CN106067400B - Bulldozing operation device - Google Patents
Bulldozing operation device Download PDFInfo
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- CN106067400B CN106067400B CN201610146160.6A CN201610146160A CN106067400B CN 106067400 B CN106067400 B CN 106067400B CN 201610146160 A CN201610146160 A CN 201610146160A CN 106067400 B CN106067400 B CN 106067400B
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- mentioned
- rotation
- moving parts
- bulldozing operation
- elastomeric element
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H13/00—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch
- H01H13/50—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a single operating member
- H01H13/56—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a single operating member the contact returning to its original state upon the next application of operating force
- H01H13/58—Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a single operating member the contact returning to its original state upon the next application of operating force with contact-driving member rotated step-wise in one direction
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- Switches With Compound Operations (AREA)
- Push-Button Switches (AREA)
- Operation Control Of Excavators (AREA)
Abstract
There is provided that a kind of operation sound is small and the bulldozing operation device balanced in a latched condition.When the lower surface of rotation cam (129) is connected to the first elastomeric element (131), moving parts (125) is mobile towards rotation cam (129), and the first ratchet holding section (125a) is sticked in the second ratchet holding section (129a) and rotates cam (129) rotation.Rotation cam (129) becomes the second rotation gesture from the first rotation gesture as a result, and rotation cam (129) and moving parts (125) are integrally formed and push the first elastomeric element (131).Under second rotation gesture, become the lockup state that the retainer (129c) of rotation cam (129) is locked in the two sides of the sliding groove (127c) of shell (127).
Description
Technical field
The present invention relates to the bulldozing operation devices in settings such as the driver's seat peripheries of vehicle.
Background technique
There is following push switch device: having heart-shaped cam mechanism, becomes locking shape in the position for being pushed into operating member
State is become non-lockup state and push operation component once again, operating member is made to reset to prominent position.
Patent document 1: Japanese Unexamined Patent Publication 60-17532 bulletin
In the push switch device recorded in above-mentioned citation 1, heart-shaped cam mechanism uses lock pin, thus in the presence of
Operate the big problem of sound.
Further, since cam surface to be arranged in the side of sliding block, lock pin is made to touch the side for leaning against sliding block in a latched condition
Face and carry out locking, therefore have and power from side surface direction be continuously applied to sliding block in a latched condition, balance is deteriorated and slides
The problems such as block tilts.
Summary of the invention
The present invention is made in view of the situation, and its purpose is to provide a kind of bulldozing operation devices that operation sound is small.
It is further an object that providing a kind of bulldozing operation device balanced in a latched condition.
Reach above-mentioned purpose to solve above-mentioned problem of the prior art, bulldozing operation device of the invention, comprising: move
Dynamic component is moved corresponding to bulldozing operation;Bearing part;And rotation cam, between above-mentioned moving parts and above-mentioned receiving
Between component, abut and rotate with above-mentioned moving parts, above-mentioned rotation cam, correspond to above-mentioned bulldozing operation with above-mentioned movement
It is integrally formed in the state of component separation with above-mentioned moving parts and mobile towards above-mentioned bearing part, is being connected to above-mentioned receiving
It after component, abuts and is rotated with above-mentioned moving parts, by the rotation, from the first rotation appearance for becoming non-lockup state
Gesture switches to the second rotation gesture as lockup state, and above-mentioned non-lockup state is the direction for being able to carry out above-mentioned moving parts
The state of the homing action of position before above-mentioned bulldozing operation, above-mentioned lockup state are the confined shapes of above-mentioned homing action
State.
According to this structure, corresponding to the movement by the above-mentioned above-mentioned moving parts of bulldozing operation bring, above-mentioned rotation cam
It is rotated after being connected to above-mentioned bearing part.That is, the phase before above-mentioned rotation cam is connected to above-mentioned bearing part
Between, above-mentioned rotation cam does not rotate.Then, above-mentioned rotation cam is connected to above-mentioned bearing part, in above-mentioned rotation cam from upper
Bearing part is stated slowly to be rotated by rotation cam above-mentioned in the state of frictional force.Therefore, it is able to suppress by rotation band sharply
Collision sound between come, above-mentioned rotation cam and above-mentioned moving parts.
