CN108762032A - Handle box, image forming apparatus and handle box mount and dismount method - Google Patents
Handle box, image forming apparatus and handle box mount and dismount method Download PDFInfo
- Publication number
- CN108762032A CN108762032A CN201810948996.7A CN201810948996A CN108762032A CN 108762032 A CN108762032 A CN 108762032A CN 201810948996 A CN201810948996 A CN 201810948996A CN 108762032 A CN108762032 A CN 108762032A
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- CN
- China
- Prior art keywords
- handle box
- shell
- steering pivot
- steering
- forming apparatus
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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Classifications
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G21/00—Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
- G03G21/16—Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements
- G03G21/18—Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements using a processing cartridge, whereby the process cartridge comprises at least two image processing means in a single unit
- G03G21/1803—Arrangements or disposition of the complete process cartridge or parts thereof
- G03G21/1814—Details of parts of process cartridge, e.g. for charging, transfer, cleaning, developing
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G21/00—Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
- G03G21/16—Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements
- G03G21/18—Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements using a processing cartridge, whereby the process cartridge comprises at least two image processing means in a single unit
- G03G21/1839—Means for handling the process cartridge in the apparatus body
- G03G21/1842—Means for handling the process cartridge in the apparatus body for guiding and mounting the process cartridge, positioning, alignment, locks
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G21/00—Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
- G03G21/16—Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements
- G03G21/18—Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements using a processing cartridge, whereby the process cartridge comprises at least two image processing means in a single unit
- G03G21/1839—Means for handling the process cartridge in the apparatus body
- G03G21/1857—Means for handling the process cartridge in the apparatus body for transmitting mechanical drive power to the process cartridge, drive mechanisms, gears, couplings, braking mechanisms
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- Engineering & Computer Science (AREA)
- Computer Vision & Pattern Recognition (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Electrophotography Configuration And Component (AREA)
Abstract
This application provides a kind of handle box, image forming apparatus and handle boxes to mount and dismount method, handle box includes shell, the shell has outer surface, the shell is equipped with the first steering pivot portion, first steering pivot portion is protruded relative to the outer surface of the shell, the handle box can be rotated by fulcrum of first steering pivot portion, so that the handle box tilts installation.The application can facilitate handle box inclination to be installed in image forming apparatus.
Description
Technical field
This application involves a kind of image forming apparatus technical field more particularly to handle box, image forming apparatus and places
It manages box and mounts and dismounts method.
Background technology
Handle box is a kind of cartridge being detachably loaded with respect in image forming apparatus host, and handle box is as a whole
Unit, including shell, photosensitive drums and/or developer roll etc..Handle box is dismountable relative to image forming apparatus host, is convenient for
The maintenance of equipment.When being installed in image forming apparatus, traditional mounting means is vertical or is parallelly packed into handle box,
But also there is the handle box being packed into an inclined manner now, such as Publication No. CN105785739A, CN106647208A
China applies for a patent handle box disclosed in application, by the way that installation guide part is arranged on the end plate of handle box so that handle box
It can be encased in image forming apparatus in an inclined manner.
Due to most of handle box on the market be all using it is traditional it is perpendicular or parallel by the way of be packed into image forming apparatus
In, user is always accustomed to installing again after ajusting handle box, cause when using the handle box installed in an inclined manner
Such handle box is installed in image forming apparatus with can not be successfully.In addition, the Chinese Shen of Publication No. CN106647208A
Please patent application it is revealed for the ease of handle box tilt installation linkage mechanism structure it is complex.
Invention content
This application provides a kind of handle box, image forming apparatus and handle boxes to mount and dismount method, to facilitate place
Reason box inclination is installed in image forming apparatus.
The first aspect of the application provides a kind of handle box comprising shell, the shell have outer surface, the shell
Body is equipped with the first steering pivot portion, and first steering pivot portion is protruded relative to the outer surface of the shell, the processing
Box can be rotated by fulcrum of first steering pivot portion, so that the handle box tilts installation.
Optionally, first steering pivot portion is located at the shell along the longitudinal direction and perpendicular to the length of the shell
The side of the center line in direction.
Optionally, first steering pivot portion is projected as curve on the roof of the shell, and the curve is along institute
State shell length direction extend, and the curve towards the side before the shell be convex surface.
Optionally, first steering pivot portion is projected as straight line on the roof of the shell, and the straight line is along institute
The length direction for stating shell extends.
Optionally, first steering pivot portion is rotationally connected with the shell.
Optionally, the axis in first steering pivot portion extends along the length direction of the shell, and described first turns to
The rear portion of fulcrum is abutted against with the shell, and it is empty that rotation is equipped between the front and the shell in first steering pivot portion
Between.
Optionally, reduction torsion spring, the reduction torsion spring and first steering pivot portion are additionally provided on the shell
At least part abuts.
Optionally, the first steering guide portion is additionally provided on the shell, described first turns to guide portion and described first
Steering pivot portion is located at the both sides of the center line of the shell along the longitudinal direction.
Optionally, the first steering guide portion is the broken line or song being recessed towards the direction in first steering pivot portion
Line.
Optionally, vertically-guided portion is additionally provided on the shell, the vertically-guided portion setting is turned to described first draws
Lead the front in portion.
Optionally, guide part is additionally provided on the surface of the shell, the guide part includes the length along the shell
The first guide part and the second guide part of the spaced setting in direction.
Optionally, at least part and the length direction of the shell of first guide part and the second guide part are formed
The angle of non-90 degree.
Optionally, two limiting sections are additionally provided on the shell, two limiting sections are located at the shell along long
Spend the both sides in direction and towards before the shell.
Optionally, the second steering guide portion is additionally provided on the shell, described second turns to guide portion relative to the shell
The length direction of body forms at an angle and is arranged on the surface of the shell.
Optionally, contact projection is additionally provided on the shell, the roof in the shell is arranged in the contact projection, described
Contact projection is arranged to abut with the actuating mechanism of image forming apparatus.
Optionally, a part for the contact projection is obliquely installed relative to the front-rear direction of the shell.
Optionally, a part for the contact projection and the front-rear direction of the shell are arranged in parallel.
Optionally, a part for the contact projection forms the first of the handle box and turns to guide portion.
Optionally, the contact projection include the first contact projection and the second contact projection, first contact projection with
Second contact projection is arranged along the length direction interval of the shell.
Optionally, the handle box includes driving force receiving terminal, and the contact projection compares first steering pivot portion
Closer to the driving force receiving terminal.
Optionally, the handle box includes driving force receiving terminal, and first steering pivot portion is relative to the shell
Length direction is arranged far from the side of the driving force receiving terminal.
Optionally, the shell is equipped with the first limit protrusion, first limit protrusion along the one end in length direction
It is equipped with the first anti-interference structure, is interfered with image forming apparatus when preventing handle box from rotating.
Optionally, the first anti-interference structure includes the first anti-interference portion, and first anti-interference portion is arranged described
The front side of the end face of first limit protrusion.
