CN209707915U - Handle box - Google Patents

Abstract

The utility model relates to a kind of handle boxes, and including powder cabin, waste powder hopper, first end cover, second end cover, the dynamic clamping head and quiet clamping head between powder cabin and waste powder hopper, powder cabin is connected by first end cover with second end cover with useless powder, and powder cabin is rotatable relative to waste powder hopper；Powder cabin includes powder cabin shell and the development part being rotatably installed in powder cabin shell, waste powder hopper includes waste powder hopper shell and the sensitive piece that is rotatably installed in waste powder hopper shell, handle box further includes the separation member for being rotatably installed in second end cover, the separation member relative to powder cabin to be rotatably mounted, even if the motion profile and scheduled motion profile of the force-applying piece being located in printer have deviation, active force still can be accurately applied to separation member by force-applying piece.

Description

Handle box

Technical field

The handle box that the utility model relates to be removably mounted in printer.

Background technique

It is rotatably mounted with the sensitive piece for carrying electrostatic latent image in existing handle box and is used for sensitive piece The development part of supply toner, in general, sensitive piece and development part are respectively installed in waste powder hopper and powder cabin, wherein powder cabin can It is rotated relative to waste powder hopper, and return unit is installed between powder cabin and waste powder hopper, when handle box does not need work in printer When making, in printer under preset force-applying piece effect, powder cabin and waste powder hopper separation, meanwhile, sensitive piece and development part are by contacting State is moved to not contact condition, for preventing sensitive piece and development part from causing sensitive piece surface contaminated because of Long Term Contact.

Specifically, for the component in conjunction with force-applying piece referred to as by force-applying piece, it is described that powder is fixedly installed to by force-applying piece On storehouse, and powder cabin shell is protruded from by force-applying piece, when force-applying piece is to when applying active force by force-applying piece, powder cabin rotates about axis Rotation, powder cabin are separated with waste powder hopper, meanwhile, sensitive piece is separated with development part；When the revocation of the active force of force-applying piece, powder cabin is multiple Under the reset response of position part, the opposite direction along its direction of rotation rotates, and powder cabin is recombined with waste powder hopper, sensitive piece and development part It is contacted again.

Existing structure the problem is that, described by force-applying piece is fixedly installed in powder cabin, and this requires forces The motion profile of part must be very accurate, just can ensure that active force is steadily transmitted to by force-applying piece, to printer and place For the structure for managing box, it is necessary to design it is very accurate.

Utility model content

The utility model provides a kind of handle box, wherein redesigning by the structure of force-applying piece, by that will be set by force-applying piece Be set to it is movable, to reduce the structure precision requirement of handle box and printer.

To achieve the above object, the utility model uses following technical scheme:

Handle box, it is multiple including powder cabin, waste powder hopper, first end cover, second end cover, the elasticity between powder cabin and waste powder hopper Position part, powder cabin is connected by first end cover with second end cover with useless powder, and powder cabin is rotatable relative to waste powder hopper；Powder cabin includes powder Storehouse shell and the development part being rotatably installed in powder cabin shell, waste powder hopper include waste powder hopper shell and rotatably pacify Sensitive piece in waste powder hopper shell, handle box further include the separation member for being rotatably installed in second end cover, the separation Part relative to powder cabin to be rotatably mounted.

Separation member can rotate between the first position and the second position, when separation member is located at first position, powder cabin and useless Powder cabin combines, and sensitive piece is contacted with development part；When separation member is located at the second position, powder cabin is separated with waste powder hopper, sensitive piece with Development part disengages.

Separation member can force powder cabin to rotate relative to waste powder hopper after receiving active force, while dynamic clamping head and quiet clamping head occurs Flexible deformation, after active force revocation, powder cabin resets rotation under the reset force effect of dynamic clamping head and quiet clamping head, with the reset of powder cabin Rotation, separation member are rotated back to the position for being not yet applied active force.

