatus and then by the driving force of rotation In box, finally the developing cell inside handle box is driven to make its operating, participate in the development work of electronic imaging apparatus.

In existing technologies, electronic imaging apparatus makes before carrying out development work (" printing " that i.e. user often says) User need to install handle box into electronic imaging apparatus, and the power reception unit of handle box need to be with the drive on electronic imaging apparatus Moving cell contact and then is intermeshed.

As shown in Figure 1, handle box C1 is installed along direction X (direction X is substantially vertical with the axial direction of developing cell) into electronics In imaging device (not show), handle box C1 is propped up by the guide rail (F11, F21) on the left and right interior plate in electronic imaging apparatus It holds and enters in electronic imaging apparatus.When handle box C1 is installed along guide rail (F11, F21) into electronic imaging apparatus, such as Fig. 2 institutes Show, be located at the one end handle box C1 power reception unit 100a equally along direction X move so that on electronic imaging apparatus Driving unit 900 contact engagement, due to driving unit 900 is relatively fixed in electronic imaging apparatus (can only be along the axis of itself Line rotates), during power reception unit 100a is moved along direction X and is contacted engagement with driving unit 900, power reception There will be certain probability and driving unit 900 to form constructive interference by the engaging section 110a of unit 100a.Therefore, in the prior art In, when engaging section 110a and driving unit 900 form constructive interference, engaging section 110a by from driving unit 900 Extruding to being retracted axially inward.And when engaging section 110a is continuously moved to 900 almost coaxial of driving unit, engagement Constructive interference between portion 110a and driving unit 900 disappears, and engaging section 110a is i.e. because being located inside power reception unit 100a The elastic acting force of spring protruding contact engagement with driving unit 900.

However, when user needs to take out handle box C1, since the engaging section 110a of power reception unit 100a has existed Close-fitting meshing state, therefore power reception are formed during driving force of the reception from driving unit 900 with driving unit 900 The engaging section 110a of unit 100a can not be retracted and is disengaged from driving unit 900 axially inward.

Therefore, if there are above-mentioned phenomenon, user then cannot successfully take out handle box from electronic imaging apparatus, if User by force takes out handle box from electronic imaging apparatus, then is easy to cause driving unit or the processing of electronic imaging apparatus Abrasion or fracture occur for the power reception unit of box, and driving unit and power reception unit is caused to be difficult to or can not continue steadily Simultaneously passing power is engaged, in this way, therefore electronic imaging apparatus or handle box also cannot continue normal use, subsequent development quality It also can be influenced to different extents.

Invention content

The present invention provides a kind of handle box, with solve the power reception unit of existing handle box with electronic imaging apparatus After the engagement of driving unit close-fitting, the problem of handle box cannot successfully take out from electronic imaging apparatus.

For the technical problem more than solving, the technical solution adopted by the present invention is that：

A kind of handle box, the handle box are removably mounted on electronic imaging apparatus, the handle box include shell and Power reception unit；The power reception unit is located at one end of shell, and the power reception unit includes engaging section, elasticity Part；The engaging section engages with the driving unit in electronic imaging apparatus and receives driving force, and the elastic component applies elasticity and makees Firmly to engaging section；It is characterized in that：

One end of the power reception unit further includes a urgent casting die, and the urgent casting die mesh control portion stretches.

The urgent casting die is inwardly indented by compression and mesh control portion is inwardly indented, the side that the urgent casting die is inwardly indented It is same direction to the direction being inwardly indented with engaging section.

The power reception unit further includes a baffle, and the urgent casting die is equipped with a compression zone, and the compression zone protrudes from The outer surface of baffle.

The compression zone is equipped with curved surface or inclined-plane.

The power reception unit further includes a transfer part, when the engaging section is protruding or is inwardly indented, engaging section Rotary shaft and the concentric rotation axis of transfer part or parallel.

The engaging section is protruding from the baffle；The outer surface that the compression zone protrudes from baffle is the compression zone Protrude from the outer surface of baffle；The compression zone direction outstanding is same direction with the direction that the engaging section stretches out.

The power reception unit further includes a connection piece, the connector connection engaging section and transfer part.

The power reception unit further includes a sliding part, and the sliding part is equipped with oblique sliding surface；The baffle is provided inwardly with Oblique sliding surface；The oblique sliding surface of the baffle is abutted with the oblique sliding surface of sliding part.

From the length direction of the connector, the engaging section can realize translation relative to transfer part.

It looks up from the end face side of the connector, the engaging section can realize translation relative to transfer part.

The rotating speed power of the engaging section be less than elastic component elastic force when, the engaging section can relative to transfer part rotate and Driving force is not transmitted to transfer part.

When the rotating speed power of the engaging section is more than the elastic force of elastic component, the engaging section transmits driving force to transfer part.

The engaging section can along perpendicular to transfer part axially with respect to connector displacement.

The connector can along perpendicular to transfer part axially with respect to transfer part displacement.

The urgent casting die is equipped with a sliding surface, and the baffle is equipped with a sliding surface, the sliding that the urgent casting die passes through surface The sliding surface of face and baffle, which is slidably matched, makes the engaging section rotary shaft of engaging section and rotary shaft of transfer part in flexible or displacement Keep coaxial or parallel.

The connector can swing up and down relative to engaging section.

The power reception unit further includes a (the first back-moving spring, and the (the first back-moving spring makes connector swing shifting Restore to initial position after dynamic.

The power reception unit further includes an anticreep baffle ring, and the anticreep baffle ring is arranged in transfer part, and described first Resetting spring is arranged between anticreep baffle ring and connector.

The power reception unit further includes a pressing plate, and the pressing plate is rotationally connect with baffle, and the pressing plate passes through The compression rotation of one end forces engaging section to be inwardly indented.

The pressing plate is arranged in baffle relative to the installation direction of handle box at front end.

The other end of the handle box shell is equipped with a limit protrusion, and the limit protrusion is for limiting handle box in electronics Axial displacement in imaging device；The limit protrusion be equipped with a guide surface, the guide surface relative to shell surface by Gradually extend outwardly, the guide surface is arranged in limit protrusion relative to the installation direction of handle box at front end.

The guide surface is an inclined surface or arcwall face.

The other end of the handle box shell is equipped with a limit protrusion, and the limit protrusion is for limiting handle box in electronics Axial displacement in imaging device；The limit protrusion can stretch relative to shell.

The handle box shell is equipped with a crawl section, and the crawl section is relative to the power reception being arranged in shell one end Limit protrusion of the unit closer to the shell other end.

The handle box, which has, to be installed the installation direction in electronic imaging apparatus and is taken out from electronic imaging apparatus Removing direction, the installation direction of the handle box and the rotary shaft of the engaging section or transfer part are substantially vertical, the processing The removing direction of box is tilted relative to the rotary shaft of the driving unit.