Optionally, the first anti-interference structure includes the second anti-interference portion, and second anti-interference portion is arranged described
The front side on the top of the first limit protrusion.
Optionally, the shell is equipped with the second limit protrusion, second limit protrusion along the one end in length direction
Side be equipped with the second anti-interference structure, interfered with image forming apparatus when preventing handle box from rotating.
Optionally, the second anti-interference structure is convex structure.
Optionally, any handle box above-mentioned is removably installed in a kind of image forming apparatus, and described image is formed
Steering pivot abutting part is provided in device, during the handle box is installed to described image forming apparatus, described
One steering pivot portion is contacted with the steering pivot abutting part makes the handle box rotate.
A kind of image forming apparatus, including any one aforementioned handle box, the handle box are removably attachable to described
In image forming apparatus.
A kind of method of handle box installation and removal, using aforementioned any handle box, the handle box is removably
It is connected in image forming apparatus.
Optionally, the method for handle box installation and removal, when installation, including step P1:
The steering pivot abutting part being arranged in first steering pivot portion and described image forming apparatus abuts to form the
One steering pivot, and the handle box is made to be rotated around first steering pivot.
Optionally, further include step P11 after step P1:
The shell is equipped with first and turns to guide portion, is set in the first steering guide portion and described image forming apparatus
The steering guiding abutting part set abuts against to form steering guideway, and the handle box is around first steering pivot and along described turn
Direction guiding rail pair rotates, and the handle box is made to tilt.
Optionally, further include step P0 before step P1:
Vertically-guided portion is equipped with before the first steering guide portion, the vertically-guided portion is supported with steering guiding
Socket part, which abuts against to be formed, vertically moves guideway, and the handle box vertically moves guideway described in and moves, until described first
Steering pivot portion is abutted with the steering pivot abutting part.
Further include optionally step P12 after step P1:
First steering pivot portion is with the steering pivot abutment portion from the guide part is formed with described image and filled
The guiding abutting part for setting interior setting abuts to form inclination installation guideway, and the handle box is tilted along inclination installation guideway
It is installed to described image forming apparatus.
Optionally, further include step P13 after step P1:
Towards confined planes are respectively equipped with before the shell, the handle box inclines for the both sides of the shell along its length
After being tiltedly installed in place, one of them described confined planes is contacted with the first limited block being arranged in described image forming apparatus, and
Forming rotating fulcrum makes the handle box rotate, until another described confined planes be arranged in described image forming apparatus the
Two limited blocks contact.
Optionally, first steering pivot portion is rotationally connected with the shell, the rotation in first steering pivot portion
Axis extends along the length direction of the shell, and rear portion and the shell in first steering pivot portion abut against, and described the
Rotation space is equipped between the front and the shell in one steering pivot portion, when dismounting, including step P2:
First steering pivot portion rotates forward, avoids the steering pivot abutting part being arranged in image forming apparatus to institute
The dismounting for stating handle box generates obstruction.
Technical solution provided by the present application can reach following advantageous effect:
The shell of handle box provided by the present application is equipped with the first steering pivot portion, and handle box can be with first turn when installation
To fulcrum be fulcrum rotation so that handle box tilt installation, while the first steering pivot portion with shell along the length of shell
Spend direction movement;When handle box is tilted in place, the first steering pivot portion disengages, and handle box inclination is encased in image forming apparatus
It is interior.Handle box provided by the present application is simple in structure, tilts installation smooth-going, is easy for installation and removal.
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 a kind of structural schematic diagram of handle box provided by the embodiments of the present application;
Fig. 2 is the schematic diagram of another angle of handle box shown in FIG. 1;
Fig. 3 is schematic diagram when handle box shown in FIG. 1 starts to be installed to image forming apparatus;
Fig. 4 is close-up schematic view when handle box shown in Fig. 3 starts to be installed to image forming apparatus;
Schematic diagram when Fig. 5 is handle box Sloped rotating shown in FIG. 1;
Fig. 6 is schematic diagram when handle box shown in FIG. 1 ajusts rotation;
Fig. 7 is schematic diagram when handle box shown in FIG. 1 is installed in place;
Fig. 8 is the structural schematic diagram of another handle box provided by the embodiments of the present application;
Fig. 9 is a kind of schematic diagram of embodiment of the first guide part of handle box shown in Fig. 8;
Figure 10 is the status diagram that another handle box provided by the embodiments of the present application is installed to image forming apparatus;
Figure 11 is another status diagram that handle box shown in Fig. 10 is installed to image forming apparatus;
Figure 12 is the close-up schematic view at B-2 in Figure 11;
Figure 13 is the close-up schematic view at B-3 in Figure 11;
Figure 14 is another status diagram that handle box shown in Fig. 10 is installed to image forming apparatus;
Figure 15 is the close-up schematic view at B-2 in Figure 14;
Figure 16 is the close-up schematic view at B-3 in Figure 14;
Figure 17 is another status diagram that handle box shown in Fig. 10 is installed to image forming apparatus;
Figure 18 is the close-up schematic view at D in Figure 17;
Figure 19 is the status diagram of handle box shown in Fig. 10 peace in place;
Figure 20 is handle box shown in Figure 19 along the cross section view in the directions C-C;
Figure 21 is the close-up schematic view at E in Figure 20;
Figure 22 is the steering pivot abutting part and stop column phase interaction when dismantling handle box from image forming apparatus
Schematic diagram;
Figure 23 is the close-up schematic view at F in Figure 22;
Figure 24 is the three-dimensional view of another handle box provided by the embodiments of the present application;
Figure 25 is the close-up schematic view at G in Figure 24;
Figure 26 is the schematic diagram of the second anti-interference structure and the cooperation of urgent push part;
Figure 27 is the structural schematic diagram of the non-driven power receiving terminal of handle box;
Figure 28 is the close-up schematic view at H in Figure 27;
Figure 29 is the side wall contact condition schematic diagram of handle box and image forming apparatus;
Figure 30 is the close-up schematic view at I in Figure 29;
Figure 31 is the schematic diagram at the place of the non-driven power receiving terminal of handle box;
Figure 32 is the close-up schematic view at J in Figure 31;
The right side that Figure 33 is Figure 32 regards schematic diagram;
Figure 34 is to remove the schematic diagram after urgent push part in Figure 32.
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
It is described in further detail below by specific embodiment and in conjunction with attached drawing to the application.
In the following description, the loading direction definition into handle box during image forming apparatus 200 is installed with handle box
It is forward and backward, that is, it is opposite rear into image forming apparatus 200 before the side for being introduced into image forming apparatus 200 when installing is
After side is, front-rear direction is diagram Y-direction.
