CN1551267A - Switch device - Google Patents

Abstract

To prevent a twist of a switch element in constitution in which an operation knob is alternately held in a locking position and an unlocking position by pressing the operation knob. When the operation knob 18 is pressed, a rotor 32 is rotated by a first cam mechanism 37, the switch element 40 is turned on by a pusher 25 moving together with the operation knob 18 when pushing is released, the rotor 32 is held in the locking position by a second cam mechanism 39, and the operation knob 18 and the pusher 25 are held in the locking position. When the operation knob 18 is pressed again, the rotor 32 is rotated and unlocked, and when pressing is released, the rotor 32 is returned to the unlocking position, the operation knob 18 and the pusher 25 are returned to the unlocking position, and the switch element 40 is turned off.

Description

Switching device

Technical field

The present invention relates to based on the pressing operation of action button and this action button is remained in alternately the switching device of latched position and the structure of the position that unlocks.

Background technology

As this switching device, known has, for example the device (with reference to patent documentation 1) of Fig. 9 and structure shown in Figure 10.The structure of this device is as follows.Promptly, in being arranged at the step-like resettlement section (retaining hole) 2 of Switch main body 1, be provided with at the operation axis body 3 that axially can move back and forth, be provided with action button (operation board) 4 in the upper end of this operation axis body 3, simultaneously, be provided with rotatable rotor (rotary body) 5 in the bottom.Between operation axis body 3 and rotor 5, be provided with first cam mechanism 6 that makes rotor 5 rotations based on the push of operating axis body 3, and, be provided with between the peripheral part of the interior perimembranous of resettlement section 2 and rotor 5 make based on the push of operation axis body 3 rotor 5 below latched position and above mutual second cam mechanism 7 that keeps in the position that unlocks.And, below rotor 5, be provided with switch element 8 with rubber contact site 8a.

In said structure, during pressing operation button 4, rotor 5 in rotation the latched position below remaining in alternately and above the position that unlocks, based on by the pushing or removing and push of 5 pairs of rubber contact sites of this rotor 8a, connect, cut-off switch element 8.

Patent documentation 1: specially permit communique No. 3133890.

Yet, in said structure, owing to be to be accompanied by the structure of the pressing operation of action button 4, so the rubber contact site 8a of switch element 8 is twisted damaged easily shortcoming when having these rotor 5 rotations by rotor 5 console switch elements 8.

Summary of the invention

The present invention is in view of the above problems and proposes, and it is a kind of this action button being remained in alternately in the structure of the latched position and the position that unlocks based on the operation of push button that its purpose is to provide, and can prevent the switching device of switch element distortion.

In order to achieve the above object, switching device of the present invention, has the resettlement section that is arranged on the switch main body, a part is inserted in this resettlement section from the outside of described resettlement section, can be at axially reciprocating but the action button of the pressing operation that can not be provided with swaying, be positioned at described resettlement section, be connected push rod on this action button movably with described action button one, be positioned at described resettlement section, be disposed between described action button and the described push rod, can be at described axially reciprocating and the rotor that can be provided with swaying, be located between described resettlement section and the described action button, towards in the opposite direction described action button being applied first spring member of elastic force with the side of pushing, be located between described push rod and the described rotor, push direction applies elastic force to described push rod second spring member towards described, be located between described action button and the described rotor, based on first cam mechanism that the pressing operation of described action button is made described rotor when moving vertically, pivot, be located between the peripheral part of the interior perimembranous of described resettlement section and described rotor, based on the pressing operation of described action button being made described rotor at described second cam mechanism of pushing the latched position of direction and the mutual maintenance in position that unlocks opposite with pushing direction, and by with described rotor at axially movable described push rod and the switch element of switching state.

In said structure, for example when being in the action button push of the position that unlocks, effect by first cam mechanism, push rod moves to pushing direction with rotor, simultaneously, the angle that rotor rotation is set along with removing for the pushing of action button, remains on latched position by second cam mechanism with rotor.At this moment, action button and push rod also are maintained at latched position, utilize push rod that switch element is carried out for example making operation.Again during the pressing operation button, by the effect of first cam mechanism, push rod moves to pushing direction with rotor from this state, simultaneously, the angle that rotor rotation is set along with removing for the pushing of action button, remains on the position that unlocks by second cam mechanism with rotor.At this moment, action button and push rod also remain on the position that unlocks, and switch element carries out for example opening operation.

