CN101271796A

CN101271796A - Rocking switch unit

Info

Publication number: CN101271796A
Application number: CNA2008100840210A
Authority: CN
Inventors: 和田泰宗; 枡田幸一
Original assignee: Denso Corp
Current assignee: Denso Corp
Priority date: 2007-03-20
Filing date: 2008-03-18
Publication date: 2008-09-24
Anticipated expiration: 2028-03-18
Also published as: JP2008262899A; CN101271796B; JP4314593B2

Abstract

A rocking switch unit includes a base section, a switch knob, a pair of tactile switches, a middle rocking section, and a pair of switch-pressing portions. The switch knob and the middle rocking section are coupled with the base section to be rockable. The switch-pressing portions are located between a pair of rocking end portions of the switch knob and the tactile switches, for transmitting a pressing force from one of the rocking end portions to a corresponding tactile switch when the one of the rocking end portions is pressed in a pressing direction. The switch-pressing portions are coupled with two end portions of the middle rocking section in such a manner that a coupling angle between a rocking surface of the middle rocking section and rocking surfaces of the switch-pressing portions is variable in a pressing direction.

Description

Rocking switch unit

Technical field

The present invention relates to a kind of rocking switch unit.

Background technology

Traditionally, for example the vehicle of automobile has the operating means that is used to operate the electronic equipment that comprises air-conditioning system, sound system and navigation system.This operating means comprises the operation part by passenger's operation.Described operation part has the seesaw switch that is configured to rocking switch unit.In seesaw switch, the rocker switch button is attached in the mode that can shake and shakes fulcrum.When pressing force is applied to one of them longitudinal end part of rocker switch button, be arranged on soft-touch control on the rear side of a described end sections along pushing the direction pressurized, be arranged on another soft-touch control on the rear side of the other end part and then push direction and obtain discharging.Therefore, the turn-on condition of two soft-touch controls obtains switching.So that the mode of pushing direction of rocker switch button is arranged to be approximately perpendicular in the switch surface soft-touch control is set.

Require seesaw switch when pushing the rocker switch button, the switch surface of soft-touch control is pushed very reliably and the user can experience operation feeling from the pressurized soft-touch control (feel click) by the user.Therefore, the switch surface of soft-touch control need be when longitudinal end part pressurized of rocker switch button vertical pressurized.In seesaw switch, the rocker switch button rotates around shaking fulcrum.So when the distance between the switch surface of shaking fulcrum and soft-touch control increased, the rocker switch button was difficult to vertical pressing switch surface.So, preferably, shake the switch surface that fulcrum is arranged to close soft-touch control.

From the viewpoint of the operability of rocker switch button, need the guidance panel that direction is approximately perpendicular to operating means of pushing of rocker switch button.Yet, when the operating surface that is arranged on rocker switch button place and shake distance between the fulcrum when elongated, so because release knob rotates the operating surface pressurized that can tilt around shaking fulcrum.Therefore, the operability of release knob descends.So, preferably, shake the operating surface that fulcrum is arranged to close release knob.

Yet for example because design is being attached to guidance panel so that operation is installed in the seesaw switch of the electronic equipment in the vehicle, the distance between rocker switch button and the soft-touch control is longer.In this case, if the fulcrum that shakes of rocker switch button is arranged to operating surface near the rocker switch button, then shaking fulcrum will be away from the switch surface of soft-touch control.On the contrary, if shake the switch surface that fulcrum is arranged to close soft-touch control, then shaking fulcrum will be away from the operating surface of rocker switch button.So, be difficult to the compatibility of guaranteeing to push soft-touch control very reliably and improving the operability of rocker switch button.

As shown in figure 22, in the rocking switch unit according to first example of correlation technique, release knob 2 comprises button body 20 and switch press part 210a and 210b, and switch press part 210a and 210b are arranged on the longitudinal end part of button body 20.Switch press part 210a and 210b are outstanding towards the switch surface of soft-touch control 5a and 5b.In this case, shake the operating surface that fulcrum 420 is positioned at close release knob 2.So, guaranteed the operability of release knob 2.

Yet the distance L 1 of shaking between the end of fulcrum 420 and switch press part 210a and 210b is longer.So when push switch button 2, rotate around the fulcrum 420 that shakes that is arranged on base portion 400A place the end of switch press part 210a and 210b, and therefore, switch press part 210a and 210b are difficult to the switch surface of vertical pressing soft-touch control 5a and 5b.So even when user's push switch button 2, soft-

touch control

5a and 5b also can't vertical pressurizeds, and the user is difficult to experience the sensation of operation.