As shown in Fig. 1-Figure 34, this application provides a kind of image forming apparatuses 200 comprising handle box, handle box can
It is releasably connected in image forming apparatus 200.As shown in figure 3, steering pivot can be provided in image forming apparatus 200
Abutting part 203, when handle box touches steering pivot abutting part 203, the forward linear movement of handle box is hindered simultaneously
It rotates, so that handle box inclination is installed in image forming apparatus, specifically, the left and right directions of handle box, i.e. handle box
Shell length direction, the installation direction for being fit into image forming apparatus before capable of being rotated with handle box forms non-90 degree
Angle realizes the inclination installation of handle box.Further, which can be arranged to be formed in image and fill
On the roof for setting the handle box installation position being arranged in 200.Image forming apparatus 200 is also provided with 206 He of the first limited block
Handle box is installed in place when second limited block 207, the first limited block 206 and the second limited block 207 are contacted with handle box.
Further, steering guiding abutting part 201 can also be set in image forming apparatus 200, to turn to handle box
It is dynamic to play guiding function.
It is to be appreciated that handle box can tilt to the left when being packed into image forming apparatus 200, it can also be to the right
It rolls tiltedly, or can rotate counterclockwise and can also rotate clockwise.Embodiment provided by the present application is carried out with tilting to the left
Detailed description.It, only need to be by the whole left and right mirror symmetry of each embodiment provided by the present application when tilting to the right.Specifically
Ground, handle box include shell 100 and the developing cell that is arranged in shell 100, the developing cell may include photosensitive drums and/
Or developer roll.The axis a of developing cell is arranged along the length direction of shell 100, and the driving force receiving terminal of developing cell (referred to as drives
Power reception end) it is arranged on the end face along its length of shell 100.Define the single perpendicular to development of driving force receiving terminal
The end face of the axis of member is that driving force receives transverse plane.
Specifically, referring to Fig. 1 and Fig. 2, shell 100 have outer surface, the outer surface may include antetheca s1, rear wall s2,
Left side wall s3, right side wall s4, roof s5 and bottom wall (not shown).Bottom wall is oppositely arranged with roof s5, and antetheca s1 is connected to roof
Between s5 and bottom wall, left side wall s3 and right side wall s4 are located at the both sides along its length of shell 100.
Further, handle box provided by the present application includes shell 100, and shell 100 is equipped with the first steering pivot portion
101, the first steering pivot portion 101 is protruded relative to the outer surface of shell, and handle box can be branch with the first steering pivot portion 101
Point rotation, so that handle box tilts installation.Specifically, the first steering pivot portion 101 contacts formation with steering pivot abutting part 203
First rotating fulcrum, at this point, the forward linear movement of handle box is hindered (along moving for Y-direction) and tilt rotation occurs.The
One steering pivot portion 101 fixed or movable can be connected to shell 100.
Further, the first steering pivot portion is arranged far from the driving force of handle box along the length direction of handle box shell
The side of receiving terminal.
Specifically, installation guide surface Q can be provided on right side wall s4, the transverse plane of installation guide surface Q is relative to development
The axis of unit tilts (out of plumb) setting, and the guiding for protruding from the transverse plane can be arranged on the transverse plane of installation guide surface Q
Muscle, the outer profile of guiding rib are parallel with the transverse plane.During handle box installs or removes, installation guide surface Q can make processing
Box is fitted into an inclined manner in image forming apparatus 200.
Further, the first steering pivot portion 101 is located at shell along the longitudinal direction and perpendicular to the length direction of handle box
Center line side, i.e. the first steering pivot portion 101 is arranged close to shell one end along its length, so that handle box is equipped with
The forward linear movement in one end in the first steering pivot portion 101 is hindered, and handle box is not provided with the first steering pivot portion 101
The unobstructed continuation in one end is forward rectilinear mobile, to make handle box run-off the straight rotate.
Further, as shown in Figure 1, Figure 2 and Figure 3, throwing of the first steering pivot portion 101 on the roof s5 of shell 100
Shadow can be curve, the curve along shell length direction extend, and towards the side before shell 100 be convex surface.It is preferred that
The front side on ground, the first steering pivot portion 101 is cambered surface or spherical surface, and simple in structure, steering is steady.
Specifically, the first steering pivot portion 101 can be set on roof s5, and protrude from the surface of roof s5, and first
Steering pivot portion 101 is located at the left side front of roof s5, and the front end in the first steering pivot portion 101 is cambered surface or spherical surface.
More specifically, the first steering pivot portion 101 can be the cylinder for protruding from roof s5, the rear portion of the cylinder can be set
The reinforcement structure (extending direction of reinforcement structure receives the angle that transverse plane A forms non-90 degree with driving force) being obliquely extended is set,
To reinforce the structural strength in the first steering pivot portion 101, which can be that the convex ribs being obliquely extended can also be multiple
The pillar of oblique consecutive intervals arrangement.It is preferred that the front side in the first steering pivot portion 101 protrudes from antetheca s1, so that handle box is filling
The initial stage for entering image forming apparatus 200 can run-off the straight.It is to be appreciated that the front side in the first steering pivot portion 101 can also
Behind antetheca s1 (i.e. the front side in the first steering pivot portion 101 does not protrude from antetheca s1, as shown in Figure 8).
Further, referring to Figure 10, the first steering pivot portion 101 is projected as straight line on the roof s5 of shell 100, should
Straight line extends along the length direction of shell 100.At this point, the cambered surface with the straight contact can be equipped in image forming apparatus 200
Or corner structure.That is, the first steering pivot portion 101 and projection of the steering pivot abutting part 203 on roof s5, wherein
One is curve, and another one is straight line, makes contact to form dotted line.
Specifically, when the first steering pivot portion 101 on the roof s5 of shell 100 when being projected as straight line, referring to Figure 10-
Figure 16, the first steering pivot portion 101 can be arranged to stop column A101.When handle box Sloped rotating, it is mounted on handle box
Stop column A101 can also be followed by handle box tilt rotation together, when the inclination of handle box first time in place when, stop column A101
Just avoid the steering pivot abutting part 203 being arranged on image forming apparatus 200.To enable handle box to keep inclined shape
State moves forward.
Further, the first steering pivot portion 101 can be rotationally connected with shell 100.The axis in the first steering pivot portion 101
Line (such as pin A103) extends along the length direction of shell 100, and rear portion and the shell 100 in the first steering pivot portion 101 offset
It connects, rotation space is equipped between the front and shell 100 in the first steering pivot portion 101.
Further, the first steering pivot portion is also provided with resetting apparatus, which can be reduction torsion spring
The elastic components such as A102, reduction torsion spring A102 are abutted at least part in the first steering pivot portion 101.
When the first steering pivot portion 101 is rotationally connected with shell 100, referring to Figure 20 and Figure 21, it is with stop column A101
Example is described in detail.It is to be appreciated that the first steering pivot portion 101 can also use the other structures such as above-mentioned cylinder.Specifically
Ground, stop column A101 are rotationally connected with shell 100 by pin A103, and stop column A101 is equipped with reduction torsion spring A102.Stop column
A101 is fixed on shell 100 by pin A103, is abutted with shell 100 behind stop column A101, prevent stop column A101 from
It rotates backward.And do not suffer restraints before stop column A101, stop column A101 can be rotated forward, you can with around shown in Figure 23
Direction rotation.