Separation member includes that force rod, actuating rod and the rotating part between force rod and actuating rod, force rod are used for Active force is received, actuating rod is used to active force being applied to powder cabin, so that powder cabin be forced to change position, rotating part is used for as separation The rotation of part provides rotation fulcrum.

Handle box further includes the bracket for being used to support development part, the power reception part for receiving driving force and is used for The protecting cover of power reception part is protected, the bracket and protecting cover be successively fixedly mounted on powder cabin shell, and power reception part passes through the Two end caps and expose, a part of separation member is between protecting cover and second end cover.

When the front-rear direction observation along handle box, a part of at least separation member is overlapped with bracket or protecting cover.

Protecting cover has the cavity for accommodating power reception part, and the periphery of the cavity is formed as cylindric, and separation member further includes setting It sets in arc groove wherein, the cylindric periphery cooperation of the arc groove and protecting cover.

After handle box completes assembling, actuating rod is than force rod closer to powder cabin shell.

As one of embodiment, the rotation axis of separation member and the rotation axis of powder cabin are parallel, and separation member Rotation axis is located at the lower section of the rotation axis of powder cabin.

As another embodiment, the rotation axis of separation member and the rotation axis coincident of powder cabin.

By the way that separation member to be installed in second end cover in a rotatable way, even if being located at the force-applying piece in printer Motion profile and scheduled motion profile have deviation, active force still can be accurately applied to separation member by force-applying piece, and By the separation member powder cabin and waste powder hopper are separated, while sensitive piece and development part also separate, thus, handle box divides in other words The manufacture installation accuracy of off member (by force-applying piece) can effectively reduce, correspondingly, the structure precision of printer can also be effectively lowered.

Detailed description of the invention

Fig. 1 is the perspective view for the handle box that the utility model embodiment one is related to.

Fig. 2 is the section components decomposition diagram for the handle box that the utility model embodiment one is related to.

Fig. 3 is the perspective view at the driving end for the handle box that the utility model embodiment one is related to.

Fig. 4 is the perspective view of separation member in handle box that the utility model embodiment one is related to.

Fig. 5 A and Fig. 5 B are the separation members that are related to of the utility model embodiment one respectively at first position and the second position, The corresponding state side view of each component in handle box.

Fig. 6 is the perspective view for the handle box that the utility model embodiment two is related to.

Fig. 7 is the section components decomposition diagram for the handle box that the utility model embodiment two is related to.

Fig. 8 is the perspective view of the separation member for the handle box that the utility model embodiment two is related to.

Fig. 9 is the cross-sectional view at the driving end for the handle box that the utility model embodiment two is related to.

Figure 10 A and Figure 10 B are the separation members that are related to of the utility model embodiment two respectively in first position and the second position When, the corresponding state side view of each component in handle box.

Specific embodiment

The embodiments of the present invention are described in detail with reference to the accompanying drawing.

[embodiment one]

Fig. 1 is the perspective view for the handle box that the utility model embodiment one is related to；Fig. 2 is that the utility model embodiment one relates to And handle box section components decomposition diagram；Fig. 3 is the driving end for the handle box that the utility model embodiment one is related to Perspective view.

As shown, handle box C includes powder cabin 1, waste powder hopper 2, first end cover 3, second end cover 4, is located at powder cabin 1 and useless powder Dynamic clamping head and quiet clamping head (not shown) between storehouse 2 and the separation member (by force-applying piece) 5 being rotatably installed in second end cover 4, Powder cabin 1 is rotatable relative to waste powder hopper 2, and the two is combined by first end cover 3 and second end cover 4, and separation member 5 is relative to second end Lid 4 is rotatable, and for forcing powder cabin 1 to separate after receiving active force with waste powder hopper 2, while dynamic clamping head and quiet clamping head occurs elasticity and becomes Shape, after active force revocation, under the reset force effect of dynamic clamping head and quiet clamping head, as powder cabin 1 returns to the position contacted with waste powder hopper 2 It sets, separation member 5 returns to the initial position before receiving active force.

