CN110161825A - Handle box - Google Patents

Abstract

The present invention relates to a kind of handle box and imaging devices, handle box includes relatively turnable developing cell and imaging unit and the separating force receiving mechanism being movably mounted therein, developing cell includes developing frame, the development part being rotatably installed in developing frame, the image member that imaging unit includes into picture frame and is rotatably installed in into picture frame, separating force receiving mechanism includes the separating force receiving element that can be used for receiving separating force, and the separating force is for separating development part and image member；Separating force receiving element includes multiple movable parts be combineding with each other, one of movable part is for receiving separating force, one movable part is used to separating force being transferred to developing frame, the separating force receiving mechanism only needs a force-applying piece to apply separating force, thus, the structure for the imaging device that handle box is applicable in is simplified, and cost is minimized, it is easier to realize miniaturization.

Description

Handle box

Technical field

The present invention relates to electrophotographic image forming fields more particularly to one kind to be removably mounted on electrophotographic image forming In handle box.

Background technique

Existing, handle box includes developing cell and imaging unit interconnected, wherein in developing cell rotatably Development part is installed, is rotatably mounted with image member in imaging unit, in handle box imaging, development part and image member are connect Touching.In general, development part surface is made of elastic material, image member surface is covered with light-sensitive material, when handle box is not needed into When picture, if development part is still kept in contact with image member, image member surface is it is possible that developed part surface carries Developer pollution, meanwhile, the elastic material for the part that develops may be deformed due to oppressing for a long time, and then influence processing The subsequent image quality of box.

For the generation for avoiding drawbacks described above, point of separable developing cell and imaging unit is provided in existing handle box From structure, while developing cell and imaging unit separate, development part is also separated from each other with sensitive piece, when handle box needs again When secondary imaging, development part and sensitive piece are recombined.

Known, such as the record in European patent EP 1977289, separated structure includes that can be arranged out of imaging device The the first power receiving unit 75 and the second power receiving unit 70 of force-applying piece reception active force, wherein in response to 75 institute of the first power receiving unit Received active force, the second power receiving unit 70 can retract the retracted position in developing cell and the protrusion of prominent developing cell It is moved between position, when the second power receiving unit 70 is located at prominent position, can receive the active force that force-applying piece applies, and then force Developing cell and imaging unit separation.

Although above structure can effectively ensure that the second power receiving unit 70 receives separating force, but the second power receiving unit 70 is from contracting Return sets the movement for reaching the power of prominent position from the first power receiving unit 75, and applies active force to the first power receiving unit 75 Force-applying piece be different from applying the force-applying piece of active force to the second power receiving unit 70, that is to say, that is arranged in imaging device simultaneously Two force-applying pieces to apply active force to the first power receiving unit 75 and the second power receiving unit 70 respectively, and also need in imaging device The control device for controlling two force-applying pieces respectively is set, it is such to design the miniaturization for being unfavorable for imaging device, it is especially colored In imaging device, the setting of multiple force-applying pieces and its control device will have to increase the volume and cost of imaging device.

Summary of the invention

The present invention provides a kind of handle box, by redesigning the separating mechanism, to reduce the quantity of force-applying piece, in turn Simplify imaging device structure, promotes its miniaturization.

To achieve the above object, the invention adopts the following technical scheme:

Handle box, is detachably mounted to imaging device, and handle box includes that relatively turnable developing cell and imaging are single Member and the separating force receiving mechanism being movably mounted therein, developing cell include developing frame, are rotatably installed in Development part in developing frame, the image member that imaging unit includes into picture frame and is rotatably installed in into picture frame, Separating force receiving mechanism includes the separating force receiving element that can be used for receiving separating force, and the separating force is for separating development part and imaging Part；Separating force receiving element includes multiple movable parts be combineding with each other, and one of movable part is for receiving separating force, an activity Part is used to separating force being transferred to developing frame.

During handle box installation and removal, separating force receiving element has first state, the second state and third shape State；In first state and the third state, separating force receiving element is not locked, and cannot receive separating force；In the second state, separating force Receiving element is locked, and can receive separating force.

Separating force receiving element includes the first movable part and the second movable part that can be movable relatively, and the first movable part is for receiving Separating force, the second movable part are used to separating force being transferred to developing frame.

In first state and the third state, the first movable part is tilted, and the first movable part is in the inclination side of first state To opposite in the inclined direction of the third state with the first movable part.

First movable part can be rotated around rotation axis L4, and the second movable part can be rotated around rotation axis L5, the rotary shaft Line L4, L5 are parallel to each other, and rotation axis L4 is also parallel with the rotation axis L2 of the rotation axis L1 of development part or image member.

Along the up and down direction of handle box, the rotation center of the first movable part and the second movable part is not point-blank.

First movable part includes that the first power transfer part, the first power receiving unit and the first power transfer part of connection and the first power connect The first connecting portion in receipts portion, wherein the first power receiving unit is used to make outside for receiving applied external force, the first power transfer part Firmly pass.

First power transfer part include the first rotating part, the first power transfer surface being disposed adjacent on the surface of the first rotating part and Overturning face, it is preferred that overturning face is cambered surface.

Separating force receiving mechanism of the present invention is redesigned, when separating force receiving mechanism is mounted to imaging device Main body when, it is only necessary to force-applying piece applies separating force, needs imaging device different from the separating mechanism in existing handle box Two force-applying pieces of middle setting, thus, the structure for the imaging device that handle box of the present invention is applicable in is simplified, and cost obtains To reduce, it is easier to realize miniaturization.