Referring to Figure 17 and 18, the purpose that stop column A101 is rotated forward is the dismounting of handle box for convenience, i.e., will processing
When box takes out from image forming apparatus 200, stop column A101 can rotate forward turn for avoiding being arranged on image forming apparatus 200
To fulcrum abutting part 203, handle box is enable to smoothly take out.When handle box being moved backward and taken out, steering pivot abuts
Portion 203 is contacted with stop column A101, and stop column A101 is made to rotate forward, when the stop column that steering pivot abutting part 203 is crossed
After A101, handle box can be dismantled smoothly, while stop column A101 replys home position under the action of reduction torsion spring A102.
Further, as shown in Figure 1, Figure 2 and Figure 3, the first steering guide portion 103 can also be set on shell 100, first
It turns to guide portion 103 and the first steering pivot portion 101 is located at the both sides of the center line of handle box along the longitudinal direction, so that place
Larger torque is generated with smaller power when reason box rotation, is avoided the first steering pivot portion 101 or first from turning to guide portion 103 and is sent out
Raw damage.
Specifically, the distance of the first steering pivot portion 101 to driving force reception transverse plane is more than the length of developing cell
Half (or more than handle box shell length half), first turn to guide portion 103 arrive driving force receiving terminal
The distance of plane is less than the half of the length of developing cell.It is to be appreciated that the first steering pivot portion 101 and first turns to
Guide portion 103 can also be arranged in any position of shell 100.
Specifically, the first steering pivot portion 101 can be located at the left side of shell 100, and the first steering guide portion 103 is located at shell
The right side of the roof s5 of body 100.More specifically, the first steering pivot portion can be located at the left side of the roof s5 of shell 100, also may be used
With positioned at the left side of the antetheca s1 of shell 100;First steering guide portion 103 is located at the right side of the roof s5 of shell 100, can also
Positioned at the right side of the antetheca s1 of shell 100.
Further, as shown in Figure 1, Figure 2 and Figure 3, first guide portion 103 is turned to as the first steering pivot portion 101 of direction
Direction recess broken line or curve so that handle box first turn to guide portion 103 guiding function under run-off the straight, simultaneously
So that the first steering pivot portion 101 is moved along the length direction of shell 100 and can disengage.Preferably, first guide portion 103 is turned to
The distance between each point on from front to back and the first steering pivot portion 101 are gradually reduced or gradually increase, so that first turns to
Fulcrum 101 is moved to unidirectional.First steering guide portion 103 extends beyond forward the antetheca of shell, so that handle box is entering
The initial stage of image forming apparatus 200 can run-off the straight rotation.It is to be appreciated that the first steering guide portion 103 can not also surpass
Go out the antetheca s1 (as shown in Figure 8) to shell.
Further, vertically-guided portion 103a, vertically-guided portion 103a and driving force receiving terminal are also provided on shell
Plane is arranged in parallel, and the front for turning to guide portion 103 first is arranged in vertically-guided portion 103a, enables the user to along vertical
Direction installation process box, meets use habit, it is easier to install.Preferably, 103a settings in vertically-guided portion turn to first and draw
It leads the front end in portion 103 and is connected as one with the first steering guide portion 103, transition is smoothly turned to be formed.
Preferably, guide part is also provided on the surface of shell 100, guide part is arranged in the first steering pivot portion
101 and first turn to guide portion 103 rear, guide part relative to shell 100 front-rear direction tilt it is (not parallel) setting.Place
When managing box installation, the first steering pivot portion 101 contacts to form center of rotation with above-mentioned steering pivot abutting part 203, and first turns to
Guide portion 103 contacts to form rotary motion trace and rotate with above-mentioned steering guiding abutting part 201 makes handle box tilt, while first turns to
Fulcrum 101 moves that (such as the first steering pivot portion 101 is turned to along first along the length direction of shell 100 with shell 100
Fulcrum abutting part 203 rolls);When handle box is tilted in place, the first steering pivot portion 101 disengages, and guide part is formed with image and filled
It sets contact in 200 and forms inclination movement track, handle box inclination is made to be encased in image forming apparatus 200.
Specifically, guide part is the convex ribs being obliquely extended along the front-rear direction of shell 100, or for before shell 100
Multiple pillars of the oblique consecutive intervals arrangement of rear direction.
Further, guide part includes the first guide part 104 and second of the spaced setting of length direction along shell
Guide part 102 ensures to be oriented to steadily to form double guide rails.First guide part 104 can be close to above-mentioned first steering pivot portion
101, the second guide part 102 can turn to guide portion 103 close to above-mentioned first.First guide part 104 can be with above-mentioned steering branch
The side of point abutting part 203 contacts to form inclination movement track, can also the setting individual first in image forming apparatus 200
It is oriented to abutting part 202, so that the first guide part is oriented to abutting part 202 with first and contacts to form inclination movement track;Second guide part
102 can guide abutting part 201 to contact to form inclination movement track with above-mentioned steering, can also be in image forming apparatus 200
It is arranged individual second and is oriented to abutting part formation inclination movement track.
Specifically, as shown in Figure 1, Figure 2 and Figure 3, the second guide part 102 is arranged on roof s5, the second guide part 102
The side of transverse plane is received close to driving force in the first steering pivot portion 101, the front end of the second guide part 102 is received to driving force
The distance of transverse plane is less than the rear end of the second guide part 102 to the distance of driving force reception transverse plane.Before second guide part 102
Positioned at the rear of the front end in the first steering pivot portion 101, (i.e. the front end of the second guide part 102 lags behind the first steering pivot portion at end
101 front end enters image forming apparatus 200).(i.e. second leads second guide part 102 after the first steering guide portion 103
The first steering guide portion 103 is lagged behind to portion 102 and enters image forming apparatus 200).
Preferably, the front end of the second guide part 102 is connect with the rear end of the first steering guide portion 103, to form steadily mistake
It crosses.Specifically, the first steering guide portion 103 and the second guide part 102 can be arranged to the arrangement of " > " shape bending.It is appreciated that
Ground, the rear end that the front end of the second guide part 102 turns to guide portion 103 with first can also be equipped with interval.
Specifically, the first guide part 104 is arranged on roof s5, and the first guide part 104 is located at the first steering pivot portion 101
And second (i.e. the first guide part 104 and the second guide part 102 are located at the first steering pivot portion 101 between guide part 102
The same side), it is possible to understand that ground, the first guide part 104 can also be located at the first steering pivot portion 101 and deviate from the second guide part 102
Side (i.e. the first guide part 104 and the second guide part 102 are located at the both sides in the first steering pivot portion 101);First leads
The distance that transverse plane is received to the front end in portion 104 to driving force is held level with both hands less than the rear end of the first guide part 104 to driving force reception
The distance in face.The front end of first guide part 104 is located at rear (i.e. the first guide part 104 of the front end in the first steering pivot portion 101
Front end lag behind the front end in the first steering pivot portion 101 and enter image forming apparatus 200).First guide part 104 is located at first
After steering guide portion 103 (i.e. the first guide part 104 lags behind the first steering guide portion 103 and enters image forming apparatus 200).