After using above-mentioned technical proposal, due to being inwardly indented by compeling casting die compression mesh control portion, make handle box When installing electronic imaging apparatus or being taken out from electronic imaging apparatus, engaging section not with the driving in electronic imaging apparatus Unit generates constructive interference, solves the problems, such as that user cannot successfully take out handle box from electronic imaging apparatus.

It should be understood that above general description and following detailed description is merely exemplary, this can not be limited Application.

Description of the drawings

Fig. 1 is schematic diagram when handle box in the prior art is installed into electronic imaging apparatus；

Fig. 2 is when the power reception unit of handle box in the prior art is engaged with the driving unit of electronic imaging apparatus Schematic diagram；

Fig. 3 is the diagrammatic cross-section of the handle box in the present embodiment；

Fig. 4 is the structural schematic diagram of the handle box and its power reception unit in the present embodiment；

Fig. 5 is the structural schematic diagram of the handle box and its power reception unit in the present embodiment one；

Fig. 6 a, Fig. 6 b are the structural schematic diagrams of the engaging section of the power reception unit in the present embodiment one；

Fig. 7 is the structural schematic diagram of the urgent casting die of the power reception unit in the present embodiment one；

Fig. 8 is the structural schematic diagram of the sliding part of the power reception unit in the present embodiment one；

Fig. 9 a, Fig. 9 b are the structural schematic diagrams of the baffle of the power reception unit in the present embodiment one；

Figure 10 a, Figure 10 b are the structural schematic diagrams of the transfer part of the power reception unit in the present embodiment one；

Figure 11 is the diagrammatic cross-section of the power reception unit in the present embodiment one；

Figure 12 a, Figure 12 b are a direction action schematic diagrams of the engaging section of the power reception unit in the present embodiment one；

Figure 13 a, Figure 13 b, Figure 13 c are that the other direction action of the engaging section of the power reception unit in the present embodiment one is shown It is intended to；

Figure 14, Figure 15 are the schematic diagrames when handle box in the present embodiment one is installed into electronic imaging apparatus；

Figure 16 a, Figure 16 b, Figure 16 c are the structural representations of the front end of the power reception unit and guide rail in the present embodiment one Figure；

Figure 17 a, Figure 17 b are the signals that the compression zone of the power reception unit in the present embodiment one is pressurized by the front end of guide rail Figure；

Figure 18 is the schematic diagram that the compression zone of the power reception unit in the present embodiment one is pressurized by the rear end of guide rail；

Figure 19 a, Figure 19 b be the power reception unit in the present embodiment one engaging section stretch out engaged with driving unit show It is intended to；

Figure 20 is the state signal that the engaging section of the power reception unit in the present embodiment one is engaged with driving unit close-fitting Figure；

Figure 21 is the structural schematic diagram of the power reception unit in the present embodiment two；

Figure 22 a, Figure 22 b, Figure 22 c are the structural schematic diagrams of the transfer part in the present embodiment two；

Figure 23 is schematic diagram of the connector in transfer part in the present embodiment two；

Figure 24 is an action schematic diagram of the connector in transfer part in the present embodiment two；

Figure 25 is another action schematic diagram of the connector in transfer part in the present embodiment two；

Figure 26, Figure 27 are action schematic diagram of the connector in transfer part in the present embodiment two；

Figure 28 is the structural schematic diagram of the power reception unit in the present embodiment three；

Figure 29 is the structural schematic diagram of the connector in the present embodiment three；

Figure 30 is the structural schematic diagram of the transfer part in the present embodiment three；

Figure 31 is the diagrammatic cross-section of the power reception unit in the present embodiment three；

Figure 32 a, Figure 32 b, Figure 32 c are the action schematic diagrams when engaging section in the present embodiment three is connect with connector；

Figure 33 is the structural schematic diagram of the power reception unit in the present embodiment four；

Figure 34 a, Figure 34 b are the structural schematic diagrams of the engaging section in the present embodiment four；

Figure 35 a, Figure 35 b are the structural schematic diagrams of the connector and coupling part in the present embodiment four；

Figure 36 a, Figure 36 b are the structural schematic diagrams of the transfer part in the present embodiment four；

Figure 37 a, Figure 37 b are mobile schematic diagram of the engaging section in the present embodiment four relative to transfer part；

Figure 38 is the structural schematic diagram of the power reception unit in the present embodiment five；

Figure 39 is the pressure plate structure schematic diagram in the present embodiment five；

Figure 40 is mobile schematic diagram of the engaging section in the present embodiment five relative to transfer part；

Figure 41 a, Figure 41 b are the process schematics that the handle box in the present embodiment five takes out from electronic imaging apparatus；

Figure 42 is the structural schematic diagram of the power reception unit in the present embodiment six；

Figure 43 a, Figure 43 b are the structural schematic diagrams of the transfer part in the present embodiment six；

Figure 44 is mobile schematic diagram of the engaging section in the present embodiment six relative to transfer part；

Figure 45 a, Figure 45 b, Figure 45 c are the structural schematic diagrams of the limit protrusion in embodiment；

Figure 46 is the installation direction of the handle box in the present embodiment and the schematic diagram of removing direction；

Figure 47 a, Figure 47 b are the structural schematic diagrams of the telescopic limit protrusion in the present embodiment；

Figure 48 is the structural schematic diagram of the crawl section of the handle box in the present embodiment.

The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the application Example, and the principle together with specification for explaining the application.

Specific implementation mode

Below according to description of the drawings embodiment.

In the present invention, the axial direction of handle box is and the rotary shaft almost coaxial of developing cell or parallel.

In the present invention, installation direction of the handle box in electronic imaging apparatus is substantially vertical with axial direction.

In the present invention, the installation direction phase in dismounting (taking-up) direction and handle box of the handle box in electronic imaging apparatus Instead.

(handle box)

As shown in figure 3, for the structural schematic diagram of the handle box C in electronic imaging apparatus (not show).Handle box C includes shell (first shell a and second shell b) and side plate b1, the b2 at shell both ends, charhing unit is contained in first shell a to body 20, cleaning unit 40, photosensitive unit 10 etc. contain developing cell 30, control powder unit 50 and developer in second shell b Deng.

(power reception unit)

Embodiment one

As shown in figure 4, power reception unit 200 is arranged in axial one end of handle box C, connect by the power of handle box C It receives after unit 200 is intermeshed with the driving unit 900 in electronic imaging apparatus and then the driving force of rotation is transferred to processing In box C, finally the developing cell inside handle box C is driven to make its operating, participate in the development work of electronic imaging apparatus.