Detailed description of the invention

Figure 1A and Figure 1B is the perspective view of handle box of the present invention.

Fig. 2 is status diagram when handle box of the present invention prepares installation.

Fig. 3 is the section components decomposition diagram that end embodiment one is driven in handle box of the present invention.

Fig. 4 A and Fig. 4 B are the perspective views of the separating force receiving element of embodiment one in handle box of the present invention.

When Fig. 5 A and Fig. 5 B are that the separating force receiving element of embodiment one in handle box of the present invention is in first state Status diagram.

Fig. 6 A, Fig. 6 B and Fig. 6 C are that the separating force receiving element of embodiment one in handle box of the present invention is in the second shape Status diagram when state.

When Fig. 7 A and Fig. 7 B are that the separating force receiving element of embodiment one in handle box of the present invention is in the third state Status diagram.

Fig. 8 is the section components decomposition diagram that end embodiment two is driven in handle box of the present invention.

Fig. 9 A is the perspective view of the first movable part of embodiment two in handle box of the present invention.

Fig. 9 B is the perspective view of the second movable part of embodiment two in handle box of the present invention.

Figure 10 A, Figure 10 B and Figure 10 C are handle boxes of the present invention during mounted, the separating force of embodiment two The motion process schematic diagram of receiving element.

Figure 11 A and Figure 11 B are handle boxes of the present invention after being mounted to predetermined position, the separating force of embodiment two Status diagram when receiving element receives separating force.

Figure 12 A and Figure 12 B are handle boxes of the present invention during being removed, the separating force receiving element of embodiment two Motion process schematic diagram.

Specific embodiment

Detailed description of the present invention embodiment with reference to the accompanying drawing.Figure 1A and Figure 1B is the vertical of handle box of the present invention Body figure；

Fig. 2 is status diagram when handle box of the present invention prepares installation.

As shown, handle box 100 includes relatively turnable developing cell 1 and imaging unit 2, is located at handle box The first end cover 3 and second end cover 4 of two longitudinal ends and respectively rotatably it is mounted on developing cell 1 and imaging unit 2 In development part 11 and sensitive piece 21, wherein sensitive piece 21 is exposed to outer.

Be left and right directions in the length direction of this definition process box 100 for convenience of following description, developing cell 1 and at As the bonding position of unit 2 is front-rear direction, the exposed direction of sensitive piece 21 is up and down direction, more specifically, 3 institute of first end cover Side be handle box 100 left, the side where second end cover 4 is the right of handle box 100, where developing cell 1 Side be handle box 100 front, the side where imaging unit 2 is the rear of handle box 100, is equipped with sensitive piece 21 Side is the top of handle box 100, and the side for being not installed with sensitive piece 21 is the lower section of handle box 100.

Developing cell 1 includes developing frame 10 and the first power reception part 12 for being mounted on developing cell right, imaging Unit 2 includes into picture frame 20 and the second power reception part 22 for being mounted on imaging unit right, develop part 11 and image member 21 are respectively rotatably mounted on developing frame 10 and in picture frame 20；After handle box 100 is mounted to imaging device, the One power reception part 12 and the second power reception part 22 are by respectively in conjunction with the power output member being arranged in imaging device, and dynamic Start to rotate under the driving of power output, wherein the first power reception part 12 is rotated around rotation axis L3, and driving force is transmitted Make the rotation of part 11 of developing to development part 11, the second power reception part 22 is rotated around rotation axis L1, and is transferred a driving force to Image member 21 rotates image member 21.

As shown in Fig. 2, handle box 100 is mounted in an inverted manner, that is, side (top) quilt of image member 21 is installed The mode for being placed on lower part is installed, and then handle box 100 is pushed forwards until predetermined installation site is reached, along processing The front-rear direction of box 100, imaging device are additionally provided with the stiffening plate B for reinforcing integral strength, that is to say, that handle box 100 When moving along front-rear direction, stiffening plate B must be passed through.

Embodiment one

Fig. 3 is the section components decomposition diagram that end embodiment one is driven in handle box of the present invention；Fig. 4 A and figure 4B is the perspective view of the separating force receiving element of embodiment one in handle box of the present invention.

As shown in figure 3, the right end of development part 11 is equipped with the driving force for receiving the first power reception part 12 Develop part gear 111, and handle box 100 further includes that the protecting cover 13 for being respectively used to the first power reception part 12 of protection and support first are moved The bracket 14 of power receiving element 12 and the separating force receiving mechanism 6 being movably mounted therein and unlocking mechanism 7, wherein point Combined in a manner of departing from relay receiver structure 6 and unlocking mechanism 7, thus, separating force receiving mechanism 6 have lock state with And it is unlocked the unlocked state of the unlock of mechanism 7.

When separating force receiving mechanism 6 is in the lock state (first state), at least part of separating force receiving mechanism 6 It is retracted in handle box 100, at this point, separating force receiving mechanism 6 will not be interfered with imaging device；When separating force receiving mechanism 6 it is in the unlocked state when, at least part of separating force receiving mechanism 6 is extend out to except handle box 100, at this point, separating force connects It receives mechanism 6 and is in the second state that can receive the separating force from imaging device, separated by developing cell 1 and imaging unit 2 While to develop part 11 and image member 21 separate；When separating force receiving mechanism 6 is located at first state, relay receiver is separated Structure 6 is locked, different from the separating mechanism in existing handle box, if there is external force has touched the first power receiving unit 75, then Second power receiving unit 70 will stretch out, and the second power receiving unit 70 has a risk being broken off at this time, and separating force of the present invention Receiving mechanism 6 will not stretch out by external force.