Preferably, the above-mentioned bearing part of bulldozing operation device of the invention is the first elastomeric element, and above-mentioned rotation is convex
Wheel is configured to, be connected to above-mentioned bearing part and from the bearing part by active force in the state of, with above-mentioned moving parts
It abuts and is rotated.
According to this structure, above-mentioned rotation cam be connected to above-mentioned first elastomeric element and can be on one side slowly by its bullet
Power swimmingly rotates on one side, can more effectively inhibit by the above-mentioned rotation cam of above-mentioned rotation bring sharply and above-mentioned movement
Collision sound between component.
Preferably, bulldozing operation device of the invention, comprising: shell accommodates above-mentioned moving parts and above-mentioned rotation is convex
Wheel, is formed with sliding groove along the moving direction of above-mentioned moving parts;And second elastomeric element, above-mentioned shell is fixed in one end
Body, the other end are fixed on above-mentioned moving parts, exert a force towards the position before above-mentioned bulldozing operation to above-mentioned moving parts, above-mentioned rotation
Rotating cam have can be moved along the above-mentioned sliding groove of above-mentioned shell under above-mentioned first rotation gesture and it is above-mentioned second rotation
Turn the retainer being locked under posture in the peripheral portion of above-mentioned sliding groove.
According to this structure, in a latched condition, the locking direction of retainer is along the side of the moving direction of above-mentioned moving parts
To progress, so as to stable posture locking.
In addition, according to this structure, in the case where bulldozing operation power has been released from, moving parts can be made to be reset automatically
To original position.
Preferably, the above-mentioned shell of bulldozing operation device of the invention is not carried out above-mentioned in above-mentioned moving parts
When in the state of bulldozing operation by carry out rotation process, can correspond to the rotation process and centered on defined imaginary axis into
Row rotation, above-mentioned bulldozing operation device have the test section for the rotation position for detecting above-mentioned shell.
According to this structure, rotation process input is able to carry out other than bulldozing operation.
Preferably, above-mentioned bearing part of the invention is leaf spring.
According to this structure, the high management of above-mentioned bearing part becomes easy, and can use the face of above-mentioned rotation cam
Above-mentioned bearing part is pushed, wear resistance is high, can obtain high-durability.In addition, will not as helical spring companion
It is twisted with rotation, to not generate extraordinary noise when recovery after flexible deformation.
Preferably, the above-mentioned switch of bulldozing operation device of the invention, in above-mentioned bearing part by above-mentioned rotation cam
On-off during pushing.
Preferably, above-mentioned rotation cam of the invention has hook portion, is inserted above-mentioned hook from one end by way of being caught in
Enter the hollow portion of above-mentioned moving parts, so that above-mentioned rotation cam is moved up relative to above-mentioned moving parts in above-mentioned virtual axis direction
It is dynamic to be hooked freely and rotatably freely.
According to this structure, above-mentioned rotation cam easily can be installed on above-mentioned moving parts.Furthermore it is possible to suitably
The movement for playing the separation between above-mentioned rotation cam and above-mentioned moving parts and abutting.
Preferably, bulldozing operation device of the invention, comprising: illumination region, positioned at the periphery of above-mentioned bearing part;And
Bulldozing operation portion is located at the end with above-mentioned rotation cam opposite side of above-mentioned moving parts, and above-mentioned rotation cam is transparent
, which is configured to, and the light from above-mentioned illumination region reaches above-mentioned bulldozing operation portion via above-mentioned rotation cam
Near.
According to this structure, in the case where above-mentioned illumination region is arranged in the substrate-side relative to above-mentioned rotation cam, also can
It is enough to guide the light from the illumination region to above-mentioned bulldozing operation portion.
Invention effect
In accordance with the invention it is possible to provide operation sound small bulldozing operation device.
In addition, in accordance with the invention it is possible to providing the bulldozing operation device balanced in a latched condition.
Detailed description of the invention
Fig. 1 is the plan view of the input operating system 1 of embodiments of the present invention.
In the state that Fig. 2 is for illustrating to contain rotation process body and linear operating body in inputting operation housing just
The figure of the structure of surface side.
Fig. 3 is the stereoscopic figure of the side of rotation process body.
Fig. 4 is the stereoscopic figure of the bottom surface side of rotation process body.
Fig. 5 is the exploded perspective view of rotation process body.
