CN106067400A

CN106067400A - Bulldozing operation device

Info

Publication number: CN106067400A
Application number: CN201610146160.6A
Authority: CN
Inventors: 今野悟; 崔然照
Original assignee: Alps Electric Co Ltd
Current assignee: Alps Alpine Co Ltd
Priority date: 2015-04-20
Filing date: 2016-03-15
Publication date: 2016-11-02
Anticipated expiration: 2036-03-15
Also published as: CN106067400B; JP2016207389A; JP6496598B2

Abstract

There is provided a kind of and operate that sound is little 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), mobile parts (125) are mobile towards rotating cam (129), and the first ratchet holding section (125a) is sticked in the second ratchet holding section (129a) and rotates cam (129) and rotate.Thus, rotating cam (129) becomes the second rotation gesture from the first rotation gesture, rotates cam (129) and is integrally forming and pushes the first elastomeric element (131) with mobile parts (125).Under this second rotation gesture, become and rotate the lockup state that the retainer (129c) of cam (129) is locked in the both sides of the sliding tray (127c) of housing (127).

Description

Bulldozing operation device

Technical field

The present invention relates to the bulldozing operation device arranged at the driver's seat periphery etc. of vehicle.

Background technology

Have and press switching device as follows: possess heart-shaped cam mechanism, in the position having pushed functional unit Become lockup state, become non-lockup state by push operation parts once again, make functional unit multiple Position is to extrusion position.

Patent documentation 1: Japanese Unexamined Patent Publication 60-17532 publication

In the above-mentioned pressing switching device quoted described in document 1, heart-shaped cam mechanism uses locking Pin, thus there is the problem that operation sound is big.

Additionally, due to cam surface to be arranged on the side of slide block, make lock pin touch in a latched condition and lean on Carry out locking in the side of slide block, therefore have and in a latched condition slide block is continuously applied from side The power in direction, face, balance are deteriorated and the problems such as slider tilt.

Summary of the invention

The present invention makes in view of this situation, its object is to provide a kind of and operates the pushing that sound is little Operation device.

It is further an object that, it is provided that a kind of pushing balanced behaviour in a latched condition Make device.

Above-mentioned purpose is reached, the bulldozing operation dress of the present invention in order to solve above-mentioned problem of the prior art Put, have: mobile parts, move corresponding to bulldozing operation；Bearing part；And rotation cam, Between above-mentioned mobile parts and above-mentioned bearing part, abut with above-mentioned mobile parts and rotate, on State rotation cam, corresponding to above-mentioned bulldozing operation when with above-mentioned mobile isolation of components with above-mentioned Mobile parts are integrally forming and move towards above-mentioned bearing part, after being connected to above-mentioned bearing part, Abut with above-mentioned mobile parts and rotate, by this rotation, from becoming the first of non-lockup state Rotation gesture switches to become the second rotation gesture of lockup state, and above-mentioned non-lockup state is to enter The state of the homing action towards the position before above-mentioned bulldozing operation of the above-mentioned mobile parts of row, above-mentioned Lockup state is the confined state of above-mentioned homing action.

According to this structure, correspond to the movement of the above-mentioned mobile parts brought by above-mentioned bulldozing operation, on State rotation cam to rotate after being connected to above-mentioned bearing part.That is, support at above-mentioned rotation cam Being connected to the period before above-mentioned bearing part, above-mentioned rotation cam does not rotates.Then, above-mentioned rotation is convex Wheel is connected to above-mentioned bearing part, at above-mentioned rotation cam from above-mentioned bearing part by the shape of frictional force Under state, above-mentioned rotation cam slowly rotates.Therefore, it is possible to it is that suppression is brought by rotation drastically, above-mentioned Rotate the collision sound between cam and above-mentioned mobile parts.

Preferably, the above-mentioned bearing part of the bulldozing operation device of the present invention is the first elastomeric element, Above-mentioned rotation cam is configured to, and is being connected to above-mentioned bearing part and from this bearing part by active force State under, abut with above-mentioned mobile parts and rotate.

According to this structure, above-mentioned rotation cam is connected to above-mentioned first elastomeric element and can be slowly Ground is rotated on one side swimmingly by its elastic force, it is possible to more effectively suppress to be brought by above-mentioned rotation drastically Above-mentioned rotation cam and above-mentioned mobile parts between collision sound.