The powder cabin 1 includes powder cabin shell 10 and the development part 11 being rotatably installed in powder cabin shell 10, and give up powder Storehouse 2 includes waste powder hopper shell 20 and the sensitive piece 21 being rotatably installed in waste powder hopper shell 20, when handle box C works, Powder cabin 1 and waste powder hopper 2 contact, meanwhile, sensitive piece 21 and development part 11 contact, under the action of separation member 5 and useless with powder cabin 1 Powder cabin 2 separates, and sensitive piece 21 and development part 11 disengage, and as powder cabin 1 is contacted with waste powder hopper 2 again, sensitive piece 21 It is contacted again with development part 11.

In general, one longitudinal end is for receiving driving force, another longitudinal end along the longitudinal direction of handle box C End is for receiving electric power, and specific in the utility model, the place side of first end cover 3 is for receiving electric power, the institute of second end cover 4 In side for receiving driving force, thus, first end cover 3 is referred to alternatively as conductive end cap, and second end cover 4 is referred to alternatively as Driving terminal； Further, it defines, being directed toward powder cabin 1 from waste powder hopper 2 is front, and being directed toward Driving terminal 4 from conductive end cap 3 is right, is never pacified It is top that the side of dress development part 11 or sensitive piece 21, which is directed toward and is equipped with the side of development part 11 or sensitive piece 21, correspondingly, institute The opposite direction for stating front, right and top is respectively rear, left and lower section.

Further, as described in Figure 2, powder cabin 1 further includes the bracket 12 for being used to support development part, for receiving driving force Power reception part 15 and protecting cover 13 for protecting power reception part 15, the bracket 12 and protecting cover 13 are successively fixedly mounted On powder cabin shell 10, power reception part 15 passes through Driving terminal 4 and exposes；The separation member 5 is pacified in a rotatable way It on Driving terminal 4, and can be rotated around rotation axis L2, powder cabin 1 is rotated around the rotation axis L1 of power receiving element 15, preferably , rotation axis L2 is parallel to each other with rotation axis L1, and rotation axis L1 is located at the top of rotation axis L2, therefore, separation The Plane of rotation of part 5 is vertical with the rotation axis L1 of powder cabin 1.

Fig. 4 is the perspective view of separation member in handle box that the utility model embodiment one is related to.

Separation member 5 includes force rod 51, actuating rod 52 and the rotating part 53 between force rod 51 and actuating rod 52, Wherein, for receiving active force, actuating rod 52 is used to active force being applied to powder cabin 1 force rod 51, so that powder cabin 1 be forced to change Position, rotating part 53 are used to provide rotation fulcrum for the rotation of separation member 5.In the utility model embodiment, the length of force rod 51 Degree is greater than the length of actuating rod 52, i.e. separation member 5 is configured to a laborsaving lever, as described above, rotation axis L1 is located at rotation The top of axis L2 applies same size active force in force-applying piece so that separation member 5 is easier to become a laborsaving lever In the case where, the separation member 5 in the present embodiment can produce a bigger urgent thrust, and bring effect is development part 11 and photosensitive The separated gap of part 21 is bigger, is more advantageous to protection development part 21 and is not contaminated.

In conjunction with Fig. 2 and Fig. 3, in the lateral direction, separation member 5 is between powder cabin shell 10 and Driving terminal 4, more specifically , a part of separation member 5 between protecting cover 13 and Driving terminal 4, another part be located at powder cabin shell 10 and protecting cover 13 it Between, but separation member 5 is integrally located between powder cabin shell 10 and Driving terminal 4；When being observed along front-rear direction, at least separation member 5 a part is overlapped with bracket 12 or protecting cover 13, and when separation member 5 rotates, at least one the bracket 12 and protecting cover 13 can be propped up Separation member 5 is supportted, part 5 is prevented separation and deviates its predetermined rotational trajectory.