In said structure, based on push, by push rod console switch element to action button.In this case, push rod and action button connect as one, and can move vertically, but can not sway, so can not caused the distortion of switch element by push rod.And, this action button remained in alternately the structure of latched position and the position that unlocks owing to be based on to the push of action button, so observe the position of action button, just can understand the state of switch element.And then, since utilize first spring member always to action button to applying elastic force in the opposite direction with the side of pushing, rock shakiness so can prevent this action button.

Description of drawings

Fig. 1 represents a form of implementation of the present invention, is the longitudinal section of the state of unlocking.

Fig. 2 is the longitudinal section of lock-out state.

Fig. 3 is the exploded perspective view of major part.

Fig. 4 is the longitudinal section of resettlement section part.

Fig. 5 is the plane graph of rotor.

Fig. 6 is the sectional view along X-X line among Fig. 5.

Fig. 7 is the Action Specification figure of first cam mechanism, respectively expression: when (a) unlocking, and (b) during total travel, (c) during locking, the expanded view when (d) pushing again.

Fig. 8 is the Action Specification figure of second cam mechanism, respectively expression: when (a) unlocking, and (b) during total travel, (c) during locking, the expanded view when (d) pushing again.

Fig. 9 represents existing structure, is the exploded perspective view of cutting state representation with a part open.

Figure 10 is a longitudinal section.

Among the figure: 11-Switch main body, 12-resettlement section, 14-cam path, 15-latch-release groove, the 16-lock slots, 18-action button, 20-first spring member, 22-cam part, the 23-nose of cam, 25-push rod, 32-rotor, 34-second spring member, 36-first nose of cam, 37-first cam mechanism, 38-second nose of cam, 39-second cam mechanism, 40-switch element, the 42-fixed contact, 43-rubber contact site, 44-travelling contact.

Embodiment

Below in conjunction with Fig. 1～Fig. 8 an embodiment of the invention are illustrated.This form of implementation is that the present invention is applicable to the example of the vehicle window locking of automobile with switch.At first, in Fig. 1～Fig. 4, above being provided with in the Switch main body 11 and step-like resettlement section 12 of lower aperture simultaneously, is provided with the action button guide part 13 of rectangle around this resettlement section 12.The interior perimembranous of the large-diameter portion 12a of 12 lower side in the resettlement section forms as Fig. 4 and cam path 14 shown in Figure 8.

In this cam path 14, with the intervals of 30 degree mutual form dark upward latch-release groove 15 with than this shallow lock slots 16.So latch-release groove 15 and lock slots 16 are equally spaced forming 6 respectively entirely in week.Wherein in latch-release groove 15, form two vertical plane 15a, form inclined-plane 15b simultaneously in the above.In lock slots 16, form inclined-plane 16a and vertical plane 16b.And, also form inclined-plane 17 below between lock slots 16 and next latch-release groove 15.

In the outside of aforesaid operations button guide part 13, cover the rectangle action button 18 that disposes lower aperture.At the inboard central portion of this action button 18, projection is provided with the tube portion 19 of extending downwards, and this one 19 inserts above-mentioned resettlement section 12 from the top.This action button 18 is (above-below direction) reciprocating motion vertically, but can not pivot.Dispose first spring member 20 that is made of compression helical spring between action button 18 and resettlement section 12, this first spring member 20 applies elastic force towards the direction (arrow A 2 directions) opposite with pushing direction (arrow A 1 direction) to action button 18.

Above-mentioned tube portion 19 is the step shapes that have the minor diameter part 19b littler than the diameter of this large-diameter portion 19a in the first end of large-diameter portion 19a.On the surrounding wall portion of the large-diameter portion 19a of tube portion 19, form the rectangle combined hole 21 at two places that are positioned at the opposite.And face is provided with cam part 22 in the lower side of large-diameter portion 19a.On this cam part 22, form a plurality of outstanding to the lower side nose of cam 23, in this case, be that per 30 degree form one, amount to 12.As shown in Figure 7, each nose of cam 23 is the right-angled triangles with inclined-plane 23a and vertical plane 23b.

Be disposed at the push rod 25 in the above-mentioned resettlement section 12, has axial region 27 outstanding upward on circular press section 26, simultaneously, peripheral part at this axial region 27 has two in conjunction with protuberance 28, axial region 27 inserts in the tube portion 19 of aforesaid operations button 18 from the below, by combining the combination of protuberance 28 with each by above-mentioned combined hole 21, be connected the bottom of action button 18 movably with action button 18 one.Also have, on axial region 27, form slit 29 in conjunction with the position between the protuberance 28, make these in conjunction with protuberance 28 easy strains at two.