Preferably, the bulldozing operation device of the present invention, have: housing, house above-mentioned mobile parts With above-mentioned rotation cam, the moving direction along above-mentioned mobile parts is formed with sliding tray；And second Elastomeric element, one end is fixed on above-mentioned housing, and the other end is fixed on above-mentioned mobile parts, towards above-mentioned Above-mentioned mobile parts are exerted a force by the position before bulldozing operation, and above-mentioned rotation cam has in above-mentioned first rotation Turn can move along the above-mentioned sliding tray of above-mentioned housing under posture and under above-mentioned second rotation gesture The retainer that the periphery of above-mentioned sliding tray is locked.

According to this structure, in a latched condition, the locking of retainer is towards the shifting along above-mentioned mobile parts The direction in dynamic direction is carried out such that it is able to stable posture locking.

Additionally, according to this structure, in the case of bulldozing operation power has been released from, it is possible to make moving part Part is reset automatically original position.

Preferably, the above-mentioned housing of the bulldozing operation device of the present invention, do not have at above-mentioned mobile parts When being carried out rotation process under the state being carried out above-mentioned bulldozing operation, it is possible to corresponding to this rotation process And pivot about with the imaginary axis of regulation, above-mentioned bulldozing operation device has the above-mentioned housing of detection The test section of position of rotation.

According to this structure, rotation process input can be carried out in addition to bulldozing operation.

Preferably, the above-mentioned bearing part of the present invention is leaf spring.

According to this structure, the high management of above-mentioned bearing part becomes easy, and can use above-mentioned rotation Above-mentioned bearing part faced by rotating cam pushes, and mar proof is high, it is possible to obtain high-durability. Additionally, will not as helical spring accompanying rotation and twist, thus during recovery after elastic deformation Do not produce extraordinary noise.

Preferably, the above-mentioned switch of the bulldozing operation device of the present invention, above-mentioned bearing part by State break-make during rotation cam pushes.

Preferably, the above-mentioned rotation cam of the present invention has hook portion, by above-mentioned by the way of snapping in Hook inserts the hollow bulb of above-mentioned mobile parts from one end, thus above-mentioned rotation cam is relative to above-mentioned movement Parts move up freely and rotatably by hook in above-mentioned imaginary axis side.

According to this structure, it is possible to easily above-mentioned rotation cam is installed on above-mentioned mobile parts.Additionally, Can suitably play and separate and the action of abutting between above-mentioned rotation cam with above-mentioned mobile parts.

Preferably, the bulldozing operation device of the present invention, have: illuminating part, be positioned at above-mentioned receiving portion The periphery of part；And bulldozing operation portion, that be located at above-mentioned mobile parts with above-mentioned rotation cam contrary The end of side, above-mentioned rotation cam is transparent, and this bulldozing operation device is configured to, from above-mentioned The light in light portion arrives near above-mentioned bulldozing operation portion via above-mentioned rotation cam.

According to this structure, in the feelings arranging above-mentioned illuminating part relative to the substrate-side of above-mentioned rotation cam Under condition, it is also possible to the light from this illuminating part is guided near above-mentioned bulldozing operation portion.

Invention effect

In accordance with the invention it is possible to provide the bulldozing operation device that operation sound is little.

Additionally, in accordance with the invention it is possible to provide the bulldozing operation device balanced in a latched condition.

Accompanying drawing explanation

Fig. 1 is the plane graph of the input operation system 1 of embodiments of the present invention.

Fig. 2 contains rotation process body and linear operating body for explanation in input operation shell The figure of the structure of the face side under state.

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 of the relation for mobile parts, rotation cam and the first elastomeric element are described.

Fig. 7 is mobile parts and the sectional structure chart of rotation cam of the hatching B-B shown in Fig. 6.

Fig. 8 is the outward appearance of the snap-fit relationship for the second elastomeric element, mobile parts and housing are described Axonometric chart.

Fig. 9 is the outside drawing of the rear side of the state that rotation process body is installed in input operation shell.

Symbol description

1 ... input operation system

3 ... input operation shell

5 ... front panel

23 ... rotation process body

25 ... linear operating body

27 ... operating body

85 ... by compressing switch

87 ... illuminating part

121 ... bulldozing operation portion

123 ... the second elastomeric element

125 ... mobile parts

127 ... housing

127a ... outer peripheral face

127c ... sliding tray

127d ... bottom

129 ... rotate cam

129a ... the second ratchet holding section

129c ... retainer

131 ... the first elastomeric element

133 ... electrode

Detailed description of the invention

Hereinafter, the bulldozing operation device of embodiments of the present invention is illustrated.