As shown in figure 23, in the rocking switch unit according to second example of correlation technique,

mutual conversion pin

600a and 600b are arranged between release knob 2 and soft-touch control 5a and the 5b.When push switch button 2 shake among end sections 21a and the 21b one time, shake the rearward end of

end sections

21a and 21b and push corresponding

mutual conversion pin

600a and 600b downwards, thus, the switch surface of soft-

touch control

5a and 5b is pushed.What base portion 400B had a release knob 2 shakes fulcrum and

leader

410a and 410b, and

leader

410a and 410b are used for along pushing moving of mutual conversion pin 600a of direction guiding and 600b.So

mutual conversion pin

600a and 600b can vertical pressing soft-touch control 5a and the switch surface of 5b.

In this case, as shown in figure 23, one of them of the lower surface that shakes

end sections

21a and 21b that is positioned at the off-position left the upper surface of corresponding mutual conversion pin 600a and 600b.For example, when making that when being positioned at the shaking end sections 21b pressurized of off-position mutual conversion pin 600b pushes soft-touch control 5b, the bottom of shaking end sections 21b is clashed into the upper surface of mutual conversion pin 600b and is produced undesirable impact noise.In addition, this seesaw switch need be corresponding to soft-

touch control

5a and 5b two mutual conversion pin 600a and 600b.So the quantity of parts increases and packaging efficiency descends.

JP-10-125179A discloses rocking switch unit as shown in figure 24.This rocking switch unit comprises release knob 2, soft-

touch control

5a and 5b, mutual conversion support 300C and base portion 400C.Mutual conversion support 300C partly locates to have switch

press part

310a and 310b at its longitudinal end.Base portion 400C has along first of the coaxial setting of direction of pushing of release knob 2 and shakes fulcrum 420 and second and shake fulcrum 430.Release knob 2 is attached to first and shakes fulcrum 420, and mutual conversion support 300C is attached to and is arranged on second between release knob 2 and soft-touch control 5a and the 5b and shakes fulcrum 430.Release knob 2 has button body 20 and

shakes end sections

21a and 21b, shakes the longitudinal end that

end sections

21a and 21b be arranged on button body 20 and partly locates.Continue touch interaction conversion support 300C because

shake end sections

21a and 21b, so can not produce impact noise.In addition, though release knob 2 away from soft-

touch control

5a and 5b, soft-

touch control

5a and 5b also can be pushed.

In this rocking switch unit, release knob 2 shakes fulcrum 420 around first and rotates, and mutual conversion support 300C shakes fulcrum 430 rotations around second.So, when first distance L 2 of shaking between the lower surface of fulcrum 420 and switch

press part

310a and 310b, and second shake distance L 3 between the lower surface of fulcrum 430 and switch

press part

310a and 310b when increasing, and switch

press part

310a and 310b are difficult to the switch surface of vertical pressing soft-

touch control

5a and 5b.

JP-2006-40562A discloses a kind of seesaw switch, and it comprises release knob, mutual conversion pin and is arranged on the longitudinal end part of release knob and the spring member between the mutual conversion pin.Can not produce impact noise in this case.Yet the quantity of parts increases and packaging efficiency down will.

Summary of the invention

Because foregoing problems, the purpose of this invention is to provide a kind of rocking switch unit, wherein, though release knob away from the situation on the switch surface of soft-touch control under soft-touch control also can be pushed very reliably.

According to an aspect of the present invention, rocking switch unit comprises that base portion, release knob, a pair of soft-touch control, centre shake portion and pair of switches pressing part.Base portion has first and shakes fulcrum and second and shake fulcrum.Release knob shakes fulcrum and base portion can carrying out the two-way mode coupling connection that shakes by first, and release knob has and is positioned at a pair of end sections that shakes that shakes the both sides of fulcrum with respect to first.Soft-touch control is arranged to corresponding to a pair of end sections that shakes.The centre portion of shaking shakes fulcrum by second and joins carrying out the two-way mode coupling that shakes with release knob with base portion, and the middle portion of shaking has the jack back portion of extending towards both sides with respect to second fulcrum, and described jack back portion has and pushes the bar portion that direction intersects and shake the surface.Switch press part is shaken between end sections and a pair of soft-touch control a pair of, so that an edge in shaking end sections is delivered to corresponding soft-touch control with pressing force this end sections from shake end sections when pushing the direction pressurized.Switch press part has respectively with pushing the end that direction intersects shakes the surface, and the switch press part is shaken surface and end along two end sections pushing direction and jack back portion with bar portion and shaken the mode coupling that coupling between the surface joins variable-angle and join.