As shown in Fig. 4 to Figure 10 b, power reception unit 200 is arranged in axial one end of handle box C, power reception unit 200 include baffle 290, engaging section 210, urgent casting die 220, sliding part 230, elastic component 250, transfer part 270, connector 260.It nibbles Conjunction portion 210 is equipped with interconnecting piece 216, is located at what 216 one end of interconnecting piece was used to engage with the driving column 910 of driving unit 900 abutting Protrusion 211, the sliding slot 215 that is located at 216 other end of interconnecting piece are additionally provided with a card slot 218 and a confined planes among interconnecting piece 216 212；It is hollow frame structure to compel casting die 220, and sliding surface 224 is located at the outer surface of urgent casting die 220, and compression zone 221 is located at urgent The upper end of casting die 220, compression zone 221 are equipped with certain curved surface or inclined-plane, compel pressure surface 222 and are located at a pair of urgent casting die 220 inwardly The bottom surface of the strip sliding block 223 of protrusion, limit protrusion 225 are located at the lower end of urgent casting die 220；Sliding part 230 is upper narrow complimentary close The upper surface of trapezium structure, sliding part 230 is the positioning surface 235 contacted with the confined planes 212 of engaging section 210, sliding part 230 side surface is equipped with inclined oblique sliding surface 231 and two sides are equipped with sliding slot 232, and an also through-hole 236 is located at sliding part In 230；It is equipped with a port 299 among baffle 290, inclined oblique sliding surface 291 and vertical cunning are provided inwardly with around port 299 Dynamic face 294, being obliquely installed of the oblique sliding surface 291 make port 299 be the structure of outer narrow inner width on baffle 290 (in such as Fig. 9 b W2 is more than W1), the bottom end for being located at sliding surface 294 is the confined planes 295 with the cooperation limit of the limit protrusion 225 of urgent casting die 220；It passes Portion 270 is passed as cylindrical structure and is internally provided with shrinkage pool 272, the surface of transfer part 270 is equipped with the gear for transmitting driving force The bottom in face 271, shrinkage pool 272 is equipped with bottom surface 275, is additionally provided with limit sliding chutes 273 (a pair) in shrinkage pool 272, limit sliding chutes 273 are Two convex blocks are formed and centre is equipped with sliding slot；Connector 260 is the crank-like structure of center protrusion.

As shown in Fig. 5, Figure 11, the assembly relation between above-mentioned each part is：Compel casting die 220 and passes through built-in strip sliding block 223 coordinate with 232 translation glidings of sliding slot of 230 surface both sides of sliding part；Engaging section 210 passes through sliding part by interconnecting piece 216 230 through-hole 236 and urgent casting die 220, the confined planes 212 of engaging section 210 are connected on the positioning surface 235 of sliding part 230； One buckle, 219 insertion makes engaging section 210 be axially fixed at sliding from the card slot 218 for the engaging section 210 that sliding part 230 stretches out On part 230；Connector 260 passes through the sliding slot 215 of 216 one end of interconnecting piece, and the part of 260 center protrusion of connector is located at sliding slot In 215；Elastic component 250 is placed in the shrinkage pool 272 of transfer part 270, the both ends of connector 260 are placed into transfer part 270 In the limit sliding chutes 273 set, one end of elastic component 250 is resisted against on the bottom surface 275 of shrinkage pool 272, and the other end is resisted against connection At the both ends of part 260.Above-mentioned each part can integrally be fitted into one end of handle box C after working in coordination, transfer part 270 can be straight Connect in handle box C photosensitive unit 10 or coordinate with developing cell 30 and transmit driving force, baffle 290 is covered in sliding part 230 On, the port 299 of engaging section 210 from baffle 290 is protruding, is set in the oblique sliding surface 231 and baffle 290 of sliding part 230 oblique Sliding surface 291 contacts, and 294 vertical sliding motion of sliding surface of the sliding surface 224 and baffle 290 of compeling casting die 220 coordinates, finally will gear Plate 290 is fixed on the at one end of handle box C by modes such as screw, gluing, welding, prevents power reception unit 200 from processing Deviate from box C.

According to above-mentioned, one end of elastic component 250 is resisted against on connector 260 and the both ends of connector 260 are located at limit and slide Make connector 260 that can carry out resilient movement, the engaging section 210 being connect with connector 260 along limit sliding chutes 273 in slot 273 Elastic telescopic movement can be carried out relative to transfer part 270, similarly, since sliding part 230 and engaging section 210 connect, compel casting die 220 make telescopic moving of the sliding part 230 with urgent casting die 220 also with engaging section 210 move together with the connection of sliding part 230 It is dynamic.It is covered on sliding part 230 by baffle 290, since the elastic force that elastic component 250 applies makes the oblique sliding surface of sliding part 230 231 limit protrusions 225 that casting die 220 is abutted, compeled with oblique sliding surface 291 also abut limitation engaging section 210 in power with confined planes 295 Overhang in receiving unit 200, make by elastic acting force engaging section 210 can (direction Y be and development is single along direction Y Axial almost coaxial or the coincidence of member 30 or photosensitive unit 10, substantially vertical with direction X) carry out axial telescopic moving.

As shown in Figure 12 a to Figure 13 c, the engaging section 210 in power reception unit 200 can realize following action process (for ease of understanding action process of the engaging section 210 in transfer part 270, the section components in power reception unit 200 do not go out Show)：(1) engaging section 210 makes engaging section 210 that can carry out axial flexible shifting along direction Y by the elastic acting force of elastic component 250 It is dynamic；(2) as shown in Figure 12b, from the length direction of connector 260, since engaging section 210 passes through sliding slot 215 and connector 260 assembly cooperation, engaging section 210 can slide left and right along the length of connector 260, i.e. engaging section 210 can be relative to Transfer part 270 realizes the translation of certain distance；(3) as shown in Figure 13 a to Figure 13 c, from the end face direction of connector 260 It sees, due to the crank-like structure that connector 260 is center protrusion, and the both ends of connector 260 are placed in sliding slot 273, engagement Portion 210 can be coordinated by the connection of sliding slot 215 and connector 260, be carried out by the crank structure of 260 center protrusion of connector left Right avertence swing it is dynamic, i.e., engaging section 210 can relative to transfer part 270 realize certain distance translation.

It is the structural representation of the both side plate (F10, F20) in electronic imaging apparatus (not show) as shown in Figure 14, Figure 15 Scheme, guide rail (F11, F21) is provided on both side plate (F10, F20), guide rail (F11, F21) is that guiding handle box C is installed into electronics Imaging device, guide rail (F11, F21) are long plate shape structure, and the guide rail F11 of one end side plate F10 is equipped with front end F11a and rear end The driving unit 900 of F11b, electronic imaging apparatus are located near the F11b of rear end.