Two places of 26 peripheral parts in the press section form outstandingly upward in conjunction with projection 30, and this inserts the engagement groove 31 that Switch main body 11 forms in conjunction with projection 30 from the below.These are in conjunction with projection 30, can move at above-below direction along engagement groove 31, but stop its rotation around axle.And, by these upper ends, below Switch main body 11, contact in conjunction with projection 30, can prevent the deviating from upward of push rod 25 and action button 18.

In above-mentioned resettlement section 12, dispose the axial region 27 that is positioned at above-mentioned push rod 25 around, the rotor 32 that can pivot.At the central portion of this rotor 32, form the through hole 33 of the axial region 27 that connects push rod 25, in this through hole 33, insert the minor diameter part 19b of the tube portion 19 of action button 18.Between on the press section 26 of this rotor 32 and push rod 25, be provided with second spring member 34 that constitutes by compression helical spring, on the direction of leaving mutually, rotor 32 and push rod 25 applied elastic force by the elastic force of this second spring member 34.Also have, the elastic force of this second spring member 34 is set forr a short time than the elastic force of above-mentioned first spring member 20, between rotor 32 and second spring member 34, dispose be used to make rotor 32 that rotate smoothly, for example by the packing ring 35 of mades such as resin sheet.

On rotor 32, the circumference that is positioned at through hole 33 and with the position of above-mentioned cam part 22 opposite faces, form side-prominent upward a plurality of first nose of cam 36, in this case, be to form one, form three altogether (with reference to Fig. 3, Fig. 5～Fig. 7) every 120 degree.As shown in Figure 7, each first nose of cam 36 is the right-angled triangles with inclined-plane 36a and vertical plane 36b.Here, the cam part 22 by these first nose of cam 36 and aforesaid operations button 18 constitutes first cam mechanism 37.

And, at the peripheral part of rotor 32, form one every 120 degree, form three altogether to second nose of cam 38 (with reference to Fig. 3, Fig. 5, Fig. 6, Fig. 8) radially outstanding and that extend to axially (above-below direction).Each second nose of cam 38 is set at the width in the latch-release groove 15 of the cam path 14 that can insert above-mentioned resettlement section 12.The side of second nose of cam 38 is vertical plane 38a, and, be inclined-plane 38b above.By the cam path 14 of these second nose of cam 38, constitute second cam mechanism 39 (with reference to Fig. 8) with resettlement section 12.

Below above-mentioned push rod 25, be provided with switch element 40.This switch element 40 is made of with the travelling contact 44 that is provided with below rubber contact site 43 a pair of fixed contact 42 that is arranged on above the circuit base plate 41, under the state of the Fig. 1 that does not push rubber contact site 43, fixed contact 42 leaves with travelling contact 44, be off-state, along with pushing rubber contact site 43, travelling contact 44 contacts with a pair of fixed contact 42, is on-state (with reference to Fig. 2).Rubber contact site 43 is owing to the elasticity of himself, and 42 directions of leaving apply elastic force towards travelling contact 44 from fixed contact usually.

Then, the effect to said structure is illustrated.

Fig. 1 represents the state of unlocking.Under this state, shown in Fig. 8 (a), three second nose of cam 38 of rotor 32 enter in the latch-release groove 15 of cam path 14 of interior perimembranous of resettlement section 12 and combination, and rotor 32 is positioned at the latch-release position of top.Accompany therewith, action button 18 and push rod 25 also are positioned at the latch-release position of top.At this moment, the travelling contact 44 of rubber contact site 43 leaves from fixed contact 42, and switch element 40 is an off-state.So switch is used in locking as vehicle window, is the state of unlocking.And, at this moment, shown in Fig. 7 (a), the inclined-plane 23a of three nose of cam 23 of the cam part 22 of action button 18, with the part of the inclined-plane 36a of three first nose of cam 36 of rotor 32 with near state relative to.

Under the state of Fig. 1 during pressing operation button 18, this action button 18 is with regard to the elastic force that overcomes first spring member 20 and move to arrow A 1 direction, simultaneously, the push rod 25 that is connected with this action button 18 also moves to same arrow A 1 direction, by this push rod 25 rubber contact site 43 is pushed to same arrow A 1 direction.