As shown in Figure 2 and Figure 4, protecting cover 13 has the cavity for accommodating power reception part 15, and the periphery 131 of the cavity is formed as Cylindric, the force rod 51 of separation member 5 includes the company for receiving the power receiving unit 511 of active force and connecting with rotating part 53 Extension bar 513, actuating rod 52 have the function of for 1 transmitting forces end 521 of powder cabin, connecting rod 513 and effect end 521 Between be additionally provided with evacuation bar, it is preferred that power receiving unit 511 is formed as cylindrical bar, and evacuation bar and rotating part 53 are integrally formed, That is rotating part 53 exists in the form of avoiding bar, separation member 5 is rotated around rotating part 53, specifically, rotating part 53 is provided with Rotating gravure 531, correspondingly, as shown in Fig. 2, the main body 40 of Driving terminal 4 towards the side of powder cabin 1 be provided with for rotation The protrusion 41 that groove 531 combines, by the combination of protrusion 41 and rotating gravure 531, separation member 5 is relative on Driving terminal 4 It is rotatably mounted, alternatively, the position of the protrusion 41 and rotating gravure 531 is also interchangeable, by described prominent The combination of 41 and rotating gravure 531 is played, the rotational trajectory of separation member 5 can be determined.

Further, connecting rod 513 is provided with the arc groove 512 of cylindric peripheral 131 cooperation for protecting cover 13, when When separation member 5 rotates, arc groove 512 is slided along cylindric peripheral the 131 of protecting cover 13, thus, connecting rod 513 is by protecting cover 13 Support；The evacuation bar 53 enables effect end 521 closer to powder cabin shell 10 for avoiding bracket 12 and protecting cover 13, That is, after handle box C completes to assemble, effect end 521 than force rod 51 closer to powder cabin shell 10, thus, stress The active force that bar 51 receives can pass through effect end 521 effect to powder cabin shell 10；It is greater than effect in the length of force rod 51 In the case where the length of bar 52, separation member 5 by the combination of the protrusion 41 and rotating gravure 531 and arc groove 512 with Cylindric peripheral 131 combination of protecting cover 13, motion profile can accurately be kept, and finally, the active force of force rod 51 is made The predetermined position of powder cabin shell 10 is accurately applied to end 521.

Powder cabin 1, which is described, below with reference to Fig. 5 A and Fig. 5 B is integrated to the moving process separated, Fig. 5 A and Fig. 5 B from waste powder hopper 2 It is the separation member that is related to of the utility model embodiment one respectively at first position and the second position, the phase of each component in handle box Side view of the state is answered, to make what the motion process of separation member 5 was expressed to become apparent from, driving end is concealed in Fig. 5 A and Fig. 5 B Lid 4, conductive end cap 3, bracket 12 and protecting cover 13.

When the separation member 5 is located at first position, active force is not yet applied to separation member 5, at powder cabin 1 and waste powder hopper 2 In bonding state, sensitive piece 21 contacts with each other with development part 11；When separation member 5 is located at the second position, at powder cabin 1 and waste powder hopper 2 In discrete state, sensitive piece 21 is separated from each other with development part 11.As shown, powder cabin shell 10 is additionally provided with for last with effect The stress protrusion 16 that end 521 combines, when the active force that force rod 51 receives is applied to stress protrusion 16 by effect end 521 When, powder cabin 1 is driven to be rotated around first rotation L1.

As shown in Figure 5A, separation member 5 is located at first position, acts on end 523 at this time and is not combined with stress protrusion 16, when pre- When being located at force-applying piece 6 in printer and applying active force to power receiving unit 511 along direction shown in M, separation member 5 using P point as the center of circle, Start to rotate along direction shown in r1, by cylindric peripheral 131 guiding of protecting cover 13 and leading for rotating gravure 531 and protrusion 41 Draw, active force is passed to effect end 521, and as described in Fig. 5 B, separation member 5 is located at the second position, acts on end 521 and stress Protrusion 16 contacts, and active force is transferred to powder cabin shell 10 by stress protrusion 16, and subsequent powder cabin 1 is circle with Q point in Fig. 5 A The heart starts to rotate along direction shown in r2, and powder cabin 1 is separated with waste powder hopper 2, gap g, position occurs between sensitive piece 21 and development part 11 Flexible deformation occurs for the return unit between powder cabin 1 and waste powder hopper 2.