When handle box C is (square along direction X by the guide rail (F11, F21) of the both side plate (F10, F20) in electronic imaging apparatus To X be with the axial direction of developing cell it is substantially vertical) install into electronic imaging apparatus when, the power reception unit of the one end handle box C 200 enter electronic imaging apparatus also along guide rail F11.As shown in Figure 16 a to Figure 16 c, in the compression zone of power reception unit 200 221 when not being pressurized, and engaging section 210 is made engaging section 210 keep along direction Y stretching out shape by the elastic acting force of elastic component 250 State, the compression zone 221 for compeling casting die 220 protrude from the outer surface of baffle 290, and outer surface is the outer surface of baffle 290, is pressurized The direction that the projected direction in portion 221 is stretched out with engaging section 210 is same direction, with reference to the arrow direction of the Y-direction in figure 16b.When When compression zone 221 on power reception unit 200 is abutted and is pressurized with the front end F11a of guide rail F11, as shown in Figure 17 a and 17b, Compel casting die 220 to move down along direction Y because the compression of compression zone 221 is whole, the sliding surface 224 for compeling casting die 220 is limited in baffle Progress is vertical in 290 sliding surface 294 moves down, and with moving down for urgent casting die 220, the urgent pressure surface 222 for compeling casting die 220 is same When push the sliding slot 232 of sliding part 230 sliding part 230 made vertically to move down, and moving down with sliding part 230, sliding part 230 is same When also push the buckle 219 of engaging section 210 and make engaging section 210 while moving down.In this way, passing through the phase interworking between above-mentioned each component It closes, when the compression of compression zone 221 of power reception unit 200 moves down, the engaging section 210 of power reception unit 200 also hangs down simultaneously It directly moves down, i.e., engaging section 210 can be realized relative to the surface of baffle 290 and is inwardly indented.As illustrated in fig 17 a, when compression zone 221 by When pressure moves, the axial lowermost end of the driving unit 900 in the top and electronic imaging apparatus of engaging section 210 exists centainly Gap value H1, with handle box C along the guide rail (F11, F21) in electronic imaging apparatus towards the further installation of direction X, move The length that the compression zone 221 of power receiving unit 200 is also limited by guide rail F11 makes it be always maintained at pressured state.As shown in figure 18, When handle box C is moved to rear end F11b, keep being inwardly indented the engaging section 210 of state moving and connect also with handle box C Driving unit 900 in nearly electronic imaging apparatus, when handle box C is installed in place, (i.e. handle box C is in electronic imaging apparatus Operating position), the rotary shaft of the engaging section 210 of handle box C and the rotary shaft almost coaxial of driving unit 900, power reception The compression zone 221 of unit 200 also moves the rear of the rear end F11b of guide rail F11 and is no longer pressurized, with reference to figure 19a and figure 19b, the elastic component 250 in power reception unit 200, which discharges, at this time pushes connector 260 on elastic acting force to connector 260 Mobile, connector 260 then pushes engaging section 210 is protruding to be engaged with driving unit 900, as engaging section 210 is to overhanging Go out, matched sliding part 230 and urgent casting die 220 also slide in and out the position to compression.

The driving force of rotation is transferred on connector 260 by last engaging section 210, and connector 260 is supported also by both ends It leans against on stress surface 273a and transfer part 270 is made to rotate, the driving force of rotation is finally transferred in handle box C by transfer part 270.

The action process that above-mentioned handle box C takes out from electronic imaging apparatus can refer to above-mentioned handle box C and install into electricity The action process of sub- imaging device, only need to be by handle box C reverse operatings, in handle box C along guide rail (F11, F21) towards peace When dress side takes out from electronic imaging apparatus in the opposite direction, the compression zone 221 on power reception unit 200 is with processing The movement of box C towards removing direction is abutted with the rear end F11b of guide rail F11 generations, and rear end F11b, which urges compression zone 221, makes it along side Move down and finally drive being inwardly indented for engaging section 210, engaging section 210 can be disengaged from, that is, locate with driving unit 900 to Y The knot that reason box C will not be generated when being taken out from electronic imaging apparatus due to engaging section 210 is engaged with the close-fitting of driving unit 900 Structure interference phenomenon and be difficult to take out, when handle box C takes out from electronic imaging apparatus completely, the front end F11a of guide rail F11 Compression zone 221 no longer on compressing power reception unit 200, therefore compression zone 221 and engaging section 210 are i.e. because of 250 bullet of elastic component Property active force it is protruding, return back to be pressurized before initial position.

In addition, to keep handle box C more smooth, laborsaving when being taken out from electronic imaging apparatus, as shown in figure 20, locating When reason box C completes to take out from electronic imaging apparatus along direction X (removing direction) after development work, driving unit 900 still with The state that engaging section 210 is in close-fitting engagement makes engaging section 210 be difficult to move along removing direction, and transfer part 270 can be relative to Engaging section 210 moves.Therefore when engaging section 210 because close-fitting engagement is in removing direction when being relatively fixed, transfer part 270 The movement of removing direction can make the interior oblique sliding surface 291 set generate oppressive force F2 and oppress to be made on the oblique sliding surface 231 of sliding part 230 Sliding part 230 is inwardly indented, with sliding part 230 be relatively fixed the engaging section 210 of cooperation also with the retraction of sliding part 230 and under It moves, in addition, also lower compression casting die 220 makes urgent casting die 220 be inwardly indented when sliding part 230 is inwardly indented, the cunning of baffle 290 Dynamic face 294 makes the sliding surface 224 for compeling casting die 220 keep vertical slid inward, is coordinated with sliding part 230 by compeling casting die 220, Sliding part 230 and the secure fit of engaging section 210 make engaging section 210 remain upright state when being inwardly indented, in movement The rotary shaft of the rotary shaft with transfer part 270 of engaging section 210 remains almost coaxial or parallel in the process.In this way, passing through gear The compressing of oblique sliding surface 291 of plate 290 finally makes engaging section 210 relative to the table of baffle 290 on the oblique sliding surface 231 of sliding part 230 Inward-facing retraction is disengaged from driving unit 900.

When above-mentioned handle box C takes out from electronic imaging apparatus, pass through 221 quilt of compression zone of power reception unit 200 The rear end F11b of guide rail F11 compress make engaging section 210 be retracted axially inward and the oblique sliding surface 291 of baffle 290 be pressed on sliding Make on the oblique sliding surface 231 of part 230 the common interoperation that engaging section 210 is retracted axially inward make engaging section 210 with driving It is easier to realize after the engagement of 900 close-fitting of unit and be axially disengaging, engaging section 210 is avoided to be produced with driving unit 900 when being disengaged from Raw constructive interference.

Embodiment two

In embodiment two, the engaging section 210 of power reception unit 200, baffle 290, compel casting die 220, elastic component 250, Sliding part 230 waits the associated components in part references embodiment one, no longer repeats here, main distinction point is embodiment two In power reception unit 200 transfer part 280 and connector 217.

As shown in Figure 21 and Figure 22 c, connector 217 is straight-bar structure, and transfer part 280 is cylindrical structure and is internally provided with The surface of shrinkage pool 282, transfer part 280 is equipped with face of gear 281, and 282 bottom of shrinkage pool is equipped with bottom surface 285, stress is equipped in shrinkage pool 282 Column 283 (a pair), force column 283 are to be additionally provided with a concave surface 283a on a convex block and convex block side, and a guide block is additionally provided in shrinkage pool 282 284, for guide block 284 than force column 283 closer to the outer end (shrinkage pool mouth) of transfer part 280, guide block 284 is provided inwardly with a guide surface 284a, guide surface 284a are inclined-plane or cambered surface；It looks up from the end face side of transfer part 280, such as Figure 22 b, force column 283 and guide block Non-overlapping copies on 284 positions, from the side surface direction of transfer part 280, as the top of Figure 22 c, force column 283 are higher than guide block 284 bottom end (shown in H2).