Fig. 1 is the plane graph of the input operation system 1 of present embodiment, and Fig. 2 is defeated for explanation Enter the structure of face side under the state containing rotation process body and linear operating body in operation housing 3 Figure.

As shown in Figures 1 and 2, input operation system 1 is such as configured to, and is arranged in the driving of vehicle The side etc. of the steering wheel of seat, such as contains exterior lightings such as headlights in input operation shell 3 Lightness be adjusted bulldozing operation device 23, for carrying out the straight line of the on/off operation of fog lamp etc. Operating body 25 and for carrying out the operating body 27 of on/off operation of headlight.

On the front panel 5 being positioned at face side of input operation system 1, show bulldozing operation dress Put the bulldozing operation portion 121 of 23, the operating portion 70 of linear operating body 25 and the operation of operating body 27 Portion 28.

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 bulldozing operation device The stereoscopic figure of the bottom surface side of 23, Fig. 5 is the exploded perspective view of bulldozing operation device 23, Fig. 6 It it is the figure for illustrating to move the relation of parts 125, rotation cam 129 and the first elastomeric element 131. Fig. 7 is mobile parts 125 and the section knot of rotation cam 129 of the hatching B-B shown in Fig. 6 Composition, Fig. 8 is for the second elastomeric element 123, mobile parts 125 and the card of housing 127 are described The stereoscopic figure of conjunction relation.Fig. 9 is that bulldozing operation device 23 is installed in input operation shell 3 The outside drawing of the rear side of state.

As shown in Fig. 3～Fig. 8, bulldozing operation device 23 such as has bulldozing operation portion 121, second Elastomeric element 123, mobile parts 125, housing 127, rotation cam 129 and the first elastomeric element 131。

Housing 127 can be rotated to support on centered by imaginary axis 57 front panel 5 and substrate 137 it Between.

As it is shown on figure 3, the one end part of housing 127 is in the position opposed with substrate 137.At substrate The first elastomeric element 131 it is fixed with on 137.First elastomeric element 131 e.g. leaf spring.

The second elastomeric element 123 it is provided with, this its one end of the second elastomeric element 123 in the periphery of housing 127 It is locked to housing 127, and the other end is locked to the holding section of mobile parts 125 as shown in Figure 8 125b。

In the hollow bulb of housing 127, contain moving part with freely moving linearly along imaginary axis 57 Part 125.

As shown in Figure 6, move parts 125 and there is in the end of cartridge insertion direction the first ratchet holding section 125a, when being pushed the bulldozing operation power that operating portion 121 applies towards the first elastomeric element 131, Overcome the elastic force of the second elastomeric element 123 and towards rotating cam 129 and the first elastomeric element 131 Mobile.

As shown in Figure 6, rotate cam 129 between mobile parts 125 and the first elastomeric element 131 it Between, there is the second ratchet that can engage (can ratchet be combined) with the first ratchet holding section 125a Holding section 129a.

Rotate cam 129 as it is shown in figure 5, relative to mobile parts 125, on imaginary axis 57 direction Move freely, and centered by imaginary axis 57, be rotatably sticked in the platform in mobile parts 125 Terrace 125d, have carry out being limited so that on imaginary axis 57 direction with mobile parts 125 without departing from 3 more than predetermined distance retainer 129c.

As it is shown in fig. 7, retainer 129c is hook shape, from the first elastomeric element of mobile parts 125 Hollow bulb is inserted by the way of snapping in (snap-in) in the end of 131 sides.Thus, cam is rotated 129 move on the direction that the first ratchet holding section 125a and the second ratchet holding section 129a separates and abuts The dynamic step surface 125d being hooked in mobile parts 125 freely and rotatably.

Rotate cam 129 the second ratchet holding section 129a be not pushed operating portion 121 apply push away Under the state of press operation power, as shown in Figure 6 with the first ratchet conjunction portion 125a moving parts 125 Separate.Additionally, under this state, rotate cam 129 and separate with the first elastomeric element 131.

As shown in Figure 8, at the holding section 125b of mobile parts 125, the second elastomeric element 123 is installed One end.Additionally, the other end of the second elastomeric element 123 is supported on housing 127.

Mobile parts 125 under the active force of the second elastomeric element 123 putting on holding section 125b, Become the state exerted a force towards bulldozing operation portion 121.Bulldozing operation portion 121 by hook with movement Parts 125 remain one, and move integratedly with mobile parts 125.