Fig. 6 is the figure for illustrating the relationship of moving parts, rotation cam and the first elastomeric element.
Fig. 7 is the moving parts of hatching B-B shown in fig. 6 and the sectional structure chart of rotation cam.
Fig. 8 is the stereoscopic figure for illustrating the snap-fit relationship of the second elastomeric element, moving parts and shell.
Fig. 9 is the outside drawing of the back side for the state that rotation process body is installed in input operation housing.
Symbol description
1 ... input operating system
3 ... input operation housings
5 ... front panels
23 ... rotation process bodies
25 ... linear operating bodies
27 ... operating bodies
85 ... push switches
87 ... illumination regions
121 ... bulldozing operation portions
123 ... second elastomeric elements
125 ... moving parts
127 ... shells
127a ... outer peripheral surface
127c ... sliding groove
The bottom 127d ...
129 ... rotation cams
The second ratchet of 129a ... holding section
129c ... retainer
131 ... first elastomeric elements
133 ... electrodes
Specific embodiment
Hereinafter, the bulldozing operation device to embodiments of the present invention is illustrated.
Fig. 1 is the plan view of the input operating system 1 of present embodiment, and Fig. 2 is for illustrating in input operation housing 3
Contain the figure of the structure of the face side in the state of rotation process body and linear operating body.
As shown in Figures 1 and 2, input operating system 1 is for example configured to, the side of the steering wheel for the driver's seat configured in vehicle
Side etc., such as containing the bulldozing operation dress being adjusted to the brightness of exterior lighting headlight in input operation housing 3
Set 23, the operation of the linear operating body 25 of on/off operation for carrying out fog lamp etc. and the on/off operation for carrying out headlight
Body 27.
On the front panel 5 positioned at face side of input operating system 1, the pushing behaviour of bulldozing operation device 23 is shown
Make the operation portion 28 in portion 121, the operation portion 70 of linear operating body 25 and operating body 27.
Hereinafter, bulldozing operation device 23 is described in detail.
Fig. 3 is the stereoscopic figure of the side of bulldozing operation device 23, and Fig. 4 is the bottom surface side of bulldozing operation device 23
Stereoscopic figure, Fig. 5 are the exploded perspective views of bulldozing operation device 23, and Fig. 6 is for illustrating moving parts 125, rotation cam
129 and first elastomeric element 131 relationship figure.Fig. 7 is moving parts 125 and the rotation of hatching B-B shown in fig. 6
The sectional structure chart of cam 129, Fig. 8 are the engagings for illustrating the second elastomeric element 123, moving parts 125 and shell 127
The stereoscopic figure of relationship.Fig. 9 is the appearance of the back side for the state that bulldozing operation device 23 is installed in input operation housing 3
Figure.
As shown in Fig. 3~Fig. 8, bulldozing operation device 23 is for example with bulldozing operation portion 121, the second elastomeric element 123, shifting
Dynamic component 125, shell 127, rotation cam 129 and the first elastomeric element 131.
Shell 127 is can be rotated to support on centered on imaginary axis 57 between front panel 5 and substrate 137.
As shown in figure 3, the one end part of shell 127 is in the position opposed with substrate 137.Is fixed on substrate 137
One elastomeric element 131.First elastomeric element 131 is, for example, leaf spring.
It is equipped with the second elastomeric element 123 in the periphery of shell 127, which is locked to shell
127, and the other end is locked to the holding section 125b of moving parts 125 as shown in Figure 8.
In the hollow portion of shell 127, moving parts 125 is contained with freely moving linearly along imaginary axis 57.
As shown in fig. 6, moving parts 125 has the first ratchet holding section 125a in the end of cartridge insertion direction, when being pushed
When operation portion 121 applies towards the bulldozing operation power of the first elastomeric element 131, the elastic force of the second elastomeric element 123 is overcome and court
It is mobile to rotation cam 129 and the first elastomeric element 131.
As shown in fig. 6, rotation cam 129 is between moving parts 125 and the first elastomeric element 131, having can be with
Second ratchet holding section 129a of the first ratchet holding section 125a engaging (capableing of ratchet combination).
Cam 129 is rotated as shown in figure 5, moving freely on 57 direction of imaginary axis relative to moving parts 125, and
The step surface 125d being rotatably freely sticked in moving parts 125 centered on imaginary axis 57 is had and is limited so that
With moving parts 125 without departing from 3 more than predetermined distance retainer 129c on 57 direction of imaginary axis.