In the power reception unit 200 of embodiment two, the elastic acting force of elastic component 250 is pushed out positioned at engaging section Connector 217 in 210 sliding slot 215 makes force column 283 of the connector 217 higher than transfer part 280 and is not higher than guide block 284, In addition, the end due to the connector 217 coordinated with engaging section 210 is limited not in transfer part 280, in engaging section 210 When the rotary shaft almost coaxial of rotary shaft and transfer part 280, when counterclockwise R is rotated engaging section 210, connector 217 rotate also with the rotation of engaging section 210.

As shown in Figure 23 to Figure 27, the engaging section 210 in power reception unit 200 can realize following action process (for ease of understanding action process of the engaging section 210 in transfer part 280, the section components in power reception unit 200 do not go out Show)：(1) when the rotating speed power of engaging section 210 is less than the elastic force of elastic component 250, such as Figure 24, with the rotation of engaging section 210, Connector 217 is made it higher than force column 283 by the elastic force extrapolation of elastic component 250 and is not higher than guide block 284, connector 217 It is not abutted mutually with force column 283；Since connector 217 is not higher than guide block 284, when the turning with engaging section 210 of connector 217 When moving close to guide block 284 and then being abutted with the guide surface 284a of guide block 284, the connector 217 in rotation is along guide surface 284a Guiding and along sliding slot 215 generation move down and push simultaneously elastic component 250, cross guide block 284 when connector 217 is rotated further When, connector 217 is no longer pressurized, and elastic component 250, which discharges before elastic force extrapolation connector 217 returns back to compression, is higher than force column 283 position；In this way, engaging section 210 rotating speed power be less than elastic component 250 elastic force when, connector 217 can always with It the rotation of engaging section 210 and is not abutted with force column 283, therefore engaging section 210 can be rotated relative to transfer part 280 and not transmitted Driving force is to transfer part 280；(2) when the rotating speed power of engaging section 210 is more than the elastic force of elastic component 250, such as Figure 25, connector 217 as the rotation of engaging section 210 is in turn close to guide block 284 and along the guiding of guide surface 284a and along the generation of sliding slot 215 It moves down, the elastic force of elastic component 250 is more than due to the rotating speed power of engaging section 210 and is less than in the connector 217 of lower shifting state The force column 283 of transfer part 280, therefore connector 217 is abutted directly against force column by under the action of 210 rotating speed power of engaging section On 283, even if making connector 217 by the elastic acting force of elastic component 250 by being resisted against on the concave surface 283a of force column 283 Its connector 217 will not be extrapolated and be detached from force column 283；In this way, engaging section 210 is resisted against stress by connector 217 On column 283 and then the driving force of rotation is transferred in transfer part 280, last transfer part 280 drives handle box C participations and electronics The development work of imaging device；When the rotating speed power of engaging section 210 is less than the elastic force of elastic component 250 or rotating speed power disappears, bullet Property part 250 can extrapolate connector 217 make its return back to be pressurized before be higher than force column 283 position.

By the structure setting of embodiment two, when handle box C being made to have neither part nor lot in the development work with electronic imaging apparatus, processing The engaging section 210 of the power reception unit 200 of box C can rotate relative to transfer part 280 and not transmit driving force to transfer part 280, and the engaging section 210 of power reception unit 200 then transmits when handle box C participates in the development work with electronic imaging apparatus Driving force is to transfer part 280.

In addition, as shown in Figure 22 c, it is equipped with slide guide side 283b on the top of force column 283, slide guide side 283b is preferably bevel edge Or curl, when slide guide side 283b can be such that the compression of engaging section 210 is inwardly indented, the connector 217 being connect with engaging section 210 is moving down When abut on the 283b of slide guide side and be easy to glide, the both ends of connector 217 can avoid when moving down with the top of force column 283 End generates constructive interference to influence the Telescopic of engaging section 210.

Embodiment three

As shown in figure 28, in embodiment three, the baffle 290 of power reception unit 200 compels casting die 220, elastic component

250, the associated components in the part references such as sliding part 230 embodiment one, are not being repeated, main distinction point here It is the engaging section 210, connector 360 and transfer part 380 of the power reception unit 200 in embodiment three.

210 one end of engaging section has abuts the protrusion 211 engaged with the driving column 910 of driving unit 900, and the other end is equipped with length Convex key 214；Bottom surface 385 and length convex key 386 are equipped in transfer part 380；360 one end of connector is equipped with the first long recess 364, separately One end is equipped with the second long recess 366, from the end face of connector 360, the first long recess 364 and the second long recess

366 cross-likes are arranged.Preferably, length convex key 214,386 is oval convex block；First long recess 364, the second long recess 366 be oval recess.

As shown in figure 31, in the power reception unit 200 of embodiment three, the setting of convex key 214 of engaging section 210 is connecting In first groove 364 of part 360, the convex key 386 in transfer part 380 is arranged in the second groove 366 of connector 360, upper After the convex key 214,386 stated coordinates with groove 364,366, connector 360 is between transfer part 380 and engaging section 210.

As shown in Figure 31 and Figure 32 a, it is located in the first groove 364 of connector 360 for the convex key 214 of engaging section 210 At least part of schematic diagram, convex key 214 is arranged in the first groove 364, from the end face of connector 360, Figure 32 a institutes Show, the maximum length W3 of convex key 214 is more than the minimum widith W4 of the first groove 364.Equally, at least part of convex key 386 is set It sets in the second groove 366, the maximum length of convex key 386 is more than the minimum widith of the second groove 366.

As shown in Figure 31 and 32b, since convex key 214 is located in the first groove 364, engaging section 210 can be along perpendicular to biography It passs on the direction of 380 rotary shaft of portion relative to 360 displacement of connector；Similarly, since the second groove 366 connects around convex key 386 Fitting 360 can along on the direction of 380 rotary shaft of transfer part relative to 380 displacement of transfer part.

As shown in Figure 32 c, when engaging section 210 receives the rotation of rotating speed power, at the maximum length of the convex key 214 rotated with It is rotated at abutting to the minimum widith of the first groove 364 and with follower link 360, and the second groove of 360 other end of connector 366 also rotate therewith the convex key 386 abutted at its minimum widith to transfer part 380 and the finally rotation of driving transfer part 380.

In the above embodiments three, engaging section 210, transfer part 380 convex key can also be groove, connector 360 First, second groove can also be convex key.In addition, when convex key 214,386 is in groove 364,366, engaging section 210 or and biography Passing portion 380 needs maintain a certain distance between connector 360, avoids generating engaging section 210 when stretch structure and does It relates to.