It addition, mobile parts 125 are limited movement upward by rotating cam 129.As it is shown in figure 9, Rotate cam 129 to engage, at non-locking at the both sides 127e of sliding tray 127c in a latched condition Abut with the upper terminal part of sliding tray 127c under state and limited motion upward.

Mobile parts 125, when being pushed operating portion 121 and applying bulldozing operation power, overcome the second elasticity The elastic force of parts 123 and can move towards the first elastomeric element 131 integratedly with rotating cam 129.

Rotation cam 129 is when bulldozing operation portion 121 is pushed operation, as described above, by it Ratchet between first ratchet holding section 125a of the second ratchet holding section 129a and mobile parts 125 In conjunction with, pivot about with imaginary axis 57, alternately switch the first rotation gesture and second and rotate Posture.

Here, the first rotation gesture is as it is shown in figure 9, be retainer 129b and the shell rotating cam 129 The sliding tray 127c of body 127 is positioned to the posture of position, is that rotation cam 129 can be at housing 127 Interior upper mobile imaginary axis 57 direction (not carrying out the position of bulldozing operation) along sliding tray 127c State (non-lockup state).Under this state, when to the bulldozing operation power solution in bulldozing operation portion 121 Except time, rotate cam 129 with movement parts 125 be integrally forming, in response to the second elastomeric element 123 Active force, to leave from the first elastomeric element 131 towards movement.

On the other hand, the second rotation gesture be rotate cam 129 retainer 129b not with housing 127 Sliding tray 127c opposed, the both sides of sliding tray 127c locking state (lockup state).Should Under state, in the case of the bulldozing operation power to bulldozing operation portion 121 releases, due to retainer 129b Engage at the both sides 127e of sliding tray 127c, so being maintained at rotation cam 129 and moving part The lock position that the movement of part 125 is restricted.

As shown in Figure 6, the substrate 137 shown in Fig. 3 is configured with first elastomeric element 131 Position, is provided with by compressing switch 85.Additionally, by compress switch 85 periphery, be provided with the luminescences such as LED Portion 87.

In bulldozing operation device 23, such as, it is transparent for rotating cam 129, carrys out self-luminescent part 87 Light through rotating cam 129, the hollow bulb of mobile parts 125, arrive the position in bulldozing operation portion 121 Put.

Additionally, as shown in Figure 4, it is provided with electrode 133 at the bottom 127d of housing 127, by base The electrode pattern 139 formed on plate 137 and the position relationship of electrode 133, detect bulldozing operation portion 121 Position of rotation.

Bulldozing operation device 23 such as when bulldozing operation portion 121 is not pushed operation, when Bulldozing operation portion 121 centered by imaginary axis 57 by rotation process time, bulldozing operation portion 121 and housing 127 rotate with being integrally forming, and detect its position of rotation, and the position of rotation carrying out detecting to this is corresponding Input processing.

Hereinafter, the action to bulldozing operation device 23 illustrates.

When bulldozing operation portion 121 is applied bulldozing operation power, overcome the bullet of the second elastomeric element 123 Power and mobile parts 125 move towards the first elastomeric element 131 with rotation cam 129 with being integrally forming.

Now, rotation cam 129 is the first rotation gesture shown in Fig. 9, is to rotate cam 129 energy Enough states (non-lockup state) moved along imaginary axis 57 in housing 127.

Further, when the lower surface rotating cam 129 is connected to the first elastomeric element 131, rotate convex Wheel 129 is supported by the first elastomeric element 131, and mobile parts 125 move towards rotating cam 129 Dynamic, the first ratchet holding section 125a is sticked in the second ratchet holding section 129a.Now, the first ratchet card The inclined plane of the second ratchet holding section 129a is pushed by the protuberance down of conjunction portion 125a, in rotation Rotating cam 129 produces the revolving force centered by imaginary axis 57.

By this revolving force, rotate cam 129 and rotate and become the second rotation appearance from the first rotation gesture Gesture, the protuberance of the first ratchet holding section 125a and the recess of the second ratchet holding section 129a combine, rotation Rotating cam 129 is integrally forming with mobile parts 125 and is pushed by the first elastomeric element 131.

Under this second rotation gesture, become and rotate the retainer 129c of cam 129 at housing 127 The lockup state that the both sides of sliding tray 127c are locked.

Then, in the case of the bulldozing operation power to bulldozing operation portion 121 releases, as described above, It is locked at the both sides 127e of sliding tray 127c owing to rotating the retainer 129b of cam 129, institute To move parts 125 and to rotate cam 129 and become lockup state, and it is maintained at and overcomes the second bullet The elastic force of property parts 123 and the position that is pushed.