As shown in fig. 7, retainer 129c is in hook shape, it is logical from the end of 131 side of the first elastomeric element of moving parts 125
It crosses the mode for being caught in (snap-in) and is inserted into hollow portion.Rotation cam 129 is in the first ratchet holding section 125a and second as a result,
The mobile step for being hooked in moving parts 125 freely and rotatably freely in ratchet holding section 129a separation and the direction abutted
Face 125d.
The the second ratchet holding section 129a for rotating cam 129 be not pushed the application bulldozing operation power of operation portion 121
Under state, separated as shown in Figure 6 with the first ratchet system conjunction portion 125a of moving parts 125.In addition, under the state, rotation
Cam 129 is separated with the first elastomeric element 131.
As shown in figure 8, being equipped with the one end of the second elastomeric element 123 in the holding section 125b of moving parts 125.This
Outside, the other end of the second elastomeric element 123 is supported on shell 127.
Moving parts 125 becomes in the case where being applied to the active force of the second elastomeric element 123 of holding section 125b towards pushing
The state that operation portion 121 is exerted a force.Bulldozing operation portion 121 is integrated by hook and the holding of moving parts 125, and and moving portion
Part 125 integrally moves.
In addition, moving parts 125 is limited movement upwards by rotation cam 129.As shown in figure 9, rotation cam 129 exists
It engages under lockup state in the both sides 127e of sliding groove 127c, is supported under non-lockup state with the upper terminal part of sliding groove 127c
It connects and is limited movement upwards.
Moving parts 125 overcomes the bullet of the second elastomeric element 123 when being pushed the application bulldozing operation power of operation portion 121
Power and can be integrally mobile towards the first elastomeric element 131 with rotation cam 129.
Cam 129 is rotated when bulldozing operation portion 121 is pushed operation, as described above, is engaged by its second ratchet
Portion 129a is revolved centered on imaginary axis 57 in conjunction with the ratchet between the first ratchet holding section 125a of moving parts 125
Turn, alternately switches the first rotation gesture and the second rotation gesture.
Here, the first rotation gesture is as shown in figure 9, be the sliding groove for rotating the retainer 129b and shell 127 of cam 129
127c is located at the posture of opposite position, be rotation cam 129 can in shell 127 along sliding groove 127c in 57 side of imaginary axis
The state (non-lockup state) moved on (not carrying out the position of bulldozing operation).Under the state, when to bulldozing operation portion 121
Bulldozing operation power release when, rotation cam 129 be integrally formed with moving parts 125, in response to the work of the second elastomeric element 123
Firmly, the direction that the first elastomeric element of Xiang Cong 131 leaves is mobile.
On the other hand, the second rotation gesture be rotate cam 129 retainer 129b not with the sliding groove 127c of shell 127
State (lockup state) that is opposed, being engaged in the two sides of sliding groove 127c.Under the state, in the pushing to bulldozing operation portion 121
In the case that operating force releases, since retainer 129b is engaged in the both sides 127e of sliding groove 127c, so being maintained at rotation
The lock position that the movement of cam 129 and moving parts 125 is restricted.
As shown in fig. 6, the position configured with the first elastomeric element 131 on substrate 137 shown in Fig. 3, is equipped with pressing
Switch 85.In addition, being equipped with the illumination regions 87 such as LED on the periphery of push switch 85.
In bulldozing operation device 23, for example, rotation cam 129 be it is transparent, it is convex by rotating to carry out the light of self-luminescent part 87
The hollow portion of wheel 129, moving parts 125 reaches the position in bulldozing operation portion 121.
In addition, as shown in figure 4, shell 127 bottom 127d be equipped with electrode 133, pass through the electricity formed on substrate 137
The positional relationship of pole figure case 139 and electrode 133 detects the rotation position in bulldozing operation portion 121.
Bulldozing operation device 23 is not for example in the state that bulldozing operation portion 121 is pushed operation, when bulldozing operation portion
121 centered on imaginary axis 57 by rotation process when, bulldozing operation portion 121 rotates with being integrally formed with shell 127, detects it
Rotation position carries out input processing corresponding with the rotation position that this is detected.