At this moment, be accompanied by action button 18 moving to arrow A 1 direction, three nose of cam 23 inclined-plane 23a just push the inclined-plane 36a of first nose of cam 36 of rotor 32 in the cam part 22 of this action button 18, accompany therewith, and rotor 32 also moves to arrow A 1 direction.And, because this moment, second nose of cam 38 in the rotor 32 entered latch-release groove 15 in the cam path 14 of Switch main body 11 1 sides respectively, so, though rotor 32 can move in arrow A 1 direction, can not rotate.

Then, when action button 18 is pressed into the below (total travel), shown in the solid line of Fig. 8 (b), second nose of cam 38 of rotor 32 just can be deviate from downwards from latch-release groove 15.Like this, shown in Fig. 7 (b), effect by the inclined-plane 36a of each first nose of cam 36 in the inclined-plane 23a of each nose of cam 23 of action button 18 and the rotor 32, rotor 32 rotates to the arrow B direction, the vertical plane 36b of first nose of cam 36 contacts with the vertical plane 23b of nose of cam 23, and its rotation stops (with reference to the double dot dash line among Fig. 7 (b)).At this moment, rotor 32 rotates about 15 degree to the arrow B direction.Follow the rotation of rotor 32, shown in the double dot dash line among Fig. 8 (b), the inclined-plane 38b of second nose of cam 38 relative with the inclined-plane 16a of lock slots 16 to.And along with pushing rubber contact site 43 by above-mentioned push rod 25, travelling contact 44 contacts with fixed contact 42, and switch element 40 is on-state (with reference to Fig. 2), and switch is used in locking as vehicle window, is lock-out state.

Thereafter, when having removed for action button 18 pressing operation power, action button 18 and push rod 25 are moved to arrow A 2 (top) by the elastic force of first spring member 20, and simultaneously, rotor 32 also moves to same direction.Like this, the inclined-plane 38b of second nose of cam 38 just contacts with the inclined-plane 16a of lock slots 16 in the rotor 32, and this inclined-plane, edge 16a slides, and rotor 32 rotates to the arrow B direction on one side.And shown in Fig. 8 (c), a side's (right side) of second nose of cam 38 vertical plane 38a contacts with the vertical plane 16b of lock slots 16, and rotation stops, and is the state that second nose of cam 38 combines with lock slots 16.At this moment, rotor 32 rotates about 15 degree to the arrow B direction, and shown in Fig. 7 (c), first nose of cam 36 of rotor 32 becomes the state of a part of opposite face of the inclined-plane 23a of its inclined-plane 36a and next nose of cam 23.So,, rotated 30 degree to arrow B by the state of unlocking (state of Fig. 7 (a) and Fig. 8 (a)) as rotor 32.

By combining of second nose of cam 38 and lock slots 16, rotor 32, action button 18, and push rod 25 just are maintained at latched position shown in Figure 2.In this state, though push rod 25 during than total travel when solid line (Fig. 7 (b) and Fig. 8 (b)) returns to the A2 direction, utilize the elasticity of rubber contact site 43, travelling contact 44 is maintained (with reference to Fig. 2) with fixed contact 42 contacted states.

Thereafter, during again to action button 18 pressing operations, this action button 18 moves to arrow A 1 direction with push rod 25, simultaneously, the inclined-plane 23a of three place's nose of cam 23 of this action button 18 pushes the inclined-plane 36a of first nose of cam 36 of rotor 32, accompany therewith, rotor 32 also moves to same arrow A 1 direction.At this moment, second nose of cam 38 of rotor 32, during the latch-release groove 15 of the cam path 14 that enters Switch main body 11 1 sides respectively, rotor 32 can move to arrow A 1 direction, but can not rotate.

And, shown in solid line among Fig. 8 (d), second nose of cam 38 of rotor 32 is when lock slots 16 is deviate from downwards, shown in Fig. 7 (d), effect by the inclined-plane 36a of each first nose of cam 36 in the inclined-plane 23a of each nose of cam 23 of action button 18 and the rotor 32, rotor 32 rotates to the arrow B direction, and the vertical plane 36b of first nose of cam 36 contacts with the vertical plane 23b of nose of cam 23, and this rotation stops (with reference to the double dot dash line of Fig. 7 (d)).At this moment, rotor 32 rotates about 15 degree to the arrow B direction.Along with the rotation of rotor 32, shown in the double dot dash line of Fig. 8 (d), adjacent inclined-plane 17 opposite faces of the inclined-plane 38b of second nose of cam 38 and lock slots 16.