Now, the first ratchet holding section 125a of parts 125 and the second spine rotating cam 129 are moved Wheel holding section 129a becomes the state of separation again.

Then, when bulldozing operation portion 121 being applied bulldozing operation power, mobile parts 125 court Moving to rotating cam 129, the first ratchet holding section 125a and the second ratchet holding section 129a combines, By its revolving force, rotate cam 129 and rotate and again return to the first rotation appearance from the second rotation gesture Gesture.

This action is described in detail.

The upper surface 129b1 of retainer 129b becomes inclined-plane, the two of the sliding tray 127c of housing 127 Sidepiece 127e also becomes inclined-plane.

By the bulldozing operation power to bulldozing operation portion 121 under non-lockup state, rotate cam 129 To move near the direction of the first elastomeric element 131 and retainer 129b from sliding tray 127c out time, Rotation cam 129 temporarily rotates to the first ratchet holding section 125a and the second ratchet holding section 129a and supports Connect, the recess of the protuberance of the first ratchet holding section 125a and the second ratchet holding section 129a combines Position, the inclined-plane of the both sides 127e of a side of retainer 129b and sliding tray 127c is opposed.

Then, when the bulldozing operation power to bulldozing operation portion 121 releases, cam 129 is rotated the Move to the direction left from the first elastomeric element 131 under the active force of two elastomeric elements 123, stop The both sides of one side of the inclined-plane of the upper surface 129b1 of portion 129b and the sliding tray 127c of housing 127 The inclined-plane of 127e abuts, thus rotates cam 129 and rotate to equidirectional further, the two of a side The terminal on the inclined-plane of sidepiece 127e stops and becoming lockup state.

Now, the protuberance of the first ratchet holding section 125a and the recess of the second ratchet holding section 129a exist On the position staggered opposed.

When the most again applying to the bulldozing operation power in bulldozing operation portion 121, rotate cam 129 move to the direction near the first elastomeric element 131, rotate cam 129 and temporarily rotate to the first spine Wheel holding section 125a and the second ratchet holding section 129a abuts, the protuberance of the first ratchet holding section 125a The position combined with the recess of the second ratchet holding section 129a, retainer 129b and sliding tray 127c The inclined-plane of both sides 127e of the opposing party opposed.

Then, when the bulldozing operation power to bulldozing operation portion 121 releases, cam 129 is rotated the Move to the direction left from the first elastomeric element 131 under the active force of two elastomeric elements 123, stop The two ends of the opposing party of the inclined-plane of the upper surface 129b1 of portion 129b and the sliding tray 127c of housing 127 The inclined-plane of portion 127e abuts, thus rotates cam 129 and rotate to equidirectional further, and rotates to The position that retainer 129b is opposed with sliding tray 127c.Further, at the work of the second elastomeric element 123 Under Yong Li, retainer 129b entrance sliding tray 127c is interior and rises to upper end in groove, becomes non- Lockup state.Now, the protuberance of the first ratchet holding section 125a and the second ratchet holding section 129a Recess is opposed on the position staggered.

Then, according to the presence or absence to the bulldozing operation power in bulldozing operation portion 121, above-mentioned action is repeated.

Additionally, according to bulldozing operation device 23, corresponding to by the bulldozing operation band in bulldozing operation portion 121 The movement of the mobile parts 125 come, rotates after cam 129 is connected to the first elastomeric element 131 and carries out Rotate.That is, it is connected to the period before the first elastomeric element 131 at rotation cam 129, rotates convex Wheel 129 does not rotates.Further, it is connected to the first elastomeric element 131 at rotation cam 129 and rotates convex Wheel 129 by the state of frictional force from the first elastomeric element 131, rotates cam 129 and slowly rotates, Therefore, it is possible to suppression rotates between cam 129 and mobile parts 125 due to what rotation drastically brought Collision sound.

Additionally, according to bulldozing operation device 23, in a latched condition, rotate the retainer of cam 129 129b is locked to the bottom 127d of housing 127, the direction that the power therefore engaged is applied and imaginary axis 57 Unanimously, it is possible to stable posture locking.

Additionally, according to bulldozing operation device 23, use leaf spring as the first elastomeric element 131, thus The high management of the first elastomeric element 131 becomes easy, and can enter with the face rotating cam 129 Row pushes, and mar proof is high, it is possible to obtain higher durability.Additionally, will not as helical spring that Sample reverses along with rotation, therefore during recovery after elastic deformation, extraordinary noise does not occur.