In this rocking switch unit, when in shaking end sections one was subjected to pushing, the switch press part can be rotated with respect to the centre portion of shaking.So the switch press part can be linear mobile towards soft-touch control.Therefore, the switch surface of soft-touch control is subjected to vertical pressing, and therefore can guarantee the operability of operation sense and release knob.In addition, in this rocking switch unit, even when switch press part along pushing direction when longer, the switch press part also can be delivered to pressing force the switch surface of soft-touch control by linear mode.When using when shaking portion, compare with the situation of using mutual conversion pin and reduced number of components with the attached centre of pair of switches pressing part.So improved packaging efficiency.

Description of drawings

From the specific descriptions of following preferred implementation and simultaneously with reference to accompanying drawing, other purposes of the present invention and advantage will become more obvious.In the accompanying drawings:

Fig. 1 is the front view of example that the front panel of vehicle is shown;

Fig. 2 is the front view that the rocking switch unit of first embodiment of the invention is shown;

Fig. 3 is the exploded view that the rocking switch unit among Fig. 2 is shown;

Fig. 4 is the cross-sectional view that the rocking switch unit among Fig. 2 is shown;

Fig. 5 A is the upward view of release knob, and Fig. 5 B is a upward view of pushing the junction surface, and Fig. 5 C is the plane graph of base portion;

Fig. 6 is the plane graph that the rocking switch unit among Fig. 2 is shown;

Fig. 7 A and 7B are the schematic diagrames that the rocking switch unit among Fig. 2 is shown separately;

Fig. 8 illustrates the front view of pushing the junction surface that is in depressed position;

Fig. 9 is the front view of pushing the junction surface that illustrates second embodiment of the invention;

Figure 10 is the front view of pushing the junction surface that illustrates according to the 3rd execution mode of the present invention;

Figure 11 is the schematic diagram that illustrates according to the rocking switch unit of the 4th execution mode of the present invention;

Figure 12 is the schematic diagram that illustrates according to the rocking switch unit of the 5th execution mode of the present invention;

Figure 13 is the schematic diagram that illustrates according to the rocking switch unit of the 6th execution mode of the present invention;

Figure 14 is the front view of pushing the junction surface that illustrates according to first remodeling of first execution mode;

Figure 15 is the front view of pushing the junction surface that illustrates according to second remodeling of first execution mode;

Figure 16 is the front view of pushing the junction surface that illustrates according to the 3rd remodeling of first execution mode;

Figure 17 is the front view of pushing the junction surface that illustrates according to the 4th remodeling of first execution mode;

Figure 18 A and 18B are the cross-sectional views of pushing the junction surface that illustrates separately according to the 7th execution mode of the present invention;

Figure 19 A and 19B are the cross-sectional views of pushing the junction surface that illustrates separately according to the 8th execution mode of the present invention;

Figure 20 A and 20B are the front views of pushing the junction surface that illustrates separately according to the 9th execution mode of the present invention;

Figure 21 A and 21B are the cross-sectional views of pushing the junction surface that illustrates separately according to the tenth execution mode of the present invention;

Figure 22 is the schematic diagram that illustrates according to the rocking switch unit of first example of correlation technique;

Figure 23 is the schematic diagram that illustrates according to the rocking switch unit of second example of correlation technique; And

Figure 24 is the schematic diagram that illustrates according to the rocking switch unit of prior art.

Embodiment

(first execution mode)

The rocking switch unit 10 of first embodiment of the invention can be as first to the 5th rocking switch unit 10a-10e that is arranged on front panel shown in Figure 11 place.The first rocking switch unit 10a is arranged for and switches the air outlet of regulating air.The second rocking switch unit 10b is arranged for and changes the flow of regulating air.The the 3rd to the 5th switch element 10c-10e is arranged for the music of selecting acoustics.Other switch element that front panel 1 also comprises display unit and is used to control the vehicle electronic device that comprises aircondition and acoustics.Vehicle electronic device can comprise that the switch element of first to the 5th rocking switch unit 10a-10e controls by operation.The representative configuration of the rocking switch unit 10 that comprises first to the 5th rocking switch unit 10a-10e is described referring now to Fig. 1-8.