When force-applying piece 6 is moved along the direction N contrary with shown in M, the active force revocation of force rod 51, In are acted on Under the elastic reset power effect of return unit, powder cabin 1 starts to rotate along the opposite direction in direction shown in r2 using Q point in Fig. 5 A as the center of circle, Meanwhile stress protrusion 16 compels to push away opposite direction rotation of the effect end 521 using P point in Fig. 5 A as the center of circle along direction shown in r1, finally, Powder cabin 1 returns to the state combined with waste powder hopper 2, and separation member 5 returns to first position from the second position.

As described above, after force-applying piece 6 applies active force to separation member 5, separation member 5 is first in the utility model embodiment It is driven to rotate, the separation member 5 then rotated drives powder cabin 1 to rotate, and separates sensitive piece 21 with development part 11, also To say, after separation member 5 receives active force, the movement of separation member 5 earlier than powder cabin 1 movement, thus, even if force-applying piece 6 is inclined From its scheduled motion profile, the premature movement of separation member 5 may be that the active force for the mistake that force-applying piece 6 is applied provides Buffering, without being directly applied to powder cabin 1.

As described above, separation member 5 is configured to rotatable, after separation member 5 receives active force, pass through the rotation of separation member 5 Turn, active force is passed to powder cabin shell 10, and then causes powder cabin 1 around the rotation axis for being different from 5 rotation axis L2 of separation member L1 is rotated along direction shown in r1, and powder cabin 1 is separated with waste powder hopper 2, and sensitive piece 21 is become separating with development part 11 from contact, separation member 5 reach the second position from first position, meanwhile, flexible deformation occurs for the return unit between powder cabin 1 and waste powder hopper 2；With Be applied to separation member 5 active force revocation, return unit elastic reset power effect under, powder cabin 1 around with it is contrary shown in r1 Direction rotate, separation member 5 is rotated with the rotation of powder cabin 1 from the second position towards first position, when separation member 5 reaches first When position, powder cabin 1 is contacted again with waste powder hopper 2, and sensitive piece 21 is contacted again with development part 11.

[embodiment two]

Fig. 6 is the perspective view for the handle box that the utility model embodiment two is related to；Fig. 7 is that the utility model embodiment two relates to And handle box section components decomposition diagram；Fig. 8 is the separation member for the handle box that the utility model embodiment two is related to Perspective view；Fig. 9 is the cross-sectional view at the driving end for the handle box that the utility model embodiment two is related to.

Only the structure of separation member is different from above-described embodiment for the present embodiment, and other structures are essentially identical, thus the present embodiment Component same as the previously described embodiments will be used and will be identically numbered.

As described in Figure 6, separation member 7 is rotatably mounted in second end cover 4 in the present embodiment, for receiving work Powder cabin 1 is forced to separate after firmly with waste powder hopper 2, while flexible deformation occurs for dynamic clamping head and quiet clamping head, after active force revocation, in elasticity Under the reset force effect of return unit, as powder cabin 1 returns to the position contacted with waste powder hopper 2, before separation member 7 returns to reception active force Initial position.

As shown in fig. 7, the main body 40 of second end cover 4 is provided with the opening 42 for allowing the exposure of power reception part 15；Such as Shown in Fig. 9, separation member 7 includes force rod 71, actuating rod 72 and the rotating part 73 between force rod 71 and actuating rod 72, Likewise, force rod 71 is for receiving active force, actuating rod 72 is used to active force being applied to powder cabin 1, so that powder cabin 1 be forced to change Displacement is set, and rotating part 73 is used to provide rotation fulcrum for the rotation of separation member 7.In the present embodiment, the rotating part 73 is configured to Annulus, separation member 7 are installed in second end cover 4 in a rotatable way by annulus 73.