Preferably, as illustrated in figures 14-16, the front end of the first guide part 104 and the first steering pivot portion 101 are along shell 100
Length direction side (the first steering pivot portion 101 disengage side, referring to Figure 15) connection, i.e. 104 He of the first guide part
First steering pivot portion 101 is wholely set, to form smooth transition.Such as first can be used as to turn to before stop column A101
The side of fulcrum 101, stop column A101 can be used as the first guide part 104, the 104 (side of stop column A101 of the first guide part
Face) it can be fitted close to form inclination movement guideway with the side of steering pivot abutting part 203.
When handle box installation is installed along Y-direction into image forming apparatus 200, stop column A101 touches image and is formed
Steering pivot abutting part 203 on device 200 makes handle box along one end of the length direction of shell (close to the first steering pivot
The one end in portion 101) it cannot continue to move to forward.Since the direction of promotion handle box power and stop column A101 be not in same straight line
On, to make handle box along the other end (one end far from the first steering pivot portion 101) of the length direction of shell with stop column
It is put and run-off the straight rotary motion centered on A101.It is bonded with the side wall of image forming apparatus 200 208 when handle box is rotated to
When, the Sloped rotating action of handle box is completed.
Further, in order to keep handle box more smooth during taking-up, the first guide part 104 is towards shell 100
Inclined surface or arc surface (as shown in Figure 9) can be arranged in the end 1041 of rear wall s2.It is to be appreciated that the second guide part 102
Towards the end of the rear wall s2 of shell 100, inclined surface or arc surface can also be set.
Further, limiting section is additionally provided on shell 100, limiting section is fit into the mistake of image forming apparatus in handle box
Play the role of blocking in journey, i.e. limiting section there can be handle box with image forming apparatus interior contact the work of blocking
With specifically, limiting section includes two confined planes, and two confined planes are located at the both sides along its length of shell 100 and court
To before shell 100, to form the installation final position of handle box.Certainly, confined planes are the mode of priority of the present embodiment, this
The technical staff in field can know that limiting section is not limited only to confined planes, can limit recess portion, confined planes can be flat with limit protrusion
Face, cambered surface and concave surface.
Further, 100 it is additionally provided with the second steering guide portion 107 on shell, second turns to the steering of guide portion 107 and first
The recess of guide portion 103 is on the contrary, second turns to confined planes (such as the limit at the first limited block 206 of 107 recess side of guide portion
Plane) the second the second steering pivot portion for turning to guide portion is formed, go to action is ajusted to realize, and complete to install.
Specifically, referring to Figure 17 and 18, when handle box obliquely moves forward to certain position, a limit of handle box
Plane is (positioned at a confined planes of front when handle box tilts, i.e., close to a limit of driving force receiving terminal in the present embodiment
Face) the first limited block 206 on image forming apparatus 200 is touched, handle box stops forward close to one end of the confined planes
It is mobile, at the same time, the first guide part 104 (or stop column A101) on handle box just on image forming apparatus 200
Steering pivot abutting part 203 is separated from, and handle box starts with the limit at the first limited block 206 on image forming apparatus 200
Divertical motion is ajusted for steering pivot portion in face.When handle box ajusts divertical motion in place (referring to Figure 19), handle box
Another confined planes touch the second limited block 207 on image forming apparatus 200, handle box stops rotating movement, processing
Box is in horizontality and completes installation.
Further, the second steering guide portion 107 can be arranged with the first guide part 104 is integrated, i.e., the second steering is drawn
The front end for leading portion 107 connects the rear end of the first guide part 104, to form smooth transition;It is to be appreciated that second turns to guide portion
107 can also be integrated with the setting of the second guide part 102.
Further, preposition guide part 106 can be arranged in the front end of the first guide part 104, so that the first guide part 104 is more
It is reliably achieved oriented docking.Preposition guide part 106 can be connected as one with the first guide part 104, can also be with
The setting of one guide part 104 interval.
The line that preposition guide part 106 and second turns between guide portion 107 should be parallel with the second guide part 102.
Further, contact projection is additionally provided on shell 100, contact projection setting is more leaned on compared to the first steering pivot portion
The roof s5 in shell 100 is arranged in the side of nearly driving force receiving terminal, contact projection, and contact projection, which is arranged to be formed with image, to be filled
Set 200 actuating mechanism abutting.Specifically, a part for contact projection is obliquely installed relative to the front-rear direction of shell 100, with
Contact projection abuts state with the holding of the actuating mechanism of image forming apparatus 200 when handle box being enable to tilt installation, and contact is convex
Rising can be arranged on roof s5, and contact projection can be convex ribs or convex column structure.
Further, a part of first steering guide portion 103 that can be formed of contact projection plays guiding role, specifically
Ground, referring to Figure 16, contact projection forms first and turns to guide portion 103, i.e., individual first need not be arranged on shell 100 and turn to
Guide portion 103, the shape that the side of contact projection is arranged to the first steering guide portion 103 play steering guiding function, and contact is convex
The actuating mechanism that the roof risen is arranged to differ device with image abuts.
Further, another part of contact projection can form the second guide part 102, i.e. the side of contact projection
The shape that leading portion is arranged to the first steering guide portion 103 plays steering guiding function, and the back segment of the side of contact projection is arranged to
The shape of second guide part 102 forms moving guide rail pair.
Further, a part for contact projection setting substantially parallel with the front-rear direction of handle box shell.
Further, as shown in Figure 1, 2, 3, contact projection is arranged on roof s5, including the first contact projection 109 and the
Two contact projections 108, second contact projection 108 and the first contact projection 109 of the present embodiment are to protrude from the surfaces roof s5
Convex ribs (or pillar), the second contact projection 108 and the first contact projection 109 on roof s5 on projection with it is aobvious
Projections of the axis a of shadow unit on roof s5 formed acute angle (or the second contact projection 108 and the first contact projection 109 with
Driving force receiving terminal plane forms the angle of non-90 degree).
Specifically, the first contact projection 109 or the second contact projection 108 are respectively provided with first end and the second end,
Towards before handle box installation direction, the distance of first end to driving force receive end arrives first end less than the second end
The distance of driving force receive end.Second contact projection 108 and the first contact projection 109 can push away in handle box installation process
Actuating mechanism in motion video forming apparatus 200, to ensure the smooth installation of handle box.Second contact projection 108 and first connects
It can also be that edge is approximately perpendicular to the flexible elastomeric element in the directions roof s5 to touch protrusion 109, such as spring or elasticity PP (polypropylene)
The elastomeric element that material or bottom are mutually fixed with roof and can be swung in the plane perpendicular with roof.