Hereinafter, being illustrated to the movement of bulldozing operation device 23.
When applying bulldozing operation power to bulldozing operation portion 121, the elastic force of the second elastomeric element 123 is overcome and moving parts
125 move with being integrally formed with rotation cam 129 towards the first elastomeric element 131.
At this point, rotation cam 129 is the first rotation gesture shown in Fig. 9, it is that rotation cam 129 can be in shell 127
The state (non-lockup state) moved along imaginary axis 57.
Also, when the lower surface for rotating cam 129 is connected to the first elastomeric element 131, cam 129 is rotated by the first bullet
Property component 131 support, and moving parts 125 is mobile towards rotation cam 129, and the first ratchet holding section 125a is sticked in second
Ratchet holding section 129a.At this point, inclination of the protrusion directed downwardly of the first ratchet holding section 125a to the second ratchet holding section 129a
Face is pushed, and generates the rotary force centered on imaginary axis 57 in rotation cam 129.
By the rotary force, rotates the rotation of cam 129 and become the second rotation gesture, the first ratchet from the first rotation gesture
In conjunction with the recess portion of the second ratchet holding section 129a, rotation cam 129 and moving parts 125 become one for the protrusion of holding section 125a
Body simultaneously pushes the first elastomeric element 131.
Under second rotation gesture, become sliding groove 127c of the retainer 129c in shell 127 of rotation cam 129
The lockup state that two sides are locked.
Then, as described above, convex due to rotating in the case where being released to the bulldozing operation power in bulldozing operation portion 121
The retainer 129b of wheel 129 is locked in the both sides 127e of sliding groove 127c, so moving parts 125 and rotation cam
129 become lockup state, and are maintained at the elastic force for overcoming the second elastomeric element 123 and the position being pushed.
At this point, the second ratchet holding section 129a of the first ratchet holding section 125a of moving parts 125 and rotation cam 129
Become isolated state again.
Then, when can to bulldozing operation portion 121 apply bulldozing operation power when, moving parts 125 towards rotation cam 129
Mobile, the first ratchet holding section 125a, by its rotary force, rotates cam 129 and rotates in conjunction with the second ratchet holding section 129a
And the first rotation gesture is returned to from the second rotation gesture again.
The movement is described in detail.
The upper surface 129b1 of retainer 129b becomes inclined-plane, and the both sides 127e of the sliding groove 127c of shell 127 also becomes
Inclined-plane.
By the bulldozing operation power to bulldozing operation portion 121 under non-lockup state, cam 129 is rotated to close to the first bullet
Property component 131 direction is mobile and when retainer 129b comes out from sliding groove 127c, rotation cam 129 temporarily rotates to the first spine
Wheel holding section 125a abuts with the second ratchet holding section 129a, the protrusion of the first ratchet holding section 125a and the second ratchet holding section
The position that the recess portion of 129a combines, retainer 129b are opposed with the inclined-plane of both sides 127e of a side of sliding groove 127c.
Then, when releasing to the bulldozing operation power in bulldozing operation portion 121, cam 129 is rotated in the second elastomeric element 123
Active force under to mobile, the inclined-plane and shell of the upper surface 129b1 of retainer 129b from the direction that the first elastomeric element 131 leaves
The inclined-plane of the both sides 127e of a side of the sliding groove 127c of body 127 abuts, to rotate cam 129 further to the same direction
Rotation, the terminal on the inclined-plane of the both sides 127e of a side stop and become lockup state.
At this point, the recess portion of the protrusion of the first ratchet holding section 125a and the second ratchet holding section 129a are on the position being staggered
It is opposed.
When applying again in this state to the bulldozing operation power in bulldozing operation portion 121, rotation cam 129 is to close to the
The direction of one elastomeric element 131 is mobile, and rotation cam 129 temporarily rotates to the first ratchet holding section 125a and engages with the second ratchet
The position that portion 129a is abutted, the protrusion of the first ratchet holding section 125a is combined with the recess portion of the second ratchet holding section 129a, only
Dynamic portion 129b is opposed with the inclined-plane of both sides 127e of another party of sliding groove 127c.