Thereafter, when having removed for action button 18 pressing operation power, action button 18 and push rod 25 are moved to arrow A 2 (top) by the elastic force of first spring member 20, and simultaneously, rotor 32 also moves to same direction.Like this, the inclined-plane 38b of second nose of cam 38 just contacts with inclined-plane 17 in the rotor 32, slides on this inclined-plane 17, and rotor 32 rotates about 15 degree to the arrow B direction simultaneously.And, when second nose of cam 38 arrives with next latch-release groove 15 corresponding positions, rotor 32, action button 18, and push rod 25 move to arrow A 2 directions (top) by the elastic force of first spring member 20, second nose of cam 38 enters latch-release groove 15, becomes the state (with reference to Fig. 8 (a)) that combines with this latch-release groove 15.At this moment, rotor 32 rotates about 15 degree to the arrow B direction, and first nose of cam 36 of rotor 32 becomes the state (with reference to Fig. 7 (a)) on a part of opposite of the inclined-plane 23a of inclined plane part 36a and next nose of cam 23.So,, rotated 30 degree to arrow B by lock-out state (state of Fig. 7 (c) and Fig. 8 (c)) as rotor 32.

So, by combining of second nose of cam 38 and latch-release groove 15, rotor 32, action button 18, and push rod 25 keep latch-release position shown in Figure 1.In this state, because push rod 25 is removed pressing forces, the elastic-restoring force by rubber contact site 43 self makes travelling contact 44 leave from fixed contact 42, and switch element 40 becomes off-state once more.

Each like this during to action button 18 pressing operations, action button 18, push rod 25, and rotor 32 can remain in latched position and latch-release position alternately, accompany therewith, switch element 40 becomes connection, off-state alternately.

According to above-mentioned form of implementation, can access following effect.

In said structure, based on pressing operation to action button 18, can be by push rod 25 console switch elements 40.In this case, because push rod 25 is combined as a whole with action button 18, can axially moving back and forth, but can not sway, so can not cause the distortion of switch element 40 by this push rod 25.And, owing to the pressing operation that is based on action button 18 makes action button 18 remain in the structure of latched position and latch-release position alternately,, just can understand the state of switch element 40 so observe the position of action button 18.And then, since by first spring member 20 always in the opposite direction action button 18 being applied elastic force with the side of pushing, rock shakiness so can prevent this action button 18.

The present invention is not limited in above-mentioned form of implementation, can also carry out following distortion or expansion.

The number of first nose of cam 36 in the number of the nose of cam 23 of action button 18 cam portions 22 and the rotor 32, be not limited to above-mentioned form of implementation, for example, also the protuberance of action button 18 sides can be made as 6, first nose of cam of rotor 32 sides is made as 4.

As application, can also be applicable to that vehicle window locks with the switch beyond the switch.

By above explanation as can be known, according to the present invention, based on this action button being remained in the structure of latched position and latch-release position alternately to the pressing operation of action button, can prevent the distortion of switch element, can prevent the shakiness of rocking of action button simultaneously.

Claims (1)

1. a switching device is characterized in that having

Be arranged on the resettlement section on the switch main body,

A part inserts from the outside of described resettlement section in this resettlement section, can be at axially reciprocating but the action button of the pressing operation that can not be provided with swaying,

Be positioned at described resettlement section, be connected push rod on this action button movably with described action button one,

In described resettlement section, be disposed between described action button and the described push rod, can be at described axially reciprocating and the rotor that can be provided with swaying,

Be located between described resettlement section and the described action button, towards in the opposite direction described action button being applied first spring member of elastic force with the side of pushing,

Be located between described push rod and the described rotor, described push rod applied second spring member of elastic force towards the described direction of pushing,

Be located between described action button and the described rotor, based on first cam mechanism that described rotor is pivoted to the pressing operation of described action button when moving vertically,

Between the interior perimembranous of being located at described resettlement section and the peripheral part of described rotor, based on the pressing operation of described action button is made described rotor described push the latched position of direction and with pushing direction opposite mutual second cam mechanism that keeps in the position that unlocks, and

By with described rotor at axially movable described push rod and the switch element of switching state.

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