The locked power of separating force receiving mechanism 6 is released from unlocking mechanism 7, and unlocking mechanism 7 connects with the first power Addressee 12 combines, with the rotation of the first power reception part 12,7 setting in motion of unlocking mechanism, and then separating force receiving mechanism 6 Locking is released from.

As shown, separating force receiving mechanism 6 includes sliding part 61, separating force the receiving element 62, (holding of the first elastic component Part) 63 and second elastic component 64, wherein separating force receiving element 62 is pivotably supported by sliding part 61, holder 63 with separate Power receiving element 62 combines, and in the up and down direction of handle box 100, keeps separating force receiving element 62 not tilt, the second elastic component 64 For providing power for the stretching of separating force receiving element 62, when separating force receiving mechanism 6 is located at first state, the second elastic component 64 Flexible deformation occurs, when separating force receiving mechanism 6 is unlocked, the elastic reset power of the second elastic component 64 connects separating force Addressee 62 is extend out to except handle box 100.

Preferably, holder 63 is torsional spring, and the second elastic component 64 is compressed spring, and separating force receiving mechanism 6 is mounted In the right of developing frame 10, further, separating force receiving mechanism 6 is installed between developing frame 10 and bracket 14, with This ensures that separating force receiving mechanism 6 will not shake or fall off in the left and right directions of handle box 100；When handle box 100 works, Image member 21 can be rotated along rotation axis L1, and development part 11 can be rotated along rotation axis L2, and separating force receiving element 62 and first moves Power receiving element 12 is coaxial, i.e., separating force receiving element 62 can be rotated around rotation axis L3, and described rotation axis L1, L2 and L3 are mutually flat Row.

As shown in Figure 4 A and 4 B shown in FIG., separating force receiving element 62 includes rotating part 621, power receiving unit 622 and interconnecting piece 623, Rotating part 621 is combined with sliding part 61, and power receiving unit 622 connects rotating part 621 and power for receiving separating force, interconnecting piece 623 Receiving unit 622.

Wherein, the power transfer surface 6212 that rotating part 621 is arranged including rotation center 6211, along the circumference of rotation center 6211 With overturning face 6214, the power transfer surface 6212 overturns face for passing the separating force that power receiving unit 622 receives 6214 when separating force receiving element 62 is flipped (inclination) for avoiding rotating part 621 from interfering with external component；Power connects Receipts portion 622 includes the first power receiving plane 6221 and the second power receiving plane 6222, and the first power receiving plane 6221 is used for and imaging device The contact (as shown in Figure 6 C) of the force-applying piece 08 of middle setting, and the separating force of the application of force-applying piece 08 is received, and then force development part 11 It is separated with image member 21, when handle box 100 is by along (process being disassembled) is rearward moved, 6222 quilt of the second power receiving plane Block piece B oppresses (as shown in Figure 7 B), so that separating force receiving element 62 rotates around rotation axis L3 and to separate relay receiver Structure 6 reaches the third state from the second state, at this point, separating force receiving mechanism 6 can pass through the position where block piece B；Into One step, separating force receiving element 62 further includes the protrusion 6213 being disposed therein, and holder 63 is contacted with protrusion 6213.

As noted previously, as separating force receiving element 62 is supported by sliding part 61, thus, shape locating for separating force receiving element 62 State is consistent with 6 status of separating force receiving mechanism, i.e., when separating force receiving mechanism 6 is in first state, separating force is received Part 62 is also at locked first state, at this point, at least part of separating force receiving element 62 is retracted in handle box 100, And it will not be interfered with imaging device；It is unlocked when separating force receiving mechanism 6 is in and stretches out and can receive imaging device When the second state of separating force, separating force receiving element 62 is also at the separating force for being unlocked and stretch out and can receive imaging device Second state；When separating force receiving mechanism 6 is in the third state contacted with block piece B, separating force receiving element 62 is also at It is contacted with block piece B, and around the third state of rotation axis L3 rotation under the action of block piece B, that is to say, that work as separating force When receiving element 62 is located at the second state, separating force receiving element 62 can be rotated around rotation axis L3, and can be under external force It is moved back and forth between two-state and the third state.

The installation and removal process of handle box 100 of the present invention is described below.

When Fig. 5 A and Fig. 5 B are that the separating force receiving element of embodiment one in handle box of the present invention is in first state Status diagram；Fig. 6 A, Fig. 6 B and Fig. 6 C are that the separating force receiving element of embodiment one in handle box of the present invention is in Status diagram when the second state；Fig. 7 A and Fig. 7 B are the separating force receiving elements of embodiment one in handle box of the present invention Status diagram when in the third state.