Referring to Figure 10 or Figure 16, the first actuating mechanism 205 can be arranged in the inner roof wall of image forming apparatus 200, and second touches
Motivation structure 204, during handle box is installed to image forming apparatus 200, handle box on be arranged first contact it is convex
It plays 109 first to abut with the first actuating mechanism 205, then, the second contact projection 108 is abutted with the second actuating mechanism 204, and first touches
Motivation structure 205 and the second actuating mechanism 204 can move after being abutted, to allow handle box smoothly to install.First connects
It touches protrusion 109 and the roof s5 in handle box, the contact of the first contact projection 109 and second is arranged in the second contact projection 108
Protrusion 108 is arranged on roof s5 close to the side where driving force receiving terminal.
It can be equipped in image forming apparatus 200 and compel push part (including the first urgent push part and second urgent push part), compeled
Push part can pivoting, and at least part on handle box is acted on after handle box is installed, to compel to push away processing
Box makes handle box be in stable state.
Further, referring to Figure 27 to 32, shell 100 is equipped with the first limit protrusion along the one end in length direction
A108, the first limit protrusion A108 be equipped with the first anti-interference structure, when preventing handle box from rotating with image forming apparatus 200
It interferes.Not being arranged on the side of driving force receiving terminal in shell, the first limit protrusion is arranged in first limit protrusion A108
Axis hole is provided in A108, conductive component is arranged, conductive component can make the photosensitive element being arranged in handle box and figure
As conductive component electrical connection in forming apparatus 200.
Further, limit protrusion along the length direction of handle box shell be arranged with one end residing for driving force receiving terminal
The opposite other end.
Further, the first anti-interference structure includes the first anti-interference portion A1081 and the second anti-interference portion A1082, tool
Body, the first anti-interference portion anti-interference oblique angle A1081, the second anti-interference portion is anti-interference corner cut A1082.Anti-interference corner cut
The front side on the top of the first limit protrusion A108 is arranged in A1082, and preventing handle box, prematurely contact image is formed when mounted
The first urgent push part (such as torsional spring 211) in device 200 keeps handle box installation more suitable to reduce the resistance of handle box installation
Freely;The front side in the end face of the first limit protrusion A108 is arranged in anti-interference oblique angle A1081.
Preferably, referring to Figure 33, the angle of the inclined surface of anti-interference oblique angle A1081 and the end face of the first limit protrusion A108
Ranging between 10 ° -50 °.
Preferably, referring to Figure 34, the inclined surface of anti-interference corner cut A1082 is at a distance from the center of the first limit protrusion A108
The circle for the circular hole being arranged between 4.5mm-9mm or on the inclined surface of anti-interference corner cut A1082 to the first limit protrusion A108
The distance of the heart is between 4.5mm-9mm.
Further, shell is equipped with the second limit protrusion A107, the second limit protrusion along the one end in length direction
The side of A107 is equipped with the second anti-interference structure A106, is interfered with image forming apparatus 200 when preventing handle box from rotating.
Second anti-interference structure A106 is convex structure.
Specifically, referring to Figure 24-26, driving force receiving terminal is provided with power reception components A 121, power reception component
A121 can receive power from image forming apparatus 200, and the second limit protrusion A107 can be annular projection shape structure and surround
Power reception components A 121.When handle box inclination moves forward to certain position, the second anti-interference structure A106 is first by image
The second urgent push part (such as torsional spring 209) being arranged in forming apparatus 200 jacks up a certain distance upwards, as handle box occurs
Divertical motion is ajusted, the second limit protrusion A107 of driving force receiving terminal, which can avoid the second of image forming apparatus 200, to be compeled to push away
Component (such as torsional spring 209), makes handle box successfully install.When installation is complete for handle box, the second urgent push part (such as torsional spring
209) can compel to push away the second limit protrusion A107, the second anti-interference structure A106 needs at this time avoid and the second urgent push part (example
Such as torsional spring 209) generate interference, i.e. the second anti-interference structure A106 is big at a distance from the second urgent push part (such as torsional spring 209)
In or equal to zero.Further, the end of the second limit protrusion A107 is additionally provided with oblique angle A1071, can further prevent locating
Reason box is interfered when tilting dress and taking with image forming apparatus 200.
In addition, present invention also provides a kind of handle boxes to mount and dismount method comprising provided by the present application any one
Kind handle box, handle box are removably attachable in image forming apparatus 200.
Further, when above-mentioned handle box installation, including step P1:
The steering pivot abutting part 203 being arranged in first steering pivot portion 101 and image forming apparatus 200, which abuts, forms the
One steering pivot, and handle box is made to be rotated around the first steering pivot.
Further, further include step P11 after step P1:
Shell is equipped with first and turns to guide portion 103, and first turns to guide portion turns with what is be arranged in image forming apparatus 200
It abuts against to form steering guideway to guiding abutting part 201, handle box makes around the first steering pivot and along guideway rotation is turned to
Handle box tilts.
Further, further include step P0 before step P1:
It turns to and is equipped with vertically-guided portion 103a before guide part, vertically-guided portion 103a and steering guiding abutting part 201
It abuts against to be formed and vertically moves guideway, handle box edge vertically moves guideway and moves, and up to the first steering pivot portion 101 and turns
It is abutted to fulcrum abutting part 203.
Further, further include step P12 after step P1:
First steering pivot portion 101 is detached with steering pivot abutting part 203, tilt guides and image forming apparatus 200
The oriented abutting part of interior setting abuts to form inclination installation guideway, and handle box is installed to along installation guideway inclination is tilted
Image forming apparatus 200.
Further, further include step P13 after step P1:
The both sides of shell along its length are installed in place it towards confined planes, handle box inclination is respectively equipped with before shell
Afterwards, the first limited block 206 being arranged in one of confined planes and image forming apparatus 200 contacts, and forms rotating fulcrum and make
Handle box rotates, until another confined planes is contacted with the second limited block 207 being arranged in image forming apparatus 200.
Further, the first steering pivot portion 101 is rotationally connected with shell 100, the axis a in the first steering pivot portion 101
Length direction along shell 100 extends, and rear portion and the shell 100 in the first steering pivot portion 101 abut against, the first steering pivot portion
Rotation space is equipped between 101 front and shell 100, when above-mentioned process cartridge disassembling, including step P2:
First steering pivot portion 101 rotates forward, avoids the steering pivot abutting part being arranged in image forming apparatus 200
The dismounting of 203 pairs of handle boxes generates obstruction.