Example IV

As shown in figure 33, in example IV, the baffle 290 of power reception unit 200, compel casting die 220, sliding part 230, Engaging section 210 waits the associated components in part references embodiment one, no longer repeats here, main distinction point is example IV In transfer part 280, anticreep baffle ring 240, coupling part 320, multiple connectors 330, (the first back-moving spring 400 and second reset Spring 410, wherein (the first back-moving spring 400 is connector resetting spring, and second back-moving spring 410 is engaging section resetting spring.

As shown in Figure 34 to 37,210 one end of engaging section has abuts the protrusion engaged with the driving column 910 of driving unit 900 211, the other end is equipped with the groove 217 of non-circular cross-section that, it is preferable that the cross section of the present embodiment further groove 217 is rectangle；Connection Be provided on the pedestal 320a of part 320 with 217 corresponding protrusion 320d of the groove of 210 one end of engaging section, in pedestal 320a The other end be additionally provided with groove 320e；On the circumference of the pedestal 320a of be connected by power part 320, also it is evenly provided with more A connector 330, for the groove 320c of connector 330 and pedestal 320a by being hingedly connected together, connector 330 can be around it Hinge joint swings up and down；After connector 330 is installed on pedestal 320a, by the position-limiting action of groove 320c, make institute There is connector 330 to be tilted always towards the side of the axial direction of engaging section 210.It is additionally provided in the shrinkage pool 282 of transfer part 280 Limit sliding chutes 282a (multiple), limit sliding chutes 282a are formed by two convex blocks；Anticreep baffle ring 240 is arranged in the lower section for compeling casting die 220, Diameter of a circle is less than diameter of a circle where the endpoint of 330 free end of connector in anticreep baffle ring 240, and outer diameter of a circle, which is less than, to be passed Pass the diameter of 280 shrinkage pool 282 of portion.

As shown in Figure 37 a, Figure 37 b, 330 one end of connector is hinged on pedestal 320a, and the other end is located at limit sliding chutes In 282a.Second back-moving spring 410, one end of second back-moving spring 410 are provided between coupling part 320 and transfer part 280 It is connected on the bottom surface 285 of shrinkage pool 282, the other end is connected in the groove 320e of the bottoms pedestal 320a；In 240 He of anticreep baffle ring (the first back-moving spring 400 is additionally provided between connector 330,400 one end of (the first back-moving spring is connected on connector 330, separately One end is connected on the lower surface of anticreep baffle ring 240, and connector 330, anti-off-gear are pushed under the action of (the first back-moving spring 400 The upper surface of circle 240 is contacted with the lower surface of urgent casting die 220.

In the power reception unit 200 of example IV, connector 330 is under the action of (the first back-moving spring 400, one End is located in limit sliding chutes 282a, and can be moved along Y-direction in limit sliding chutes 282a, since limit sliding chutes 282a can the company of limitation Fitting 330 is moved along the direction vertical with 280 axial direction of transfer part, when the rotary shaft and transfer part 280 in engaging section 210 Rotary shaft almost coaxial, engaging section 210 rotate, and connector 330 can also be rotated with the rotation of engaging section 210, and be driven Transfer part 280 rotates.

Following action process may be implemented (for ease of understanding engaging section in engaging section 210 in power reception unit 200 210 action process in transfer part 280, the section components in power reception unit 200 such as compel casting die 220, sliding part 230 Do not show)：(1) as shown in Figure 37 a, when engaging section 210 is by outer force effect along Y-direction, engaging section 210 can oppress connection Part 320 and second back-moving spring 410, second back-moving spring 410 can be shunk along Y-direction, make engaging section 210 and transmitting portions 320 move one end distance along Y-direction, correspondingly, connector 330 can slide in limit sliding chutes 282a along Y-direction；When external force disappears When mistake, second back-moving spring 410 pushes coupling part 320 and engaging section 210 along the reverse movement of Y-direction to extreme higher position, phase It answers, connector 330 can also slide in limit sliding chutes 2a along Y-direction；(2) as shown in Figure 37 b, when engaging section 210 is by one When a perpendicular with Y-direction outer force effect, engaging section 210 can drive coupling part 320 and connector 330 in the X direction into Row movement；In order to increase the distance that engaging section 210 moves in X direction as far as possible, connector 330 is arranged to can be around pedestal 320a Rotation structure, connector 330 and pedestal 320a by being hingedly connected together, and multiple connectors 330 uniformly be distributed On the circumference of pedestal 320a.Preferably, connected by connecting line 340 between the connector 330 in the present embodiment and pedestal 320a It connects, as shown in Figure 35 a, connecting line 340 sequentially passes through the connecting hole 320b of the circular hole 330b1 and pedestal 320a of connector 330, will Connector 330 and pedestal 320a handing-over is together, it is preferable that the connecting line 340 of the present embodiment is soft material.

Alternatively, as shown in Figure 35 b, coupling part 320 is divided into the first pontes 321 from the diameter portion of connecting hole 320b With second connecting portion point 322, the first pontes 321 includes the first half of the raised 320d and pedestal 320a of non-circular cross-section that Point, second connecting portion point 322 includes the lower half portion of pedestal 320a, in 322 phases of the first pontes 321 and second connecting portion point On the surface of contact, semi-circular recesses 320e is greater than or equal to along the shortest distance of the radial direction of pedestal 320a, connecting line 340 Maximum radius and least radius between difference.Connector 330 is serially connected by connecting line 340, then by connecting line 340 are installed to and are formed by circular groove by multiple semi-circular recesses 320e, and connector 330 is respectively also mounted to corresponding recessed In slot 320c, finally, the first pontes 321 and second connecting portion point 322 are mounted together.In the present embodiment, first connects Socket part point 321 and second connecting portion point 322 can be mounted together by modes such as buckle, welding or stickups.

It is recessed when connector 330 is in contact as engaging section 210 is moved to 282 inner wall of the shrinkage pool of transfer part 280 The inner wall in hole 282 applies an active force to connector 330, and at this moment connector 330 is rotated along the negative direction of Y-direction, thus into Row evacuation makes the continuation of engaging section 210 move in X direction；After external force disappears, engaging section 210 is along opposite with moving direction before Direction movement, under the action of (the first back-moving spring 400, connector 330 is swung along Y-direction, final to restore to initial position.

Embodiment five

As shown in figure 38, in embodiment five, the part references such as the baffle 290 of power reception unit 200, elastic component 250 Associated components in embodiment one, are no longer repeated here, and main distinction point is pressing plate 292, urgent casting die in embodiment five 220 and transfer part 280.It is different from embodiment one, there is no slide block structure in the present embodiment.

Pressing plate 292 and the movable block 290a on 290 surface of baffle are hinged, and pressing plate 292 can be rotated around movable block 290a, pressure Plate 292 relative to installation direction and the movable block 290a of handle box C be assemblied in baffle 290 at front end.As shown in figure 39, it presses Plate 292 is rotationally hinged by circular hole 292c and the movable block 290a of baffle 290, and one end is to compel laminate section 292a is in contact with the raised 220b on 220 surface of urgent casting die；Preferably, it is the constructive interference for avoiding with baffle 290, this implementation Urgent laminate section 292a is arranged to warp architecture by example.The other end of pressing plate 292 is part in compression 292b.