Fig. 3 is combined to describe unlocking mechanism 7 first, unlocking mechanism 7 includes the power transmission part 71 and unlock piece 72 be combineding with each other, Wherein, power transmission part 71 is combined with the first power reception part 12, and passes through bracket 14, passes through the movement of power receiving element 71, unlock Part 72 unlocks separating force receiving element 62；Preferably, developing frame 10 is provided with guide rail 15 and receiving portion 16, and sliding part 61 is being led It is slidable in the vertical direction in rail 15, a part of separating force receiving element 62 can be received the receiving of portion 16,62 quilt of separating force receiving element After installation, the power transfer surface 6212 is opposite with one of side wall 611 of sliding part 61, it is furthermore preferred that with power transfer surface 6212 opposite side walls 611 are also plane；One end of torsional spring 63 is abutted with sliding part 61, and the other end is abutted with protrusion 6213, point It is able to be retained from power receiving element 62 and not tilted in the up and down direction of handle box 100.

As fig. 5 a and fig. 5b, guide rail 15 is provided with engaging portion 152, sliding part 61 be provided with buckle 612 and with card What button 612 was disposed adjacent is unlocked part 613, and when buckle 612 is combined with engaging portion 152, (separating force connects separating force receiving element 62 Receive mechanism 6) it is locked, the second elastic component 64 is compressed, at this point, at least part of separating force receiving element 62 is located at handle box In 100, wherein rotating part 621 is located at the top of guide rail 15 with sliding part 61, and a part and power of interconnecting piece 623 receive Portion 622 is received the receiving of portion 16, and under the action of holder 63, along the up and down direction of handle box 100, separating force receiving element 62 is not Inclination.

Before handle box 100 is mounted to imaging device start-up operation, the power combined with the first power reception part 12 is defeated Part can rotate a certain angle out, thus, the first power reception part 12 can also rotate a certain angle.With the first power reception The rotation of part 12, the power transmission part 71 and unlock piece 72 combined with the first power reception part 12 also starts to rotate, in unlock piece 72 During rotation, unlock piece 72, which is gradually stirred, is unlocked part 613, is combined so that buckle 612 is detached from engaging portion 152, finally, Separating force receiving element 62 (separating force receiving mechanism 6) is unlocked, under the elastic reset power effect of the second elastic component 64, point It is moved from the whole up and down direction along handle box 100 of relay receiver structure 6, specifically, separating force receiving mechanism 6 is to handle box 100 lower section is mobile, until separating force receiving mechanism 6 reaches the second state shown in Fig. 6 A- Fig. 6 C, at this point, separating force receives At least part of mechanism 6 stretches out handle box 100；Due to being unlocked part 613 as sliding part 61 is mobile towards lower section, even if solution Latch fitting 72 still makes rotating motion with the rotation of the first power reception part 12, but it is de- with unlock piece 72 to be unlocked part 613 From combination, therefore, the unlock piece 72 in movement will not generate interference with part 613 is unlocked.

As shown in Figure 6 A and 6 B, while separating force receiving mechanism 6 is mobile to the lower section of handle box 100, separating force Receiving element 62 will not tilt under the holding effect of holder 63 relative to the up and down direction of handle box 100, since holder (is turned round Spring) 63 close to rotation center 6211, torsional spring 63, which need to apply biggish urgent thrust, can maintain the company of separating force receiving element 62 Socket part 623 and power receiving unit 622 do not tilt.In the present invention, due to being plane phase between sliding part 61 and separating force receiving element 62 Right, i.e., planar power transfer surface 6212 and planar side wall 611 are opposite, even if the urgent thrust that torsional spring 63 applies is excessive, point Unnecessary rotation will not occur from power receiving element 62, ensure that separating force receiving element 62 is held stably.

When separating force receiving mechanism 6 is located at the second state, before the first power receiving plane 6221 is towards handle box 100 Side, and it is opposite with the force-applying piece 08 in imaging device, and when force-applying piece 08 is mobile to the rear of handle box 100, the first power is received Face 6221 can receive separating force, and as shown in Figure 6 C, separating force receiving element 62 has the trend rotated along direction shown in r, pass through institute Power transfer surface 6212, side wall 611 and guide rail 15 are stated, separating force is passed to developing frame 10, finally, developing frame 10 and imaging Frame 20 separates, meanwhile, development part 11 is also separated with image member 21.

7A and Fig. 7 B describes the process that handle box 100 is disassembled with reference to the accompanying drawing.

The handle box 100 is needed to move backward first, be then raised still further below when being disassembled.When 08 institute of force-applying piece When the separating force revocation of application, developing frame 10 resumes contacts at picture frame 20, meanwhile, development part 11 and image member 21 are also extensive Multiple connection touching, but separating force receiving element 62 still in the second state, i.e. power receiving unit is located at except handle box 100, works as handle box 100 when rearward being moved, and power receiving unit 622 may be interfered with the block piece B in imaging device, and then influence is handled The disassembly of box 100.

As described above, the rotating part 621 of separating force receiving element 62 is provided with overturning face 6214, it is preferred that overturning face 6214 To be non-planar, specifically, overturning face 6214 is cambered surface, that is to say, that when separating force receiving element 62 has along the direction r ' opposite with r When the trend of rotation, interference will not be generated between the side wall 611 and the rotating part 621 of separating force receiving element 62.Such as Fig. 7 A and Shown in Fig. 7 B, as handle box 100 is moved along backward directions, block piece B oppresses the second power receiving plane 6222, and separating force receives Around rotation axis L3 along the direction r ' rotation contrary with shown in r, power transfer surface 6212 is gradually distance from side wall 611, turns over part 62 Turn face 6214 and move closer to side wall 611, flexible deformation occurs for torsional spring 63, due to overturning face 6214 be it is non-planar, thus, side wall 611 will not stop the rotation of rotating part 621, and power receiving unit 622 can move to the not position with block piece B interference, at this point, edge The up and down direction of handle box 100, separating force receiving element 62 are in the third state of inclination (overturning), specifically, separating force receives Part 62 is tilted to the front of handle box 100；Preferably, the second power receiving plane 6222 is cambered surface, and the second power receiving plane 6222 can be put down The position for being blocked part B compressing is transitted to slidingly；The inclination (overturning) of separating force receiving element 62 refers to, separating force receiving element 62 At least partially, in particular for the position (the first power receiving plane 6221) of reception separating force, along the upper and lower of handle box 100 To different from the position of position (the first power receiving plane 6221) the reception application separating force of force-applying piece 08 for receiving separating force.