Specifically, a kind of installation process of handle box provided by the embodiments of the present application is carried out specifically in conjunction with Fig. 3-Fig. 7
Bright, in the embodiment, the first steering pivot portion 101, first that is provided on the shell 100 of handle box turns to guide portion 103 and leads
To portion, guide part includes the first guide part 104 and the second guide part 102, and the front end of the first steering guide portion 103 is connected with vertically
Guide part 103a, process are as follows::
Step P0:As shown in Figure 3 and Figure 4, when starting to install handle box into image forming apparatus 200, first turns to
The vertically-guided portion 103a of 103 front end of guide portion is first in contact with the steering guiding abutting part 201 on image forming apparatus 200,
The surface of vertically-guided portion 103a contacts with the surface for turning to guiding abutting part 201, and is moved along guiding abutting part 201 is turned to
Dynamic, making handle box, steadily (Y-direction) is mobile forward.
Step P1:As shown in Figure 4 and Figure 5, with the movement of handle box, the first steering pivot portion 101 also with steering pivot
Abutting part 203 is in contact (Fig. 4), and fulcrum is diverted after touching steering pivot abutting part 203 due to the first steering pivot portion 101
Abutting part 203 blocks, and one end (one end far from driving force receiving terminal) where the first steering pivot portion of handle box 101 is then not
It can move further along, and the other end (one end where driving force receiving terminal) of handle box may continue to move forward, to make
Rotary motion takes place in handle box.
Step P11:As shown in Figure 4 and Figure 5, the first steering pivot portion 101 is also in contact it with steering pivot abutting part 203
Afterwards, the first steering guide portion 103 contacts (Fig. 4) with guiding abutting part 201 is turned to, and the first steering guide portion 103 is drawn along steering
The movement of abutting part 201 is led, to make handle box that rotary motion take place, specifically, handle box is with the first steering pivot portion 101
Abutment between steering pivot abutting part 203 with steering pivot abutting part 203 is that fulcrum is rotated, meanwhile, the
One steering pivot portion 101 is moved along the length direction of shell, after handle box tilts in place, steering pivot abutting part 203 and the
One steering pivot portion 101 disengages (Fig. 5).
Step P12:As shown in Figure 5 and Figure 6, after handle box tilts in place, the second guide part 102 is abutted with guiding is turned to
Portion 201 is parallel, and the first guide part 104 is also parallel with the first guiding abutting part 202, the second guide part 102 and the first guide part 104
It is oriented to the movement of abutting part 202 respectively along guiding abutting part 201 and first is turned to, handle box holding is made obliquely to move forward;
With the Forward of handle box, the second contact projection 108 and the first contact projection 109 also respectively with the second actuating mechanism 204 and
One actuating mechanism, 205 phase is touched, and handle box is allow to continue to move along.As shown in fig. 6, when handle box moves forward at a slant, directly
At least part (confined planes) on to its forward one end (one end where driving force receiving terminal) is formed with image to be filled
200 the first limited block 206 is set to be in contact.
Step P13:As shown in Figure 6 and Figure 7, when the first limit of a confined planes of handle box and image forming apparatus 200
When position block 206 is in contact, which cannot be continued to move by the blocking of the first limited block 206;Have on handle box roof
In the case of having the first guide part 104, the first guide part 104 is moved to the end of the first guiding abutting part 202 at this time, when first
After guide part 104 is detached from the first guiding abutting part 202, handle box can be revolved with the first limited block 206 for the point of rotation/fulcrum
Turn;As shown in fig. 7, when the confined planes that handle box is rotated to its one end rearward are in contact with the second limited block 207, handle box
It stops rotating and moves forward, complete installation, driving force receiving terminal can engage biography with the driving head in image forming apparatus 200 at this time
Graduating power.
The foregoing is merely the preferred embodiments of the application, are not intended to limit this application, for the skill of this field
For art personnel, the application can have various modifications and variations.Within the spirit and principles of this application, any made by repair
Change, equivalent replacement, improvement etc., should be included within the protection domain of the application.
Claims (35)
1. a kind of handle box, including shell, the shell has outer surface, which is characterized in that the shell is equipped with first turn
To fulcrum, first steering pivot portion is protruded relative to the outer surface of the shell, and the handle box can be with described the
One steering pivot portion rotates for fulcrum, so that the handle box tilts installation.
2. handle box according to claim 1, which is characterized in that first steering pivot portion is located at the shell before
The side of rear direction and center line perpendicular to the length direction of the shell.
3. handle box according to claim 1, which is characterized in that roof of first steering pivot portion in the shell
On be projected as curve, the curve extends along the length direction of the shell, and the curve is towards before the shell
Side be convex surface.
4. handle box according to claim 1, which is characterized in that roof of first steering pivot portion in the shell
On be projected as straight line, the straight line extends along the length direction of the shell.
5. handle box according to claim 1, which is characterized in that first steering pivot portion is rotationally connected with the shell
Body.
6. handle box according to claim 5, which is characterized in that the axis in first steering pivot portion is along the shell
Length direction extend, rear portion and the shell in first steering pivot portion abut against, first steering pivot portion
Rotation space is equipped between front and the shell.
7. handle box according to claim 5, which is characterized in that reduction torsion spring is additionally provided on the shell, it is described multiple
Position torsional spring is abutted at least part in first steering pivot portion.
8. handle box according to claim 1, which is characterized in that the first steering guide portion is additionally provided on the shell,
The first steering guide portion is located at the two of the center line of the shell along the longitudinal direction with first steering pivot portion
Side.
9. handle box according to claim 8, which is characterized in that described first turns to guide portion as towards described first turn
The broken line or curve being recessed to the direction of fulcrum.
10. handle box according to claim 8, which is characterized in that vertically-guided portion is additionally provided on the shell, it is described to hang down
The front for turning to guide portion described first is arranged in straight guide part.
11. handle box according to claim 1, which is characterized in that be additionally provided with guide part, institute on the surface of the shell
State the first guide part and the second guide part that guide part includes the spaced setting of length direction along the shell.
12. handle box according to claim 11, which is characterized in that first guide part and the second guide part are at least
A part of angle that non-90 degree is formed with the length direction of the shell.
13. handle box according to claim 1, which is characterized in that be additionally provided with two limiting sections, two institutes on the shell
It states limiting section and is located at shell both sides along its length and towards before the shell.
14. handle box according to claim 13, which is characterized in that the second steering guide portion is additionally provided on the shell,
The second steering guide portion forms at an angle relative to the length direction of the shell and is arranged on the surface of the shell.
15. handle box according to claim 1, which is characterized in that be additionally provided with contact projection, the contact on the shell
The roof in the shell is arranged in protrusion, and the contact projection is arranged to abut with the actuating mechanism of image forming apparatus.
16. handle box according to claim 15, which is characterized in that a part for the contact projection is relative to the shell
The front-rear direction of body is obliquely installed.
17. handle box according to claim 15, which is characterized in that a part for the contact projection and the shell
Front-rear direction is arranged in parallel.
18. handle box according to claim 15, which is characterized in that a part for the contact projection forms the processing
The first of box turns to guide portion.
19. handle box according to claim 15, which is characterized in that the contact projection includes the first contact projection and the
Two contact projections, first contact projection and the second contact projection are arranged along the length direction interval of the shell.
