CN209231721U - A kind of handle box - Google Patents
A kind of handle box Download PDFInfo
- Publication number
- CN209231721U CN209231721U CN201920253885.4U CN201920253885U CN209231721U CN 209231721 U CN209231721 U CN 209231721U CN 201920253885 U CN201920253885 U CN 201920253885U CN 209231721 U CN209231721 U CN 209231721U
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- control
- rod
- receiving element
- rotary force
- force receiving
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Abstract
The utility model discloses a kind of handle boxes for being detachably mounted to have in the imaging device of driving head, comprising: shell;Flange components;Rotary force receiving element, including rotary force transfer part;Clutch part is arranged on rotary force receiving element, controls the received driving force of rotary force receiving element and with rotary force transfer part clutch and be transferred to flange components;Position regulating member is arranged on rotary force receiving element, rotary force receiving element can be forced to rotate around own axes;It further include the first control-rod and the second control-rod, the first control-rod controls clutch part and the clutch of rotary force transfer part, and the second control-rod control position regulating member forces rotary force receiving element to rotate around own axes.A technical issues of angle can not be rotated freely around own axes and be disengaged from imaging device driving head, cause handle box that can not take out from imaging device during handle box takes out from imaging device by solving the rotary force receiving element of prior art handle box.
Description
Technical field
The utility model relates to one kind handle boxes used in electronic imaging device.
Background technique
Handle box is a kind of box that can be detachably loaded with respect in imaging device host, and box unit packet as a whole
Include an electronic photographic sensitive component and at least such as charger, developer, one of the processor of cleaner etc..
Since handle box is removably installed relative to device Host, it is convenient for the maintenance of equipment.Using electrophotographic image forming
The electrophotographic image forming of mode works in this way: the electrofax by the light of imaging device to charger uniform charging
Photosensory assembly carries out selectively exposure to form electrostatic latent image, the sub-image by developer toner development at toner image,
It is formed by toner image to be transferred in recording medium by transfer implement, to form image on recording materials.
China Patent Publication No. CN109001966A discloses a kind of handle box, which is detachably mounted to have
In the imaging device of driving head.Driving force receiving unit is provided on the handle box, which includes rotation
Power receiving element, position adjusting mechanism and clutch part, the rotary force receiving element can be engaged with the imaging device driving head and be connect
The driving force of driving head transmitting is received, the position adjusting mechanism can control the clutch part to separate with the rotary force receiving element
Or engagement, when the clutch part is separated with the rotary force receiving element, the rotary force receiving element can be around own axes freedom
Rotation;When the clutch part is engaged with the rotary force receiving element, the rotary force receiving element is limited certainly by the clutch part
By rotating, and the rotary force receiving element can transfer a driving force to the clutch part.It is set when above-mentioned handle box is installed into imaging
When standby middle, the rotary force receiving element is separated with the clutch part, and the rotary force receiving element can be rotated freely around own axes,
Even if the rotary force receiving element generates interference, the rotary force receiving element with the imaging device driving head during the installation process
Also be freely rotatable an angle and smoothly with the imaging device driving head engaged transmission.When above-mentioned handle box install completely at
When as in equipment, the position adjusting mechanism controls the clutch part and engages with the rotary force receiving element, and the rotary force connects
The driving force that the imaging device driving head transmits is transferred to the electronics in above-mentioned handle box by the clutch part and shone by addressee
Phase photosensory assembly drives it to rotate and carry out image forming job.When above-mentioned handle box completes image forming job and takes from imaging device
When out, the position adjusting mechanism controls the clutch part and separates with the rotary force receiving element, and receives the rotary force
Part rotates freely an angle around own axes, if the rotary force receiving element is during taking-up by the imaging device driving head
Interference, the position adjustment structure force the rotary force receiving element to rotate freely to and do not interfere with each other with imaging device driving
Position so that handle box can smoothly take out from imaging device.In the prior art, when above-mentioned handle box is from imaging device
When taking-up, position adjusting mechanism controls rotary force receiving element simultaneously and rotates freely with clutch part separating action and rotary force receiving element
Movement, but rotary force receiving element only has first separate with clutch part that can just be rotated freely by position adjusting mechanism control, therefore existing
Rotary force receiving element in handle box may can not be controlled by position adjusting mechanism and be rotated freely due to not separating with clutch part
One angle, thus the problem of being interfered always by imaging device driving head, causing handle box that can not take out from imaging device.