After separating force receiving element 62 passes through block piece B, under the reset force effect of torsional spring 63, separating force receiving element 62 restores To the second state, that is to say, that after handle box 100 is disassembled, at least the power receiving unit 622 of separating force receiving element 62 is located at processing Except box 100, when handle box 100 needs to be mounted again, terminal user needs the (separation of separating force receiving mechanism 6 first Power receiving element 62) it is pressed upwards along the up and down direction of handle box 100, so that sliding part 61 is moved up along guide rail 15, power is connect Receipts portion 622 enters in accommodating chamber 16, and finally, separating force receiving mechanism 6 is retracted into the first state in handle box 100 again.

According to foregoing description it is found that being mounted to again to handle box 100 in handle box 100 from being mounted to imaging device Before imaging device, separating force receiving mechanism 6 (separating force receiving element 62) is moved to from the first state that cannot receive separating force can To receive the second state of separating force, handle box 100 from imaging device dismantle during, when separating force receiving mechanism 6 (point From power receiving element 62) with block piece B generate interference when, separating force receiving mechanism 6 (separating force receiving element 62) from the second state transport It moves to the third state, after block piece B, separating force receiving mechanism 6 (separating force receiving element 62) restores from the third state again To the second state, until handle box 100 is disassembled from imaging device；Along the up and down direction of handle box 100, separating force receiving element 62 The third state between first state and the second state；Before handle box 100 need to be mounted again, separating force receiving mechanism 6 (separating force receiving element 62) passes through buckle 612 and engaging portion 152 under external force from the second state motion to first state In conjunction with, separating force receiving element 62 is locked again, thus, handle box 100 can smoothly be mounted to imaging device.

On the basis of the rotation axis L2 for the part 11 that develops, separating force receiving mechanism 6 (separating force receiving element 62) is in first When state, the third state and the second state, along the up and down direction of handle box 100, the first power receiving plane 6221 and rotation axis L2 Distance be gradually increased, thus, handle box 100 can be installed smoothly to imaging device, and reception separating force that can be stable, and It can be smoothly disassembled from imaging device.

Embodiment two

Fig. 8 is the section components decomposition diagram that end embodiment two is driven in handle box of the present invention；Fig. 9 A is this Invent the perspective view of the first movable part of embodiment two in the handle box being related to；Fig. 9 B is implemented in handle box of the present invention The perspective view of second movable part of example two.

In the present embodiment, the overall structure of handle box 100 is had not been changed, with above-described embodiment the difference is that separating force The structure and unlocking mechanism of receiving mechanism are redesigned, and hereinafter, component same as the previously described embodiments will use identical Number.

As shown in figure 8, the separating force receiving mechanism 8 and unlocking mechanism 9 in the present embodiment are mounted in a movable manner In handle box 100, wherein separating force receiving mechanism 8 and unlocking mechanism 9 are combined in a manner of departing, thus, separating force connects Receive the unlocked state that mechanism 8 has lock state and is unlocked the unlock of mechanism 9.

Separating force receiving mechanism 8 includes the separating force receiving element 80 that at least part can be moved relative to developing frame 10, The separating force receiving element 80 receives that separating force will develop part 11 and image member 21 separates, including multiple activities be combineding with each other Part, wherein at least one movable part can be along parallel with the rotation axis L1 of image member 21 or the development rotation axis L2 of part 11 Axis rotation, as separating force receiving mechanism 8 is locked, movable part cannot rotate, and separating force receiving mechanism 8 is released from lock Fixed, movable part is rotatable.

Specifically, separating force receiving element 80 includes the first movable part 81 and the second movable part 82 that can be movable relatively, separation Relay receiver structure 8 further includes that the first holder 83 and second combined respectively with the first movable part 81 and the second movable part 82 is kept Part 84, first holder 83 and the second holder 84 are respectively used to for the first movable part 81 and the second movable part 82 being maintained at Holding position (separating force receiving element 80 is in the second following states)；Unlocking mechanism 9 includes power transmission part 91,92 and of limited part Return unit 93, wherein active force is transferred to limited part 92 for receiving applied external force by power transmission part 91, so that limitation Part 92 forms the limitation to separating force receiving mechanism 8, after applied external force revocation, reset force of the limited part 92 in return unit 93 Effect is lower to restore to not limiting separating force receiving mechanism 8；As shown, restricted face 921 and contact surface is arranged in limited part 92 922, for limiting separating force receiving element 80, contact surface 922 is contacted with developing frame 10 in the limitation face 921, for that will separate Power is transferred to developing frame 10.