Then, when releasing to the bulldozing operation power in bulldozing operation portion 121, cam 129 is rotated in the second elastomeric element 123
Active force under to mobile, the inclined-plane and shell of the upper surface 129b1 of retainer 129b from the direction that the first elastomeric element 131 leaves
The inclined-plane of the both ends 127e of another party of the sliding groove 127c of body 127 abuts, to rotate cam 129 further to Xiang Tongfang
To rotation, and rotate to the position opposed with sliding groove 127c retainer 129b.Also, in the effect of the second elastomeric element 123
Under power, retainer 129b enters in sliding groove 127c and rises to upper end in slot, becomes non-lockup state.At this point, first
The protrusion of ratchet holding section 125a and the recess portion of the second ratchet holding section 129a are opposed on the position being staggered.
Then, according to the presence or absence of the bulldozing operation power to bulldozing operation portion 121, above-mentioned movement is repeated.
In addition, according to bulldozing operation device 23, corresponding to the bulldozing operation bring moving parts by bulldozing operation portion 121
125 movement, rotation cam 129 are rotated after being connected to the first elastomeric element 131.That is, being connected to the in rotation cam 129
During before one elastomeric element 131, rotation cam 129 does not rotate.Also, the first elastic portion is connected in rotation cam 129
Part 131 and rotate cam 129 from the first elastomeric element 131 by frictional force in the state of, rotation cam 129 slowly rotate, because
This is able to suppress due to the collision sound between rotation bring rotation cam 129 and moving parts 125 sharply.
In addition, in a latched condition, the retainer 129b of rotation cam 129 is locked to shell according to bulldozing operation device 23
The bottom 127d of body 127, therefore the direction that the power engaged is applied is consistent with imaginary axis 57, it can be with stable posture locking.
In addition, using leaf spring as the first elastomeric element 131, thus the first elastomeric element according to bulldozing operation device 23
131 high management becomes easy, and can be pushed with the face of rotation cam 129, and wear resistance is high, can obtain compared with
High durability.In addition, will not be reversed as helical spring with rotation, therefore the recovery Shi Bufa after flexible deformation
Raw extraordinary noise.
In addition, according to bulldozing operation device 23, as shown in fig. 7, making retainer 129c in hook shape, and the side by being caught in
Formula is inserted into from the end of moving parts 125 to hollow portion, is easily pacified to moving parts 125 so as to rotate cam 129
Dress.In addition, can properly play the separation between rotation cam 129 and moving parts 125 by retainer 129c and support
The function of connecing.
In addition, according to bulldozing operation device 23, by keeping rotation cam 129 transparent, thus relative to rotation cam 129
Illumination region 87 is arranged in the case where 137 side of substrate, also can future self-luminescent part 87 light guide to bulldozing operation portion 121
Near.
The present invention is not limited to the above embodiments.
That is, those skilled in the art are in technical scope of the invention or its equivalents, it can be to above embodiment
Constituent element carry out various changes, combination, sub-combination and substitution.
For example, the shape etc. for constituting the component of bulldozing operation device 23 is an example, can deform.
Industrial utilizability
The present invention can be applied to the bulldozing operation device in settings such as the driver's seat peripheries of vehicle.
Claims (8)
1. a kind of bulldozing operation device, which is characterized in that
It includes
Moving parts is moved corresponding to bulldozing operation;
First elastomeric element;
Rotation cam is abutted with above-mentioned moving parts and is carried out between above-mentioned moving parts and above-mentioned first elastomeric element
Rotation;
Second elastomeric element makes above-mentioned rotation cam when bulldozing operation power is released under the active force of second elastomeric element
It is moved to from the direction that above-mentioned first elastomeric element leaves,
Above-mentioned rotation cam correspond to above-mentioned bulldozing operation in the state of being separated with above-mentioned moving parts with above-mentioned moving parts
It is integrally formed and mobile towards above-mentioned first elastomeric element, before above-mentioned rotation cam is connected to above-mentioned first elastomeric element
Period, above-mentioned rotation cam do not rotate, and after being connected to above-mentioned first elastomeric element, abut and carry out with above-mentioned moving parts
Rotation switches to from the first rotation gesture for becoming non-lockup state by the rotation and rotates appearance as the second of lockup state
Gesture, above-mentioned non-lockup state are the homing actions towards the position before above-mentioned bulldozing operation for being able to carry out above-mentioned moving parts
State, above-mentioned lockup state is the confined state of above-mentioned homing action.