Utility model content
The purpose of the utility model is to provide a kind of handle boxes, are existed with solving the rotary force receiving element of prior art handle box
Handle box can not rotate freely an angle during taking out from imaging device around own axes and take off with imaging device driving head
From engagement, the technical issues of causing handle box that can not take out from imaging device.
In order to solve the above-mentioned technical problem, the utility model is achieved through the following technical solutions:
A kind of handle box, into imaging device, the imaging device has for output driving power for dismountable installation
Driving head, comprising: shell;
A side of the shell is arranged in flange components;
Rotary force receiving element, including rotary force transfer part, the rotary force receiving element can receive the imaging device driving
The driving force of head output is simultaneously transferred to the flange components;
Clutch part, for the driving force of the rotary force receiving element to be transferred to the flange components, the clutch part phase
The flange components can be moved between the first position and the second position, the first position is that the clutch part connects institute
It states rotary force receiving element and the flange components and the received driving force of rotary force receiving element is transferred to the flange portion
The position of part, the second position are that rotary force receiving element described in the clutch part clutch and the flange components make the rotation
Turn the position that power receiving element can be rotated freely relative to the flange components;
Position regulating member, for adjusting position of the rotary force receiving element on itself direction of rotation;
It further include the first control-rod and the second control-rod, first control-rod is for controlling the clutch part described the
Movement between one position and the second position, second control-rod rotate and compel for controlling the position regulating member
Rotate the rotary force receiving element around own axes.
Further, the extending direction of first control-rod and second control-rod is substantially parallel.
Further, one end of second control-rod is connected on one end of first control-rod, second control
Bar processed receives external force by first control-rod.
Further, the first elastic component, second control-rod are provided between first control-rod and the shell
The second elastic component is provided between the shell.
Further, when the position regulating member is configured to rotate in a first direction relative to the rotary force receiving element
The rotary force receiving element can be driven to rotate, in a second direction that is opposite the first direction relative to the rotary force receiving element
The rotary force receiving element is not driven to rotate when rotation.
Further, the force side to exert a force to the clutch part, second control are provided on first control-rod
The force side to exert a force to the position adjustment part is provided on bar.
Compared with prior art, be respectively arranged on handle box in the utility model embodiment control rotary force receiving element from
The first control-rod and control rotary force receiving element that close rotate freely the second control-rod of an angle, guarantee at rotary force receiving element
In with rotated freely under clutch part discrete state.The rotary force receiving element of prior art handle box is solved in handle box from imaging
Equipment can not rotate freely an angle around own axes and be disengaged from imaging device driving head during taking out, and cause to locate
The technical issues of reason box can not take out from imaging device.
Detailed description of the invention:
Fig. 1 is the structural schematic diagram of handle box in the utility model embodiment;
Fig. 2 is the structural schematic diagram of handle box side control assembly in the utility model embodiment;
Fig. 3 is the decomposition texture schematic diagram of driving force receiving unit in the utility model embodiment;
Fig. 4 is the second control-rod, rotary force receiving element and position regulating member on handle box in the utility model embodiment
Between the schematic diagram that cooperates;
When Fig. 5 is that handle box is installed into imaging device in the utility model embodiment, the first control-rod and the second control
Bar acts on the first state schematic diagram of driving force receiving unit;
When Fig. 6 is that handle box takes out from imaging device in the utility model embodiment, the first control-rod and the second control
Bar acts on the second status diagram of driving force receiving unit.
Specific embodiment:
In order to make the purpose of the utility model embodiment, technical solution and technical effect are clearer, below in conjunction with attached
The technical solution of the utility model Delevoping cartridge is clearly and completely described in figure.Obviously, the embodiment of description is only this
One preferred embodiment of utility model, rather than whole embodiments are based on the embodiments of the present invention, those skilled in the art
Member belongs to the protection scope of the utility model in the other embodiments for not making the creative labor and obtaining.
As shown in Figure 1, for the structural schematic diagram of handle box 1 in the utility model embodiment.Handle box 1 includes: shell 2,
Developer is accommodated in it;Rotary force receiving element 31 is arranged in a longitudinal side for shell 2, is used for and imaging device driving head
The driving force of driving head transmitting is engaged and received, and the rotation such as photosensitive drums and developer roll is driven by gear train (not shown)
Turn component rotation, the side where rotary force receiving element 31 is defined as to the driving side of handle box 1 in the present embodiment;Protecting cover 3, if
It sets in driving side, gear train is protected to exempt to be affected by the external environment;Control assembly 20 is arranged on protecting cover 3, and rotation-controlled power connects
Addressee 31 is disengaged from imaging device driving head.