Additionally, according to bulldozing operation device 23, as it is shown in fig. 7, making retainer 129c is hook shape, And insert to hollow bulb from the end moving parts 125 by the way of snapping in such that it is able to will rotate Cam 129 is easily installed to mobile parts 125.Additionally, by retainer 129c, it is possible to appropriate Ground plays to rotate and separates and the function of abutting between cam 129 with mobile parts 125.

Additionally, according to bulldozing operation device 23, by making rotation cam 129 transparent, thus relatively In the case of illuminating part 87 is arranged on substrate 137 side by rotation cam 129, it is also possible to the most spontaneous The light in light portion 87 guides near bulldozing operation portion 121.

The invention is not restricted to above-mentioned embodiment.

That is, those skilled in the art are in the technical scope or its equivalents of the present invention, can be to upper The element stating embodiment carries out various change, combination, sub-combination and replacement.

Such as, the shape etc. of the parts constituting bulldozing operation device 23 is an example, it is possible to deformation.

Industrial utilizability

The present invention can be applied to the bulldozing operation device arranged at the driver's seat periphery etc. of vehicle.

Claims

1. a bulldozing operation device, it is characterised in that

Have:

Mobile parts, move corresponding to bulldozing operation；

Bearing part；And

Rotate cam, between above-mentioned mobile parts and above-mentioned bearing part, with above-mentioned mobile parts Abut and rotate,

Above-mentioned rotation cam corresponding to above-mentioned bulldozing operation when with above-mentioned mobile isolation of components with Above-mentioned mobile parts are integrally forming and move towards above-mentioned bearing part, are being connected to above-mentioned bearing part Afterwards, abut with above-mentioned mobile parts and rotate, by this rotation, from becoming non-lockup state The first rotation gesture switch to become the second rotation gesture of lockup state, above-mentioned non-lockup state is The shape of the homing action towards the position before above-mentioned bulldozing operation of above-mentioned mobile parts can be carried out State, above-mentioned lockup state is the confined state of above-mentioned homing action.

2. bulldozing operation device as claimed in claim 1, it is characterised in that

Above-mentioned bearing part is the first elastomeric element,

Above-mentioned rotation cam is configured to, and is made from this bearing part being connected to above-mentioned bearing part Under state firmly, abut with above-mentioned mobile parts and rotate.

3. bulldozing operation device as claimed in claim 1, it is characterised in that

Have:

Housing, houses above-mentioned mobile parts and above-mentioned rotation cam, along the movement of above-mentioned mobile parts Direction is formed with sliding tray；And

Second elastomeric element, one end is fixed on above-mentioned housing, and the other end is fixed on above-mentioned mobile parts, Towards the position before above-mentioned bulldozing operation, above-mentioned mobile parts are exerted a force,

Above-mentioned rotation cam has retainer, this retainer under above-mentioned first rotation gesture can along on The above-mentioned sliding tray stating housing moves, by the periphery of above-mentioned sliding tray under above-mentioned second rotation gesture Locking.

4. bulldozing operation device as claimed in claim 1, it is characterised in that

Have and be at least connected to above-mentioned bearing part with above-mentioned rotation cam and carry out opening of break-make for condition Close.

5. bulldozing operation device as claimed in claim 3, it is characterised in that

Above-mentioned housing is revolved when above-mentioned mobile parts do not carry out above-mentioned bulldozing operation When turning operation, it is possible to pivot about with the imaginary axis of regulation corresponding to this rotation process,

Above-mentioned bulldozing operation device has the test section of the position of rotation detecting above-mentioned housing.

6. bulldozing operation device as claimed in claim 2, it is characterised in that

Above-mentioned bearing part is leaf spring.

7. bulldozing operation device as claimed in claim 1, it is characterised in that

Above-mentioned rotation cam has hook portion,

By the way of snapping in, above-mentioned hook portion is inserted from one end the hollow bulb of above-mentioned mobile parts, thus Above-mentioned rotation cam rotatably and is movably hooked on the moving direction of above-mentioned mobile parts Hang.

8. bulldozing operation device as claimed in claim 1, it is characterised in that

Have:

Illuminating part, is positioned at the periphery of above-mentioned bearing part；And

Bulldozing operation portion, is located at above-mentioned mobile parts with above-mentioned rotation cam opposite side end,

Above-mentioned rotation cam is transparent,

This bulldozing operation device is configured to, and the light from above-mentioned illuminating part arrives via above-mentioned rotation cam The vicinity in above-mentioned bulldozing operation portion.