In the present embodiment, the first movable part 81 and the second movable part 82 can be rotated rotating around rotation axis L4 and L5, and be revolved Shaft axis L4 and L5 are parallel with rotation axis L1 and L2, before handle box 100 is mounted to predetermined position and handle box 100 After being detached from from predetermined position, separating force receiving element 80 is not locked, and cannot be received for separating development part 11 and image member 21 Separating force, by the relative rotation of the first movable part 81 and the second movable part 82, so that handle box 100 can be installed smoothly And disassembly；When handle box 100 reaches predetermined position, separating force receiving element 80 is locked, the first movable part 81 and the second activity Part 82 is relatively unrotatable, and separating force receiving element 80 can receive the separating force for separating development part 11 and image member 21.

Preferably, separating force receiving mechanism 8 is installed in the right end of developing frame 10, and unlocking mechanism 9 passes through bracket 14, specifically, power transmission part 91 passes through bracket 4, and power transmission part 91 also extend through the first power reception part 12 and be exposed to it is outer, When handle box 100 reaches predetermined position, power transmission part 91 receives applied external force, and limited part 92 locks separating force receiving element 80 It is fixed；After being detached from before handle box 100 is mounted to predetermined position and from predetermined position, power transmission part 91 no longer receives external work Firmly, limited part 92 unlocks the locking to separating force receiving element 80 under the action of return unit 93；Certainly, the separating force receives Mechanism 8 can also be installed in the right side of bracket 14, at this point, power transmission part 91 no longer needs to advantageously reduce across bracket 14 The assembling procedure of handle box 100.

As shown in Figure 9 A, the first movable part 81 includes the first power transfer part 811, the first power receiving unit 812 and connection the The first connecting portion 813 of one power transfer part 811 and the first power receiving unit 812；Wherein, the first power receiving unit 812 is outer for receiving Portion's active force, for the first power transfer part 811 for passing applied external force, the first power transfer part 811 includes the first rotation Portion 8111, the first power transfer surface 8112 in the setting of the surface of the first rotating part 8111 and overturning face 8114, the first rotating part 8111 rotate around rotation axis L4, and the first power transfer surface 8112 and overturning face 8114 are disposed adjacent, thus, the first power movable part 81 It can be switched fast between outside transmission force and overturning, it is preferred that overturning face 8114 is cambered surface.

Similar to the above embodiments, the first power transfer part 811 further includes the protrusion being arranged on the first rotating part 8111 8113, the first holder 83 is preferably torsional spring, and one end of torsional spring is connected to the second movable part 82, and the other end is connected to protrusion 8113；First power receiving unit 812 for receiving applied external force, including the first power receiving plane 8121 for receiving separating force with And the second power receiving plane 8122 for receiving rotary force.

As shown in Figure 9 B, the second movable part 82 includes the second power receiving unit 822, the second power transfer part 821 and connection the The second connecting portion 823 of two power transfer parts 821 and the second power receiving unit 822；Wherein, the second power receiving unit 822 is for receiving the The active force (separating force) that one movable part 81 passes over, the second power transfer part 821 is for passing out active force (separating force) It goes, the second power receiving unit 822 is provided with for the third power receiving plane 8221 opposite with the first power transfer surface 8112, and the second power passes Pass the second power transfer surface 8241 that portion 821 includes the second rotating part 8211, is arranged on the surface of the second rotating part 8211, the second rotation Transfer part 8211 is rotated around rotation axis L5；Preferably, the first power transfer surface 8112, third power receiving plane 8221 and the second power pass Passing face 8241 is plane.

Likewise, the second movable part 82 is also equipped with protrusion 8212, the second holder 84 is preferably torsional spring, one end of torsional spring It is connected to developing frame 10 or bracket 14, the other end is connected to protrusion 8212；Further, the first rotating part 8111 and the second rotation Transfer part 8211 is circular hole, and cylinder 8222 is additionally provided on the second movable part 82, and the first rotating part 8111 is combined with cylinder 8222, Cylinder is also equipped on developing frame 10 or bracket 14, the second rotating part 8211 is in conjunction with the cylinder.

Further, the second power transfer surface 8241 is the extension convex block 824 extended from the surface of the second rotating part 8211 A surface, it is prominent towards the direction close to the second power receiving unit 822 to extend convex block 824, to avoid convex block 824 is extended to the The rotation of two movable parts 82 forms interference.

Figure 10 A, Figure 10 B and Figure 10 C are handle boxes of the present invention during mounted, the separating force of embodiment two The motion process schematic diagram of receiving element.

Handle box 100 is before being mounted to predetermined position, and separating force receiving element 80 is located at the second state, at this point, separating force At least part of receiving element 80 is located at except handle box 100, but separating force receiving element 80 is not locked out, as shown in Figure 10 A, In the up and down direction of handle box 100, the second power transfer surface 8241 is not opposite with limitation face 921, in other words on a left side for handle box 100 In right direction, the second power transfer surface 8241 and limitation 921 staggered positions of face, thus, when the first movable part 81 is by external force When, the first movable part 81 and the second movable part 82 can be movable relatively.