As shown in Fig. 2, for control assembly 20 in the present embodiment 1 driving side of handle box assembling schematic diagram.Control assembly
20 include the first control-rod 21, the second control-rod 22, the first elastic component 25 and the second elastic component 26, is formed with first on protecting cover 3
Mounting post 4, the second mounting post 5 and receiving portion 6.In the present embodiment, for ease of description, when the first control-rod 21 and the second control
When in the installation to protecting cover 3 of bar 22, the first control-rod 21 and the second control-rod 22 are defined close to one end of rotary force receiving element 31
For force side, the first control-rod 21 and the second control-rod 22 are defined as force side far from one end of rotary force receiving element 31.When
When in the installation to protecting cover 3 of control assembly 20, the force side 21a of the first control-rod 21 is installed together with the first elastic component 25 to the first peace
It fills on column 4, the force side 22a of the second control-rod 22 is installed together with the second elastic component 26 to the second mounting post 5, the first control-rod
The force side 22b of 21 force side 21b and the second control-rod 22 is contained in the receiving portion 6 formed on protecting cover 3.Specifically, the
First through hole 23 is formed on the force side 21a of one control-rod 21, the first mounting post 4 may pass through first through hole 23 and make the first control
Bar 21 processed is mounted thereto, the first 25 sets of elastic component then the first mounting post 4 and be mounted on the first control-rod 21 and protecting cover 3 it
Between, one end abuts the force side 21a of the first control-rod 21, and the other end abuts the surface of protecting cover 3, and the first control-rod 21 exists
It can be moved back and forth along the length direction of the first mounting post 4 under the action of first elastic component 25, the force side of the first control-rod 21
21b is contained in receiving portion 6, and receiving portion 6 limits the first control-rod 21 and can only move along the length direction of the first mounting post 4;The
The second through-hole 24 is formed on the force side 22a of two control-rods 22, the second mounting post 5 may pass through the second through-hole 24 and make the second control
Bar 22 processed is mounted thereto, the second 26 sets of elastic component then the second mounting post 5 and be mounted on the second control-rod 22 and protecting cover 3 it
Between, one end abuts the force side 22a of the second control-rod 22, and the other end abuts the surface of protecting cover 3, and the second control-rod 22 exists
It can be moved back and forth along the length direction of the second mounting post 5 under the action of second elastic component 26, the force side of the second control-rod 22
22b is contained in receiving portion 6, and receiving portion 6 limits the second control-rod 22 and can only move along the length direction of the second mounting post 5, this
The moving direction of the first control-rod 21 is identical as the moving direction of the second control-rod 22 in embodiment.Wherein, the second control-rod 22
Force side 22a abut the force side 21a of the first control-rod 21 in the original state, when external force is in the first control-rod 21
Force side 21a on when, the force side 21a of the first control-rod 21 squeezes the force side 22a of the second control-rod 22 and pushes second
Control-rod 22 is mobile, and in other words, the shift motion of the second control-rod 22 is not more than the shift motion of the first control-rod 21, optional
It selects, the first control-rod 21 and the second control-rod 22 can also be provided separately, the control of the force side 21a of the first control-rod 21 and second
The force side 22a of bar 22 processed respectively receives external force.It should be noted that receiving portion 6 is particularly configured to shape in the present embodiment
At the groove on 3 side of protecting cover, the force side 22a of the force side 21a of the first control-rod 21 and the second control-rod 22 holds respectively
It receives in a groove.After handle box is installed, the extending direction of the first control-rod 21 and the second control 22 is configured to substantially put down
Row.