Rocking switch unit 10 comprises base portion 4, release knob 2, a pair of soft-

touch control

5a and 5b and pushes junction surface 3.Release knob 2 shakes fulcrum 42 by first and is attached to base portion 4 can carry out two-way mode of shaking.Soft-

touch control

5a and 5b are the pushing-type switch elements, are arranged to respectively shake

end sections

21a and 21b corresponding to release knob 2.Thereby pushing junction surface 3 shakes fulcrum 43 by second and is attached to base portion 4 and can carries out two-way shaking with release knob 2.When among end sections 21a and the 21b one of shaking of release knob 2 is forced into when pushing junction surface 3, push junction surface 3 pressing force is delivered to soft-touch control 5a and 5b.That is, among end sections 21a and the 21b one of shaking when two longitudinal end places that are arranged on release knob 2 is forced into respectively when pushing junction surface 3, pushes the switch press part 31a at

junction surface

3 and 31b towards soft-

touch control

5a and 5b displacement.

Release knob 2 comprises button body 20,

shakes end sections

21a and 21b and attachment apertures 22.Release knob 2 is for example made and is for example formed by injection molding forming method by acrylonitrile-butadiene-styrene (ABS) copolymer resins (ABS resin).Now, for convenience's sake, with the upside and the downside of rocking switch unit 10 are defined as front side and rear side respectively shown in figure 2.Button body 20 has the shape of hollow flange.At the front surface place of button body 20, along applying pressing force by the direction shown in arrow Fa and the Fb.The rear side of button body is the logical side of opening.Shaking

end sections

21a and 21b is formed on the rearward end part of button body 20 and has longitudinally predetermined space between them.Each

shakes end sections

21a and 21b is outstanding towards rear side (promptly pushing direction).Attachment apertures 22 is arranged on the mid portion longitudinally of button body 20.As shown in Figure 3, first cross section that shakes fulcrum 42 has circular shape and edge and the vertical of release knob 2 and outstanding with the direction of pushing the direction approximate vertical.First shakes fulcrum 42 is inserted in the attachment apertures 22 in the mode that can rotate.So release knob 2 can rotate around shaking fulcrum 42.

Shown in Fig. 7 A and 7B, soft-

touch control

5a and 5b are arranged to be positioned at the rear side that shakes

end sections

21a and 21b of release knob 2 respectively.The predetermined space that soft-

touch control

5a and 5b are arranged in the base portion 4 and between them to have along predetermined direction--being the left and right directions among Fig. 2--.When switching

shake end sections

21a and 21b push with release condition the time, then the conducting electricity condition of soft-

touch control

5a and 5b is switched.Each soft-

touch control

5a and 5b have the operation sense producing component, and the operation sense producing component produces operation feeling (feel click) when the leading section part 51a of soft-touch control 5a that has the switch surface separately and 5b and 51b are subjected to pushing respectively.

As shown in Figure 3, push junction surface 3 and comprise middle shake portion 30 and switch press part 31a and 31b.Pushing junction surface 3 is for example made by ABS resin.Can't see and not contact the outside of rocking switch unit 10 from the outside of rocker switch button 10 because push junction surface 3, so push the influence that junction surface 3 is not designed.The material of pushing junction surface 3 is selected from has elastomeric material.The centre is shaken portion 30 and is had the fulcrum coupling connection part 33 that is positioned at the office, intermediate portion.Fulcrum coupling connection part 33 and second is shaken the mode coupling connection of fulcrum 43 shaking.The centre is shaken portion 30 and is also comprised 34a of jack back portion and the 34b that extends towards both sides with respect to fulcrum coupling connection part 33.Portion 30 is shaken by portion 30 in the centre place, two ends coupling connection is shaken in

switch press part

31a and 31b and centre.Switch press part 31a is outstanding so that contact soft-

touch control

5a and 5b towards soft-

touch control

5a and 5b respectively with 31b.In addition, switch

press part

31a and 31b have the pressing force that is positioned at release knob 2 sides respectively and accept part 311a and 311b.Pressing force is accepted