As shown in Figure 10 B, when handle box 100 travels forward along the longitudinal direction, block piece B can be with 81 shape of the first movable part At interference, when the first movable part 81 touches block piece B, first power receiving plane 8121 of the block piece B to the first movable part 81 Apply barrier force, as illustrated in figure 10 c, the first movable part 81 can rotate in direction shown in r1 along figure, meanwhile, the first movable part 81 is logical It crosses the first power transfer surface 8112 and transmits barrier force to third power receiving plane 8221, and then lead to the first movable part 81 and the second activity Part 82 respectively overcomes torsional spring 83 and the retentivity of torsional spring 84 is rotated along direction shown in r1 and r2；In the present embodiment, r1 and r2 are in the same direction, It is counterclockwise, along the up and down direction of handle box 100, the rotation center of the first movable part 81 and the second movable part 82 does not exist On straight line, there are two kinds of situations for the two: when in the longitudinal direction, the rotation center of the first movable part 81 is located at the second activity When the upstream of the rotation center of part 82, r1 and r2 are preferably in the same direction；Further, when the rotation center of the first movable part 81 is located at When the downstream of the rotation center of the second movable part 82, then r1 and r2 are preferably reversed, are designed in this way and advantageously reduce separating force and connect Addressee 80 in the up-down direction needed for space, thus do not interfere with development part gear 111 arrangement, when the first movable part 81 With the second movable part 82 rotation when, it is only necessary in the longitudinal direction provide space, be conducive to reduce handle box 100 and at As equipment shared space in above-below direction.

For the motion conditions for becoming apparent from each component in display separating force receiving element 80, limited part 92 is concealed in Figure 10 C, by Separating force receiving element 80 (the second movable part 82) is not formed and limited in limited part 92, when the first movable part 81 transmits barrier force When to the second movable part 82, the first movable part 81 and the second movable part 82 can rotate counterclockwise in Figure 10 C, because And at least part of separating force receiving mechanism 8 is retracted in handle box 100, at this point, (the first activity of separating force receiving element 80 Part 81) it is located at first state, 81 run-off the straight of at least the first movable part, and the first movable part 81 tilts backwards, and is blocked part B pressure Compel, handle box 100 can smoothly pass through block piece B；After handle box 100 passes through block piece B, in torsional spring 83 and torsional spring 84 Under effect, the first movable part 81 and the second movable part 82 are rotated around the direction opposite with r1 and r2 in Figure 10 C, separating force receiving element 80 return to the second state that its at least part is located at except handle box 100.

Figure 11 A and Figure 11 B are handle boxes of the present invention after being mounted to predetermined position, the separating force of embodiment two Status diagram when receiving element receives separating force.

After handle box 100 is mounted to predetermined position, power transmission part 91 receive the active force from imaging device and Mobile to the inside of handle box 100, in the embodiment of the present invention, power transmission part 91 moves from right to left, meanwhile, force limited part 92 The reset force of return unit 93 is overcome, so that limited part 92 reaches the position of limitation separating force receiving element 80；At this point, separating force receives Part 80 is locked, in the up and down direction of handle box 100, limits face 921 and the second power transfer surface 8241 is opposite.

As seen in figs. 11a and 11b, separating force receiving element 80 (the first movable part 81) is located at the second state, force-applying piece 08 It is opposite with the first power receiving plane 8121, when force-applying piece 08 applies separating force to the first power receiving plane 8121, the first movable part 81 Separating force is transferred to the second movable part 82 by the first power transfer surface 8112 and third power receiving plane 8221, due to the second activity Part 82 is limited by limited part 92, and therefore, the separating force for being passed to the second movable part 82 will be by 8241 quilt of the second power transfer surface The limitation face of being transferred to 921, in turn, separating force are passed to developing frame 10 by contact surface 922, cause developing frame 10 at Picture frame 20 separates, and development part 11 is separated with image member 21.

Figure 12 A and Figure 12 B are handle boxes of the present invention during being removed, the separating force receiving element of embodiment two Motion process schematic diagram.

When the needs of handle box 100 are removed (disassembly) from imaging device, handle box 100 first need to be de- from predetermined position From, meanwhile, power transmission part 91 no longer receives the active force from imaging device, and limited part 92 is acted in the reset force of return unit 93 Under move to the position no longer opposite with the second power transfer surface 8241 of limitation face 921, that is to say, that separating force receiving element 80 is no longer It is locked, but separating force receiving element 80 still maintains the second state that at least part is located at except handle box 100.

As illustrated in figs. 12 a and 12b, as handle box 100 moves backward, the second power receiving plane of the first movable part 81 8122 move closer to block piece B, as described above, what is be disposed adjacent with the first power transfer surface 8112 is the overturning face of arc surfaced 8114, when the two contact, the second power receiving plane 8122 receives the barrier force from block piece B, and the first movable part 81 starts It is rotated clockwise along direction shown in r3, until the first movable part 81 is blocked part B and oppresses completely, at this point, separating force receiving element 80 (the first movable part 81) is in the third state of inclination (overturning), and the first movable part 81 turns forward, finally, handle box 100 Smoothly by block piece B, later, under the action of the first holder 83, at least part of the first movable part 81 position again Except handle box 100, separating force receiving element 80 turns again to the second state.

Under extreme case, as shown in Figure 12 B, when the first movable part 81 rotated along direction shown in r3 and with developing frame 10 Shell 17 contact, but the first movable part 81 be not blocked yet part B compressing when, still can shape between the first movable part 81 and block piece B At interference, at this point, handle box 100 cannot continue to take out.For the separating force receiving element 80 that the present embodiment is related to, locating When reason box 100 moves backward, the limited part 92 has released the limitation to separating force receiving element 80, with handle box 100 continue rearward to move, and block piece B will oppress the first power receiving unit 812 of the first movable part 81, and revolve by described first Oppressive force is transferred to the second power receiving unit 822 of the second movable part 82 by transfer part 8111, and then causes the second movable part 82 along figure Direction shown in r4 rotates in 12B, in the up and down direction of handle box 100, so that at least part of separating force receiving element 80 contracts It is back in handle box 100, that is to say, that first movable part 81 that rotates to be of the second movable part 82 avoids interference with block piece B Provide space；In the present embodiment, r3 and r4 are preferably reversed.