As shown in figure 3, for the decomposition texture schematic diagram of driving force receiving unit 30 in the present embodiment.Driving force receiving unit
30 include rotary force receiving element 31, flange components 32, intermediate urgent casting die 33, clutch part 34, holding member 40 and position adjustment section
Part 38.Wherein, rotary force receiving element 31 includes main body bar portion 31a, rotary force receiving unit 31b, follower 31c, rotary force transmitting
Portion 31d and interconnecting piece 31e.Rotary force receiving unit 31b is located at one end of main body bar portion 31a, has along main body bar portion 31a axis pair
The claw of title, the claw can engage with imaging device driving head and receive driving force.Rotary force transfer part 31d is located at main body bar portion
The other end of 31a, the prolate cube shape structure substantially outwardly protruded from the surface main body bar portion 31a can cooperate with clutch part 34
And driving force is transferred to flange components 32, is arranged specifically, being provided on clutch part 34 along main body bar portion 31a axisymmetrical
A pair of of rotary force receive the coupling part 34a and recess 34b that is inwardly recessed from 34 outer circumference of clutch part, 34 sets of clutch part is then
It main body bar portion 31a and is supported near rotary force transfer part 31d by third elastic component 39, the recess 34b and flange of clutch part 34
The convex block 32a formed in component 32 is engaged, when the rotary force of clutch part 34 receives coupling part 34a and rotary force transfer part 31d
When being meshed, rotary force receiving element 31 can be rotated by 34 driving flange component 32 of clutch part;When the rotary force of clutch part 34 connects
When receipts coupling part 34a is separated with rotary force transfer part 31d, rotary force receiving element 31 can be rotated freely around own axes, flange portion
Part 32 is not driven to rotate.Follower 31c is located at main body bar portion 31a close to one end of rotary force receiving unit 31b, from main body bar portion
The surface 31a outwardly protrudes, and cooperates with position regulating member 38 and receives external force, so that when clutch part 34 and rotary force receiving element 31
When separation, rotary force receiving element 31 is controlled around own axes and rotates freely an angle.The urgent casting die 33 in centre is arranged in clutch part 34
Between shaft bearing plate 35, the urgent casting die 33 in centre and clutch part 34 are supported by third elastic component 39 together and abut shaft bearing plate 35,
The rotary force of clutch part 34 receives coupling part 34a and separates with the rotary force transfer part 31d of rotary force receiving element 31 at this time;Compel centre
Force rod 33a is formed on casting die 33, the first control-rod 21 can squeeze force rod 33a by its force side 21b makes intermediate compel
Casting die 33 is moved along rotary force receiving element 31 axially away from shaft bearing plate 35, and the urgent casting die 33 in centre forces clutch part 34 to move together
It is dynamic, until the rotary force of clutch part 34 receives coupling part 34a and is meshed with the rotary force transfer part 31d of rotary force receiving element 31.
In the present embodiment, rotary force receiving element specifically is realized by the way of clutch between clutch part 34 and rotary force receiving element 31
Driving clutch between 31 and flange components 32, it is selectable, can also using between clutch part 34 and flange components 32 from
It closes to realize the clutch between rotary force receiving element 31 and flange components 32, the structure of clutch part 34 is summarized as follows, clutch part 34
As the intermediate member between connection rotary force receiving element 31 and flange components 32, for by the driving force of rotary force receiving element 31
It being transferred in flange components 34, clutch part 34 can move between the first position and the second position relative to flange components 34, when
At first position, clutch part 34 connects rotary force receiving element 31 and flange components 32 and can be by rotary force receiving element clutch part 34
31 driving force is transferred in flange components 32, and when clutch part 34 is in the second position, 34 clutch rotary force of clutch part is received
Part 31 and flange components 32 simultaneously rotate freely rotary force receiving element 31 relative to flange components 32.
As shown in figure 4, for the follower 31c and position tune of the second control-rod 22, rotary force receiving element 31 in the present embodiment
The schematic diagram cooperated between integeral part 38.In the present embodiment, rotary force receiving element 31 receives driving force from imaging device driving head
It rotates in X direction, position regulating member 38 is particularly configured to a gear ring.Wherein, the force side 22b of the second control-rod 22 is formed
There are tooth-strip part 22c, follower 31c that there is the first contact surface 31c1 and the second contact surface 31c2, is formed on position regulating member 38
Having cantilever 38a, cantilever 38a is elastic arm, is intersected from the inner wall of position regulating member 38 along the axial direction with position regulating member 38
The direction of fork is stretched out, and the free end of cantilever 38a has can be with the first contact surface 31c1 first end face 38a1 abutted and can be with the
The second end face 38a2 of two contact surface 31c2 sliding contacts.When the force side 22a of the first control-rod 22 receives external force, the
One control-rod 22 is moved along the direction M, and the first control-rod 22, which is engaged by its tooth-strip part 22c with position regulating member 38, drives position