As shown in figure 40, engaging section 210 is inserted into the circular hole 220a for compeling casting die 220, and compels casting die when circular hole 216a is located at After 220 lower section, by the way that connector 213 to be inserted into the circular hole 216a of engaging section 210, make engaging section 210 and urgent casting die 220 With synthesizing a whole part；280 bottom surface 285 of transfer part is provided with circular hole 286, when engaging section 210 is installed to transfer part 280 Afterwards, the interconnecting piece 216 of engaging section 210 can pass through the positioning of circular hole 286 and the circular hole 220a of urgent casting die 220 across circular hole 286 Effect, keeps engaging section 210 moveable in the y direction；It is additionally provided with limit sliding chutes 282a on the inner wall of transfer part 280, will engage After portion 210 is installed in transfer part 280, the both ends of connector 213 can be located in limit sliding chutes 282a, enable transfer part 280 It is rotated with the rotation of engaging section 210；Between the bottom surface 285 of 280 shrinkage pool 282 of connector 213 and transfer part, it is additionally provided with Spring 215,215 one end of spring are connected on the bottom surface 285 of shrinkage pool, and the other end is connected on connector 213, the meeting pair of spring 215 Connector 213 applies a reversed active force along Y-direction, and connector 213 is made to be resisted against on the lower surface of urgent casting die 220.

The installation process of handle box can refer to embodiment one, and description, the present embodiment and embodiment one is not repeated herein The main distinction is in the process taken out from electronic imaging apparatus with handle box C.

As shown in Figure 41 a, when handle box C is installed in electronic imaging apparatus, the axial direction side of the rotary part of handle box C To with the inner wall of electronic imaging apparatus in substantially vertical；When taking out handle box C from electronic imaging apparatus, as shown in Figure 41 b, Since driving unit 900 is engaged with the close-fitting of engaging section 210, user catches the crawl section b3 among handle box C to pull out, Handle box C will tilt certain angle；At this point, with the inclination of handle box C, the part in compression 292b and inner wall of pressing plate 292 910b is contacted, and inner wall 910b can apply an active force to part in compression 292b, so that pressing plate 292 is rotated around hinge joint, and compel The urgent laminate section 292a lower compressions casting die 220 that the raised 220b of casting die 220 is in contact pushes urgent casting die 220 to move down and then pushes Connector 213 makes engaging section 210 also be moved down along Y-direction, and power reception unit 200 and driving unit 900 are disengaged from；To suitable Handle box C is taken out in the slave electronic imaging apparatus of profit.

Embodiment six

As shown in figure 42, in embodiment six, the baffle 290 of power reception unit 200, compel casting die 220, elastic component 250, Sliding part 230 waits the associated components in part references embodiment one, no longer repeats here, main distinction point is embodiment six In transfer part 280.

As shown in Figure 43 a, Figure 43 b, transmitting portions 280 include gear parts 280a and end cap 280b.Gear parts 280a For through-hole, limit sliding chutes 280a1 is arranged inside, block 280a2 is provided on limit sliding chutes 280a1；End cap 280b include with The matched dome section 280b3 of gear parts 280a, limited block 280b2 and gear parts 280a and end cap 280b are fixed Buckle 282b1 together.

As shown in fig. 43b, the assembly relation of gear parts 280a and end cap 280b are：End cap 280b is provided with buckle The side of 280b1 buckles 280b1 and enters in the opening 280a3 of gear parts 280a from the fit beneath of gear parts 280a, and Extruding by opening 280a3 inner walls makes buckle 280b1 be deformed inward, until end cap 280b is moved to setting position, buckle 280b1 clasps the positioning table 280a4 being arranged on opening 280a3 inner walls, meanwhile, limited block 280b2 and gear parts 280a's Lower surface contacts.

As shown in Figure 42, Figure 44, the assembly relation between each part of power reception unit 200 is：Compel casting die 220 to pass through Built-in strip sliding block 223 and 232 translation gliding of sliding slot of 230 surface both sides of sliding part coordinate；Engaging section 210 passes through interconnecting piece 216 pass through the through-hole 236 and urgent casting die 220 of sliding part 230, the confined planes 212 of engaging section 210 to be connected to sliding part 230 Positioning surface 235 on；One buckle, 219 insertion makes 210 axis of engaging section from the card slot 218 for the engaging section 210 that sliding part 230 stretches out It is fixed on sliding part 230 upwards；By 219 conducts of urgent casting die 220,210 sliding part 230 of engaging section and buckle that installation is complete In one integral installation to the opening 280a3 of gear parts 280a.Connector 260 is filled from the bottom opening of gear parts 280a Enter, and across the sliding slot 215 of engaging section 210, both ends are limited in the limit sliding chutes 280a1 in opening 280a3, by elastic component 250 one end is fixed on the fixed column 280b4 of dome section 280b3, then by end cap 280b from installation coupling part 260 One end is installed on gear parts 281, and is fixed gear parts 280a and end cap 280b by buckling 280b1.

It, can be in reference implementation example one to the relative movement relationship in this present embodiment between engaging portion and transfer part Mobile relationship.

By the structure setting of embodiment six, after so that power reception unit is assembled, limit sliding chutes 280a1's is closed at both ends, Connector can only move in limit sliding chutes, to enable power reception unit to form an entirety.In addition, end cap and gear Partial connection type can also be connect by welding, the modes such as stickup with gear parts.

In the above embodiments one to six, in order to allow user more easily by handle box C from electronic imaging apparatus It takes out, as shown in Figure 41 b, Figure 45 a, Figure 45 b, the other end 500 far from handle box C engaging sections 210 is equipped with a limit protrusion 500a, limit protrusion 500a are supported when handle box C is fitted into electronic imaging apparatus with the side inner wall 910a in electronic imaging apparatus Connect, to limit axial displacements of the handle box C in electronic imaging apparatus, prevent handle box C during development work its nibble Conjunction portion 210 is disengaged from the driving unit 900 on the inner wall 910b of the other side.

A conductive pin 501 conductive with photosensitive unit 10 is equipped in limit protrusion 500a, limit protrusion 500a is equipped with one Guide surface 500a1, guide surface 500a1 gradually extend outwardly relative to the surface of shell of the other end 500 of handle box C, guide surface 500a1 be disposed relative to the installation direction A1 of handle box C at the front end, guide surface 500a1 is preferably one relative to development The axially inclined inclined surface or arcwall face of unit 30 or photosensitive unit 10, as shown in Figure 45 c.As shown in figure 46, as handle box C When being taken out from electronic imaging apparatus, by the setting of guide surface 500a1, limit protrusion 500a and the bearing surface of inner wall 910a subtract It is few, make the handle box C rotations of the rotary shaft of its engaging section 210 or transfer part 280 relative to driving unit 900 during taking-up Axis tilts (between the two with angle of inclination R1) or the installation direction A1 of handle box C is tilted (between the two relative to removing direction A2 With angle of inclination R2).By the relative tilt of handle box C, engaging section 210 generates certain gap sky with driving unit 900 Between, protrusion 211 is disengaged from driving column 910 at this time, and handle box C is then easier to take out from electronic imaging apparatus, at reduction Manage box C constructive interferences of its limit protrusion 500a and inner wall 910a or engaging section 210 and driving unit 900 during taking-up.