The foregoing describe the embodiments that separating force receiving element 80 includes two movable parts that can be movable relatively, however, by upper The structure stated in embodiment one and embodiment two combines, i.e., being arranged to the second movable part 82 in embodiment two can be in upper and lower To stretching, the first movable part 81, which still keeps rotatable, can also reach the purpose of the present invention；In other words, separating force receiving element 80 includes Movable part quantity extra two, by the way that be arranged to adjacent activities part can be relatively movable, and one of movable part is for connecing Separating force is received, a movable part is used to separating force being transferred to developing frame 10, equally also can achieve the purpose of the present invention.

Likewise, the inclination (overturning) of separating force receiving element 80 refers to that separating force receiving element 80 is at least in the present embodiment A part, in particular for receiving the position (the first power receiving plane 8121) of separating force, along the up and down direction of handle box 100, no It is same as position of the position (the first power receiving plane 8121) when receiving force-applying piece 08 and applying separating force for receiving separating force.

As described above, handle box 100 is during installation and taking-up, separating force receiving element 80 has first state, the Two-state and the third state, in first state and the third state, separating force receiving element 80 cannot receive separating force, in the second shape State, separating force receiving element 80 can receive separating force.In first state, at least part of separating force receiving element 80 is retracted to processing In box 100 or run-off the straight (overturning), so that block piece B is no longer to the mobile formation interference of handle box 100；In the second shape State, at least part of separating force receiving element 80 are extend out to except handle box 100；In the third state, separating force receiving element 80 At least part is retracted in handle box 100 again or run-off the straight (overturning) again, likewise, block piece B is no longer to place The mobile formation interference of box 100 is managed, thus, handle box 100, which can be realized, smoothly to be installed and takes out.

According to foregoing description, for embodiment two, the first state and the third state are interchangeable, that is to say, that can be with Handle box 100 during mounted, at least part (the first movable part 81) run-off the straight of separating force receiving element 80 It is the third state that the state of (overturning), which is regarded, handle box 100 during being removed, at least the one of separating force receiving element 80 Partially the state of (the first movable part 81) run-off the straight (overturning) regards the third state；On the front-rear direction of handle box 100, the Two-state is between first state and the third state.

Separating force receiving mechanism 6 of the present invention is redesigned, when the handle box for including separating force receiving mechanism 6 100 when being removably mounted to the main body of imaging device, it is only necessary to which a force-applying piece being arranged in imaging equipment body is applied Add separating force, needs to be arranged in imaging device two force-applying pieces different from the separating mechanism in existing handle box, thus, the present invention The structure for the imaging device that the handle box being related to is applicable in is simplified, and cost is minimized, it is easier to realize miniaturization.

Claims (10)

1. handle box, is detachably mounted to imaging device, handle box includes relatively turnable developing cell and imaging unit And the separating force receiving mechanism being movably mounted therein, developing cell include developing frame, be rotatably installed in it is aobvious Development part in shadow frame, the image member that imaging unit includes into picture frame and is rotatably installed in into picture frame,

It is characterized in that, separating force receiving mechanism includes the separating force receiving element that can be used for receiving separating force, which is used for Separation development part and image member；Separating force receiving element includes multiple movable parts be combineding with each other, and one of movable part is for connecing Separating force is received, a movable part is used to separating force being transferred to developing frame.

2. handle box according to claim 1, which is characterized in that during handle box installation and removal, separating force Receiving element has first state, the second state and the third state；

In first state and the third state, separating force receiving element is not locked, and cannot receive separating force；

In the second state, separating force receiving element is locked, and can receive separating force.

3. handle box according to claim 2, which is characterized in that separating force receiving element includes that can be movable relatively first lives Moving part and the second movable part, the first movable part are used to separating force being transferred to developing frame for receiving separating force, the second movable part Frame.

4. handle box according to claim 3, which is characterized in that in first state and the third state, the first movable part is equal Inclination.

5. handle box according to claim 4, which is characterized in that the first movable part is in the inclined direction of first state and One movable part is opposite in the inclined direction of the third state.

6. handle box according to claim 3, which is characterized in that the first movable part can be rotated around rotation axis L4, and second Movable part can be rotated around rotation axis L5, and described rotation axis L4, L5 are parallel to each other, and rotation of the rotation axis L4 also with development part Shaft axis L1 or the rotation axis L2 of image member are parallel.

7. handle box according to claim 6, which is characterized in that along the up and down direction of handle box, the first movable part and The rotation center of two movable parts is not point-blank.

8. according to handle box described in any one of claim 4-7 claim, which is characterized in that the first movable part includes First power transfer part, the first power receiving unit and the first connecting portion for connecting the first power transfer part and the first power receiving unit, wherein First power receiving unit is for receiving applied external force, and the first power transfer part is for passing applied external force.

9. handle box according to claim 8, which is characterized in that the first power transfer part includes the first rotating part, first The the first power transfer surface and overturning face that the surface of rotating part is disposed adjacent.

10. handle box according to claim 9, which is characterized in that overturning face is cambered surface.