Adjustment component 38 is set to rotate along the direction opposite with X-direction.In the present embodiment, external force suffered by the first control-rod 22 from
As the door closure of equipment.When position regulating member 38 is rotated along the direction opposite with X-direction, if the cantilever of position regulating member 38
38a meets follower 31c, and the second contact surface 31c2 of the second end face 38a2 and follower 31c of cantilever 38a carry out sliding and connects
The inside circumference of cantilever 38a is arranged in touching, second end face 38a2, passes through contact of incline plane, i.e. second end between follower 31c
Face 38a2 and the second contact surface 31c2 is configured to slope and tilts on the same direction, therefore, the second contact surface
31c2 will squeeze second end face 38a2 and make cantilever 38a that flexible deformation occur, and then so that second end face 38a2 is slipped over second and connect
Contacting surface 31c2, position regulating member 38 cannot drive rotary force receiving element 31 to rotate at this time.When the force side of the first control-rod 22
22a no longer by external force when, under the elastic force of the second elastic component 26, the first control-rod 22 is along the N direction contrary with M
Mobile, the first control-rod 22 drives position regulating member 38 to rotate in X direction, if the cantilever of position regulating member 38 encounter it is driven
The first end face 38a1 of portion 31c, cantilever 38a abut the first contact surface 31c1 of follower 31c, and first end face 38a1 setting is outstanding
The front end of arm 38a, first end face 38a1, which is configured to face directly between the first contact surface 31c, to be contacted or the form of interior hook contacts,
So that first end face 38a1 will not be produced relative sliding after touching the first contact surface 31c, position regulating member 38 is in turn
Rotary force receiving element 31 is driven to rotate in X direction.In summary, it is constructed between position regulating member 38 and rotary force receiving element 31
For can only one direction transmit driving force structure, that is to say, that when position regulating member 38 in a first direction X-direction rotate when can
Driving rotary force receiving element moves together, does not drive when position regulating member 38 rotates on the direction opposite with first direction X
Dynamic rotary force receiving element 31 rotates.As position regulating member 38 can only one direction driving rotary force receiving part 31 rotate knot
Structure describes only a preferred structure in the present embodiment, and the structure such as one-way wheel etc. of unidirectional power transmitting may be implemented in other
The technical functionality in the present embodiment equally may be implemented in structure.
With reference to the accompanying drawing 1 rotary force receiving element 31 is specifically described in the present embodiment to attached drawing 6 sets in handle box 1 from imaging
Always the process of an angle can be rotated freely when being on the waiting list out around own axes.It should be noted that in the present embodiment handle box 1 with
The identical part of the prior art repeats no more, and is only illustrated to the difference with the prior art.
As shown in figure 5, when handle box 1 is installed into imaging device and carries out image forming job, the first control-rod 21 by
Power end 21a is squeezed and deformed by the external force F effect from imaging device door closure, the first elastic component 25 by the first control-rod 21, this
When the first control-rod 21 force side 21b pressing driving force receiving unit 30 centre compel casting die 33 so that clutch part 34 can connect
It receives the driving force that rotary force receiving element 31 transmits and flange components 32 is driven to rotate.The force side 22a of second control-rod 22 due to
External force F effect is similarly subjected to by the force side 21a compressing of the first control-rod 21, the second elastic component 26 is squeezed by the second control-rod 22
The tooth-strip part 22c of compressive strain, the second control-rod 22 engaged with position regulating member 38 and drive position regulating member 38 along with the side X
It dallies in the opposite direction.
As shown in fig. 6, when handle box 1 is completed image forming job and taken out from imaging device, the door closure quilt of imaging device
It opens, the force side 21a of the first control-rod 21 is no longer influenced by external force F effect, and the first control-rod 21 is in 25 elasticity of the first elastic component
Power acts on the movement of the direction lower edge N, and the force side 21b of the first control-rod 21 gradually compels casting die with the centre of driving force receiving unit 30
33 disengage, and clutch part 34 is separated with the rotary force transfer part 31d of rotary force receiving element 31, and rotary force receiving element 31 is in can
The state rotated freely around own axes.Second control-rod 22 due to the second elastic component 26 resilient force and with first control
Bar 21 processed is moved along the direction N, and the tooth-strip part 22c of the second control-rod 22 drives position regulating member 38 to rotate in X direction, at this time position
Setting adjustment component 38 can drive the follower 31c of rotary force receiving element 31 to rotate in X direction together, i.e., so that rotary force receiving element
31 are freely rotatable an angle, and the angle that wherein rotary force receiving element 31 rotates freely depends on the length and tooth of tooth-strip part 22c
Number.