In addition, as shown in Figure 47 a and 47b, limit protrusion 500a can also use the flexible knot relative to handle box C shells Structure further includes elastic component 502 and is arranged on the shell of the other end 500 card slot 500a2 with limit protrusion 500a cooperation.Its Assembly relation is：Elastic component 502 is arranged in the shrinkage pool of limit protrusion 500a, and limit protrusion 500a is then installed to card slot It in 500a2, and is fixed in card slot 500a2 by the buckle 500a3 of limit protrusion 500a, limit protrusion 500a is made to pass through elasticity Part 502 stretches relative to the shell of the other end 500 of handle box C.Finally, conductive pin 501 is passed through into limit protrusion 500a, elastic component 502 are inserted into the circular hole in card slot 500a2.Preferably, the elastic component 502 in the present embodiment is spring or bullet Property sponge.Pass through above-mentioned telescopic limit protrusion 500a, when handle box C takes out from electronic imaging apparatus, limit protrusion Abuttings of the 500a in inner wall 910a is inwardly indented the generation constructive interference avoided with inner wall 910a by pressure, and handle box C is made to take It can be tilted relative to installation direction A1 when going out and then convenient for the taking-up of handle box C.

In addition, as shown in figure 48, to make handle box C be more easy to take out and realized in taking-up process from electronic imaging apparatus In relative tilt, the crawl section b3 on handle box C is closer relative to the power reception unit 200 of handle box C shell one ends In the limit protrusion 500a of the handle box C shell other ends.In this way, setting by the deviation handle box C casing centers of crawl section b3 It sets, keeps user more smooth when taking out handle box C from electronic imaging apparatus, handle box C is made to be more prone to make phase Inclined taking-up is acted.

As shown in figure 46, i.e., during the installation and taking-up of above-mentioned handle box C, handle box C is packed into electricity by user When sub- imaging device, the engaging section of handle box C or the rotary shaft of transfer part and the installation direction A1 of handle box C are substantially vertical, And when handle box C takes out from electronic imaging apparatus, due to engaging section 210 and driving unit 900 engage or guide surface 500a1 Setting so that handle box C is tilted, so that the removing direction of handle box C is tilted relative to installation direction or relative to driving unit 900 Rotary shaft tilt.

Above by specific implementation mode, the present invention is described, but the present invention is not limited only to this, is also contemplated by basis The various modifications that the thought of the present invention is done in the range of technical scheme of the present invention.

Claims (17)

1. a kind of method for dismantling handle box from electronic imaging apparatus,

The handle box is releasably attached in the electronic imaging apparatus,

The handle box includes handle box shell, further includes the engaging section being arranged in handle box shell one end, the engaging section It can be engaged with the driving unit being arranged in the electronic imaging apparatus to receive rotary power；

It is characterized in that：

The method includes, and when the handle box is dismantled from electronic imaging, its disassembly direction is made to be installed with by handle box Installation direction to electronic imaging apparatus forms angle.

2. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 1, it is characterised in that：

One end of the handle box shell is equipped with a guide surface, and the guide surface inclines relative to the rotary shaft of the engaging section Tiltedly.

3. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 2, it is characterised in that：Institute The guide surface stated is compared with the longitudinally central line of handle box shell closer to the inside of electronic imaging apparatus, the setting of the guide surface Handle box can be made in dismounting, the area that the end face for reducing handle box is contacted with the side inner wall of electronic imaging apparatus.

4. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 2, it is characterised in that：Institute Limit protrusion is provided on the handle box one end stated, the guide surface is arranged on the limit protrusion.

5. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 2, it is characterised in that：Institute The guide surface stated be disposed relative to the installation direction of handle box at the front end.

6. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 1, it is characterised in that：When When the handle box takes out from electronic imaging apparatus, the axis of the engaging section is opposite with the axis of the driving unit to incline Tiltedly.

7. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 2, it is characterised in that： When handle box is taken out from electronic imaging apparatus, the guide surface is contacted with the side inner wall of the electronic imaging apparatus makes institute The rotary shaft for stating the inclination of handle box shell and the engaging section is tilted relative to the rotary shaft of the driving unit.

8. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 1, it is characterised in that：Institute It includes limit protrusion to state handle box, and the limit protrusion is arranged in the side of handle box shell, and the limit protrusion can be opposite Flexible in handle box shell, when handle box takes out from electronic imaging apparatus, the limit protrusion is in electronic imaging apparatus Being inwardly indented under the compressing of side inner wall makes handle box be tilted relative to installation direction when taking out.

9. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 8, it is characterised in that：Institute It states and is equipped with elastic component between limit protrusion and handle box shell.

10. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 2 or 4 or 8, feature It is：Crawl section, engaging section of the crawl section relative to the handle box shell are additionally provided on the handle box shell Residing one end is closer to the other end of handle box shell.

11. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 2, it is characterised in that： The guide surface is an inclined surface or arcwall face.

12. a kind of method for dismantling handle box from electronic imaging apparatus,

The handle box is releasably attached in the electronic imaging apparatus,

The handle box includes handle box shell, further includes the engaging section being arranged in handle box shell one end, the engaging section It can be engaged with the driving unit being arranged in the electronic imaging apparatus to receive rotary power；

It is characterized in that：

The method includes that a guide surface is provided on one end of the handle box, and the guide surface is relative to the engagement The rotary shaft in portion tilts, when the handle box is taken out from the electronic imaging apparatus, the guide surface and the electronics The side inner wall contact of imaging device makes the rotary shaft of the handle box shell inclination and the engaging section relative to the driving The rotary shaft of unit tilts.

13. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 12, it is characterised in that： The guide surface be disposed relative to the installation direction of handle box at the front end.

14. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 13, it is characterised in that： Limit protrusion is provided on described handle box one end, the guide surface is arranged on the limit protrusion.

15. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 12, it is characterised in that： Compared with the longitudinally central line of handle box shell closer to the inside of electronic imaging apparatus, the guide surface is set the guide surface Setting can make handle box in dismounting, the area that the end face for reducing handle box is contacted with the inner wall of electronic imaging apparatus.

16. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 12 or 14, feature It is：Crawl section is additionally provided on the handle box shell, the crawl section is nibbled relative to the handle box shell one end Guide surface of the conjunction portion closer to the handle box shell other end.

17. a kind of method for dismantling handle box from electronic imaging apparatus according to claim 12, it is characterised in that： The guide surface is an inclined surface or arcwall face.