Specifically, the annulus 73 of separation member 7 is socketed in opening 42, so that the rotation of the rotation axis of separation member 7 and powder cabin 1 Axis L1 is overlapped, as shown in figure 8, annulus 73 is between second end cover 4 and protecting cover 13, more specifically after handle box C completes assembling , annulus 73 is located between second end cover 4 and cylindric peripheral the 131 of protecting cover 13, thus, when separation member 7 is around rotation axis L1 When rotation, protecting cover 13 can play the role of limiting 7 rotational trajectory of separation member；As shown in fig. 7, along the front-rear direction of handle box C When observation, at least a part of separation member 7 is overlapped with bracket 12 or protecting cover 13.

Continue as shown in figure 9, force rod 71 is provided with the power receiving unit 711 for receiving active force, likewise, power receives Portion 711 is also cylindrical bar, since rotating part 73 is annulus in the present embodiment, thus, the inner surface 74 of annulus 73 can be considered as Rotating gravure, the rotating gravure 74 are used for cylindric peripheral 131 cooperation with protecting cover 13, and the rotation different from above-described embodiment is recessed Slot 531 only cooperates on cylindric peripheral 131 part-circular periphery of protecting cover 13, the annulus 73 in whole circumference all with protecting cover 13 cylindric peripheral 131 cooperation, and annulus 73 is also installed in second end cover 4, thus, when separation member 7 rotates, separation Part 7 can be limited by cylindric peripheral the 131 of protecting cover 13 and second end cover 4 simultaneously, and rotational trajectory will be more stable.

Figure 10 A and Figure 10 B are the separation members that are related to of the utility model embodiment two respectively in first position and the second position When, the corresponding state side view of each component in handle box.

For the motion process for becoming apparent from display separation member 7 and powder cabin 1, first end cover 3 and second end cover 4 are concealed in figure, By the motion process of separation member 5 and powder cabin 1 in separation member 7 in this present embodiment and the motion process and above-described embodiment of powder cabin 1 It is similar, therefore motion process of separation member 7 and powder cabin 1 is only made a brief description at this.

When separation member 7 is located at first position, the actuating rod 72 is not combined actuating rod 72 in other words with stress protrusion 16 Portion applies active force to force raised 16；As shown in Figure 10 A, when force-applying piece 6 applies active force to separation member 7 along direction shown in M When, separation member 7 is rotated around S point along direction shown in r1, with the rotation of separation member 7 in the aforementioned direction, actuating rod 72 gradually to Stress protrusion 16 applies active force, and in this implementation, stress protrusion 16 is arranged on protecting cover 13, thus, protecting cover 13 can drive Bracket 12 and powder cabin shell 10 are rotated around S point along direction shown in r1 together, meanwhile, the elasticity between powder cabin 1 and waste powder hopper 2 Flexible deformation occurs for return unit, and separation member 7 is located at the second position.

As shown in Figure 10 B, when the stopping of force-applying piece 6 is moved along direction shown in M, separation member 7 and powder cabin 1 are stopped rotating, At this point, powder cabin 1 and waste powder hopper 2 separate, development part 11 and sensitive piece 21 are also separated, and gap g are formed therebetween, as long as force-applying piece 6 apply active force towards force rod 71 always, and powder cabin 1 and waste powder hopper 2 will be always maintained at discrete state, and develop part 11 and sensitive piece 21 are also always maintained at discrete state.

When force-applying piece 6 is moved along the direction N contrary with shown in M, under the reset force effect of dynamic clamping head and quiet clamping head, powder Storehouse 1 is rotated around the direction contrary with shown in r1, and separation member 7 is as the rotation of powder cabin 1 is from the second position towards first position Rotation, when separation member 7 reaches first position, powder cabin 1 is contacted again with waste powder hopper 2, sensitive piece 21 with develop part 11 also again Contact.