20. handle box according to claim 15, which is characterized in that the handle box includes driving force receiving terminal, described
Contact projection compares first steering pivot portion closer to the driving force receiving terminal.
21. handle box according to claim 1, which is characterized in that the handle box includes driving force receiving terminal, and described
One steering pivot portion is arranged far from the side of the driving force receiving terminal relative to the length direction of the shell.
22. handle box according to claim 1, which is characterized in that the shell is equipped with along the one end in length direction
First limit protrusion, first limit protrusion be equipped with the first anti-interference structure, when preventing handle box from rotating with image shape
It is interfered at device.
23. handle box according to claim 22, which is characterized in that the first anti-interference structure includes the first anti-interference
The front side in the end face of first limit protrusion is arranged in portion, first anti-interference portion.
24. handle box according to claim 22, which is characterized in that the first anti-interference structure includes the second anti-interference
The front side on the top of first limit protrusion is arranged in portion, second anti-interference portion.
25. handle box according to claim 1, which is characterized in that the shell is equipped with along the one end in length direction
The side of second limit protrusion, second limit protrusion is equipped with the second anti-interference structure, when preventing handle box from rotating and schemes
As forming apparatus interferes.
26. handle box according to claim 25, which is characterized in that the second anti-interference structure is convex structure.
27. according to claim 1 to 26 any one of them handle box, which is characterized in that the handle box is removably installed
In a kind of image forming apparatus, it is provided with steering pivot abutting part in described image forming apparatus, is installed in the handle box
To described image forming apparatus, first steering pivot portion is contacted with the steering pivot abutting part makes the place
Manage box rotation.
28. a kind of image forming apparatus, which is characterized in that including any one handle box of claim 1-27, the handle box
It is removably attachable in described image forming apparatus.
29. a kind of method of handle box installation and removal, which is characterized in that using any processing of claim 1-27
Box, the handle box are removably attachable in image forming apparatus.
30. the method for handle box installation and removal according to claim 29, which is characterized in that when installation, including step
P1:
First steering pivot portion abuts to form first turn with the steering pivot abutting part being arranged in described image forming apparatus
To fulcrum, and the handle box is made to be rotated around first steering pivot.
31. the method for handle box installation and removal according to claim 30, which is characterized in that also wrapped after step P1
Include step P11:
The shell is equipped with first and turns to guide portion, is arranged in the first steering guide portion and described image forming apparatus
It turns to guiding abutting part to abut against to form steering guideway, the handle box is led around first steering pivot and along the steering
Rail pair rotates, and the handle box is made to tilt.
32. the method for handle box installation and removal according to claim 31, which is characterized in that also wrapped before step P1
Include step P0:
Described first turns to before guide portion equipped with vertically-guided portion, the vertically-guided portion and steering guiding abutting part
It abuts against to be formed and vertically moves guideway, the handle box vertically moves guideway described in and moves, until described first turns to
Fulcrum is abutted with the steering pivot abutting part.
33. the method for handle box installation and removal according to claim 31, which is characterized in that further include after step P1
Step P12:
First steering pivot portion is with the steering pivot abutment portion from the guide part and described image forming apparatus
The guiding abutting part of setting abuts to form inclination installation guideway, and the handle box tilts installation along inclination installation guideway
To described image forming apparatus.
34. the method for handle box installation and removal according to claim 30, which is characterized in that further include after step P1
Step P13:
The both sides of the shell along its length tilt peace towards confined planes, the handle box is respectively equipped with before the shell
It is attached to after position, one of them described confined planes is contacted with the first limited block being arranged in described image forming apparatus, and is formed
Rotating fulcrum makes the handle box rotate, until another described confined planes and the second limit being arranged in described image forming apparatus
Position block contact.
35. the method for handle box installation and removal according to claim 29, which is characterized in that first steering pivot
Portion is rotationally connected with the shell, and the pivot center in first steering pivot portion extends along the length direction of the shell, institute
The rear portion and the shell for stating the first steering pivot portion abut against, between the front and the shell in first steering pivot portion
Equipped with rotation space, when dismounting, including step P2:
First steering pivot portion rotates forward, avoids the steering pivot abutting part being arranged in image forming apparatus to the place
The dismounting for managing box generates obstruction.
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CN201910624818.3A CN110308633A (en) | 2018-04-03 | 2018-08-20 | Handle box |
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CN201810296201 | 2018-04-03 | ||
CN2018102962019 | 2018-04-03 | ||
CN2018104832931 | 2018-05-18 | ||
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CN2018105104537 | 2018-05-24 | ||
CN201810510453 | 2018-05-24 |
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CN201910624818.3A Division CN110308633A (en) | 2018-04-03 | 2018-08-20 | Handle box |
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CN201821339687.1U Active CN208705666U (en) | 2018-04-03 | 2018-08-20 | process cartridge and image forming apparatus |
CN201910624818.3A Pending CN110308633A (en) | 2018-04-03 | 2018-08-20 | Handle box |
CN201810948996.7A Active CN108762032B (en) | 2018-04-03 | 2018-08-20 | Process cartridge, image forming apparatus, and process cartridge mounting and dismounting method |
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CN201910624818.3A Pending CN110308633A (en) | 2018-04-03 | 2018-08-20 | Handle box |
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CN106647208A (en) * | 2016-11-07 | 2017-05-10 | 珠海市润鑫打印耗材有限公司 | Process cartridge |
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US8873992B2 (en) * | 2011-11-07 | 2014-10-28 | Canon Kabushiki Kaisha | Process cartridge and electrophotographic image forming apparatus |
CN204009375U (en) * | 2014-06-19 | 2014-12-10 | 珠海赛纳打印科技股份有限公司 | A kind of handle box and the image processing system that comprises this handle box |
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- 2018-08-20 CN CN201821339687.1U patent/CN208705666U/en active Active
- 2018-08-20 CN CN201910624818.3A patent/CN110308633A/en active Pending
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CN101694567A (en) * | 2009-09-30 | 2010-04-14 | 珠海纳思达企业管理有限公司 | Processing box installing mechanism of image forming device |
WO2016084986A1 (en) * | 2014-11-28 | 2016-06-02 | キヤノン株式会社 | Cartridge and electrophotographic image forming device |
CN105785740A (en) * | 2016-04-13 | 2016-07-20 | 珠海市润鑫打印耗材有限公司 | Process cartridge and mounting and dismounting method thereof |
CN105785739A (en) * | 2016-04-13 | 2016-07-20 | 珠海市润鑫打印耗材有限公司 | Processing box |
CN106647208A (en) * | 2016-11-07 | 2017-05-10 | 珠海市润鑫打印耗材有限公司 | Process cartridge |
Also Published As
Publication number | Publication date |
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CN108762032B (en) | 2021-06-29 |
CN110308633A (en) | 2019-10-08 |
CN208705666U (en) | 2019-04-05 |
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