It should be noted that the first control-rod 21 by imaging device door closure when not squeezed in the present embodiment, in the first bullet
Property the effect of part 25 is lower that rotary force receiving element 31 can be made to separate with clutch part 34 so that rotary force receiving element 31 is in can freely revolve
Turn state.Second control-rod 22 can just move under the effect of the second elastic component 26 and after the first control-rod 21 is mobile, so may be used
Guarantee that just an angle can be rotated freely under the effect of the second control-rod 22 after rotary force receiving element 31 is separated with clutch part 34, realizes
Rotary force receiving element 31 is disengaged from imaging device driving head, and handle box smoothly takes out from imaging device.
Side that is selectable, can also being drivingly connected using other between the second control-rod 22 and position regulating member 38
Formula adjusts position for example, the tooth-strip part 22c of the second control-rod 22 can be arranged to the hook arrangement with prominent column
One slide slot that can cooperate with above-mentioned hook arrangement is set on component 38, and by hook, mechanism is caught in slide slot and along cunning
Row slot is mobile, and position regulating member 38 can equally be driven to rotate.
Compared with prior art, be respectively arranged on handle box in the utility model embodiment control rotary force receiving element from
The first control-rod and control rotary force receiving element that close rotate freely the second control-rod of an angle, guarantee at rotary force receiving element
In with rotated freely under clutch part discrete state.The rotary force receiving element of prior art handle box is solved in handle box from imaging
Equipment can not rotate freely an angle around own axes and be disengaged from imaging device driving head during taking out, and cause to locate
The technical issues of reason box can not take out from imaging device.
Above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations;Although referring to aforementioned reality
Example is applied the utility model is described in detail, those skilled in the art should understand that: it still can be to preceding
Technical solution documented by each embodiment is stated to modify or equivalent replacement of some of the technical features;And these
It modifies or replaces, the spirit and model of various embodiments of the utility model technical solution that it does not separate the essence of the corresponding technical solution
It encloses.
Claims (6)
1. a kind of handle box, into imaging device, the imaging device has the drive for output driving power for dismountable installation
Dynamic head, comprising:
Shell;
A side of the shell is arranged in flange components;
Rotary force receiving element, including rotary force transfer part, it is defeated that the rotary force receiving element can receive the imaging device driving head
Driving force out is simultaneously transferred to the flange components;
Clutch part, for the driving force of the rotary force receiving element to be transferred to the flange components, the clutch part relative to
The flange components can move between the first position and the second position, and the first position is that the clutch part connects the rotation
Turn power receiving element and the flange components and the received driving force of rotary force receiving element is transferred to the flange components
Position, the second position are that rotary force receiving element described in the clutch part clutch and the flange components make the rotary force
The position that receiving element can be rotated freely relative to the flange components;
Position regulating member, for adjusting position of the rotary force receiving element on itself direction of rotation;
It is characterized in that, further including the first control-rod and the second control-rod, first control-rod is for controlling the clutch part
Movement between the first position and the second position, second control-rod is for controlling the position regulating member
It rotates and the rotary force receiving element is forced to rotate around own axes.
2. a kind of handle box according to claim 1, which is characterized in that first control-rod and second control-rod
Extending direction it is substantially parallel.
3. a kind of handle box according to claim 1, which is characterized in that one end of second control-rod is connected to described
On one end of first control-rod, second control-rod receives external force by first control-rod.
4. a kind of handle box according to claim 1, which is characterized in that set between first control-rod and the shell
It is equipped with the first elastic component, is provided with the second elastic component between second control-rod and the shell.
5. a kind of handle box according to claim 1, which is characterized in that the position regulating member is configured to relative to institute
Stating can drive the rotary force receiving element to rotate when rotary force receiving element rotates in a first direction, receive relative to the rotary force
The rotary force receiving element is not driven to rotate when part rotates in a second direction that is opposite the first direction.
6. a kind of handle box according to claim 1, which is characterized in that be provided on first control-rod to it is described from
The force side of component force, the force side to exert a force to the position adjustment part is provided on second control-rod.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920253885.4U CN209231721U (en) | 2019-02-28 | 2019-02-28 | A kind of handle box |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920253885.4U CN209231721U (en) | 2019-02-28 | 2019-02-28 | A kind of handle box |
Publications (1)
Publication Number | Publication Date |
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CN209231721U true CN209231721U (en) | 2019-08-09 |
Family
ID=67511338
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201920253885.4U Active CN209231721U (en) | 2019-02-28 | 2019-02-28 | A kind of handle box |
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CN (1) | CN209231721U (en) |
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2019
- 2019-02-28 CN CN201920253885.4U patent/CN209231721U/en active Active
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