2. bulldozing operation device as described in claim 1, which is characterized in that
Above-mentioned rotation cam is configured to, be connected to above-mentioned first elastomeric element and from first elastomeric element by active force
Under state, abuts and rotated with above-mentioned moving parts.
3. bulldozing operation device as described in claim 1, which is characterized in that
With shell, which accommodates above-mentioned moving parts and above-mentioned rotation cam, along the moving direction of above-mentioned moving parts
Sliding groove is formed with,
Above-mentioned shell is fixed in one end of above-mentioned second elastomeric element, and the other end is fixed on above-mentioned moving parts, pushes away towards above-mentioned
Position before press operation exerts a force to above-mentioned moving parts,
Above-mentioned rotation cam has retainer, which can be along the above-mentioned cunning of above-mentioned shell under above-mentioned first rotation gesture
Dynamic slot is mobile, is engaged under above-mentioned second rotation gesture by the peripheral portion of above-mentioned sliding groove.
4. bulldozing operation device as described in claim 1, which is characterized in that
With at least using above-mentioned rotation cam be connected to above-mentioned first elastomeric element as condition carry out on-off switch.
5. bulldozing operation device as claimed in claim 3, which is characterized in that
Above-mentioned shell above-mentioned moving parts not by carry out above-mentioned bulldozing operation in the state of by carry out rotation process when, can
It is pivoted about corresponding to the rotation process with defined imaginary axis,
Above-mentioned bulldozing operation device has the test section for the rotation position for detecting above-mentioned shell.
6. bulldozing operation device as described in claim 1, which is characterized in that
Above-mentioned first elastomeric element is leaf spring.
7. bulldozing operation device as described in claim 1, which is characterized in that
Above-mentioned rotation cam has hook portion,
Above-mentioned hook portion is inserted into the hollow portion of above-mentioned moving parts by way of being caught in from one end, so that above-mentioned rotation cam revolves
Turn movably to be hooked freely and on the moving direction of above-mentioned moving parts.
8. bulldozing operation device as described in claim 1, which is characterized in that
It includes
Illumination region, positioned at the periphery of above-mentioned first elastomeric element;And
Bulldozing operation portion is located at the end with above-mentioned rotation cam opposite side of above-mentioned moving parts,
Above-mentioned rotation cam be it is transparent,
The bulldozing operation device is configured to, and the light from above-mentioned illumination region reaches above-mentioned bulldozing operation portion via above-mentioned rotation cam
Near.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2015086158A JP6496598B2 (en) | 2015-04-20 | 2015-04-20 | Press operation device |
JP2015-086158 | 2015-04-20 |
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CN106067400B true CN106067400B (en) | 2019-03-22 |
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CN109032256B (en) * | 2018-07-27 | 2022-07-26 | 联想(北京)有限公司 | Input/output device and electronic apparatus |
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JPS54101371U (en) * | 1977-12-27 | 1979-07-17 | ||
JPS5518752U (en) * | 1978-07-25 | 1980-02-06 | ||
US4771141A (en) * | 1987-07-31 | 1988-09-13 | Zanxx, Inc. | Push-push electrical switch |
JP3109446B2 (en) * | 1996-05-23 | 2000-11-13 | 松下電器産業株式会社 | Shaft lock mechanism and rotary operation type electronic component having the same |
JP2004349006A (en) * | 2003-05-20 | 2004-12-09 | Tokai Rika Co Ltd | Switch device |
JP4951446B2 (en) * | 2007-08-31 | 2012-06-13 | アルプス電気株式会社 | Push switch device |
KR100927253B1 (en) * | 2009-02-05 | 2009-11-16 | (주)카마다코리아 | Rotary type push switch |
CN203406215U (en) * | 2013-08-08 | 2014-01-22 | 浙江万向精工有限公司 | Light multifunctional coding switch |
-
2015
- 2015-04-20 JP JP2015086158A patent/JP6496598B2/en active Active
-
2016
- 2016-03-15 CN CN201610146160.6A patent/CN106067400B/en active Active
Also Published As
Publication number | Publication date |
---|---|
JP2016207389A (en) | 2016-12-08 |
CN106067400A (en) | 2016-11-02 |
JP6496598B2 (en) | 2019-04-03 |
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