Stress protrusion 16 is arranged on protecting cover 13 in the present embodiment, however, stress protrusion 16 can also be such as above-mentioned implementation Example is equally arranged on powder cabin shell 10, or is arranged on bracket 12, especially when stress protrusion 16 is arranged on powder When on storehouse shell 10, the length of the force rod 71 of the separation member 7 will be longer than the length of actuating rod 72, actuating rod 72 It than force rod 71 (power receiving unit 711) closer to powder cabin shell 10, and observes along the front-rear direction of handle box C, at least divides A part of off member 7 is overlapped with bracket 12 or protecting cover 13.

As described above, separation member 5 (7) is installed in a rotatable way in second end cover 4, i.e., in the utility model The motion profile and scheduled motion profile for making the force-applying piece 6 being located in printer have deviation, and force-applying piece 6 can will still act on Power is accurately applied to separation member 5 (7), and by the separation member 5 (7) powder cabin 1 and waste powder hopper 2 is separated, while sensitive piece 21 and development part 11 also separate, thus, the manufacture installation accuracy of handle box C separation member (by force-applying piece) 5 (7) in other words can be effective It reduces.

Claims (10)

1. handle box, including powder cabin, waste powder hopper, first end cover, second end cover, the elastic reset between powder cabin and waste powder hopper Part, powder cabin and useless powder are connected by first end cover with second end cover, and powder cabin is rotatable relative to waste powder hopper；

Powder cabin includes powder cabin shell and the development part being rotatably installed in powder cabin shell, and waste powder hopper includes waste powder hopper shell And it is rotatably installed in the sensitive piece in waste powder hopper shell,

It is characterized in that,

Handle box further includes the separation member for being rotatably installed in second end cover, and the separation member is with rotatable relative to powder cabin Mode is mounted.

2. handle box according to claim 1, which is characterized in that separation member can revolve between the first position and the second position Turn, when separation member is located at first position, in conjunction with waste powder hopper, sensitive piece contacts powder cabin with development part；When separation member is located at the When two positions, powder cabin is separated with waste powder hopper, and sensitive piece is disengaged with development part.

3. handle box according to claim 1, which is characterized in that separation member can force powder cabin after receiving active force It is rotated relative to waste powder hopper, while flexible deformation occurs for dynamic clamping head and quiet clamping head, after active force revocation, powder cabin is in dynamic clamping head and quiet clamping head Reset force effect is lower to reset rotation, and as the reset of powder cabin rotates, separation member is rotated back to the position for being not yet applied active force.

4. handle box according to claim 1, which is characterized in that separation member include force rod, actuating rod and be located at by Rotating part between power bar and actuating rod, force rod are used to active force being applied to powder cabin for receiving active force, actuating rod, from And powder cabin is forced to change position, rotating part is used to provide rotation fulcrum for the rotation of separation member.

5. handle box according to claim 1, which is characterized in that handle box further include be used to support development part bracket, Protecting cover for receiving the power reception part of driving force and for protecting power reception part, the bracket and protecting cover are successively solid Dingan County is on powder cabin shell, and power reception part is exposed by second end cover, and a part of separation member is located at protecting cover and second Between end cap.

6. handle box according to claim 5, which is characterized in that when the front-rear direction observation along handle box, at least A part of separation member is overlapped with bracket or protecting cover.

7. handle box according to claim 5, which is characterized in that protecting cover has the cavity for accommodating power reception part, the chamber The periphery of body is formed as cylindric, and separation member further includes the arc groove being disposed therein, the circle of the arc groove and protecting cover The cooperation of column periphery.

8. handle box according to claim 4, which is characterized in that after handle box completes assembling, actuating rod is more than force rod Close to powder cabin shell.

9. handle box described in any one of -8 claims according to claim 1, which is characterized in that the rotary shaft of separation member Line is parallel with the rotation axis of powder cabin, and the rotation axis of separation member is located at the lower section of the rotation axis of powder cabin.

10. handle box described in any one of -8 claims according to claim 1, which is characterized in that the rotation of separation member The rotation axis coincident of axis and powder cabin.