part

311a and 311b and is continued to contact and shake

end sections

21a and 21b so that accept to be applied to the pressing force of release knob 2.As shown in Figure 8, the centre is shaken portion 30 and is had and be positioned at its front side surface (surface is shaken by bar portion) 34c is shaken in the centre of--being release knob 2 sides--.In addition, each

switch press part

31a and 31b have the end that is positioned at its front side and shake surperficial 31c.The centre is shaken surperficial 34c and end and is shaken the direction of pushing of surperficial 31c and release knob 2 and intersect.When push that junction surface 3 is shaken and switch

press part

31a and 31b in one during near pressing position, the centre is shaken surperficial 34c and end and is shaken coupling connection angle θ between the surperficial 31c ₁Increase.

Particularly, among switch press part 31a that is combined as a whole when two end portion offices shaking portion 30 in the centre and the 31b one when corresponding soft-

touch control

5a or 5b are subjected to pushing, 34a of jack back portion and 34b strain.Therefore, the coupling connection angle θ between the surperficial 31c is shaken in the end of shaking surperficial 34c and switch

press part

31a and 31b, the centre of shaking portion 30, centre ₁Change.34a of jack back portion and 34b for example are set to be the single spring beam of plate shape.When the 34a of jack back portion and 34b were plate shape, the beam strength that the integrative-structure of portion 30 and switch

press part

31a and 31b becomes simple and can guarantee to be scheduled to was shaken in the centre.When single spring beam has the first size of the direction of shaking surface (being that the surface is shaken by bar portion) in the middle of be roughly parallel to and when pushing second size of direction, first size is greater than second size.In this case, pushing junction surface 3 is constructed with the centre integrally formed by the injection mo(u)lding of resin and shakes portion 30 and switch press part 31a and 31b.Alternately, 34a of jack back portion and 34b can be made of metal, and push junction surface 3 can be by molded formation of folder thing of metal.

For example, base portion 4 comprises that fulcrum forms part 44 and base part 40, and forms by the injection mo(u)lding of ABS resin.First shakes fulcrum 42 and second shakes fulcrum 43 and is formed on fulcrum and forms in the part 44.Base part 40 is along release knob 2 and each 34a of jack back portion of portion 30 is shaken in the centre and the longitudinal extension of 34b forms part 44 from fulcrum.Shown in Fig. 5 C, first cross section that shakes fulcrum 42 be the circular shape and along be approximately perpendicular to release knob 2 vertically and to push the direction of direction outstanding.First shakes fulcrum 42 is inserted in the attachment apertures 22 of release knob 2.Second shakes fulcrum 43 is arranged on that fulcrum forms part 44 and to shake fulcrum 42 roughly coaxial along pushing direction and first.In addition, second shake fulcrum 43 have cylindrical curved surface and have be approximately perpendicular to release knob 2 vertically and the axis of pushing direction.The fulcrum coupling connection part 33 that portion 30 is shaken in the centre has the recess part 32 of the bending that is positioned at its rear side.Crooked recess part 32 is arranged on second and shakes on the cylindrical curved surface of fulcrum 43.

Base part 40 has switch press leader 41a and the 41b that has guide hole 45a and 45b separately.

Switch press leader

41a and 41b are arranged so that

switch press part

31a and 31b can be linear mobile between off-position (the center figure among Fig. 3) and pressing position (Fig. 8), wherein in the off-position, release knob 2 is in the neutral position, and at pressing position, switch

press part

31a and 31b push soft-

touch control

5a and 5b respectively.In guide hole 45a and 45b, corresponding to the soft-touch control 5a of

switch press part

31a and 31b and 5b so that the switch surface of leading

section part

51a and 51b and switch

press part

31a and 31b be provided with along pushing the mode that direction faces.

Switch

press leader

41a and 41b are arranged so that

switch press part

31a and 31b can be linear mobile between off-position and pressing position.As shown in Figure 8, when the centre was shaken among the 34a of jack back portion of

portion

30 and 34b strain and switch press part 31a and the 31b one near pressing position, the centre was shaken surperficial 34c and end and is shaken coupling connection angle θ between the surperficial 31c ₁Increase.Soft-

touch control

5a and 5b make release knob 2 by

switch press part

31a and 31b, and (the center figure Fig. 3) switches to pressing position (Fig. 8) from the off-position.

Fulcrum form part 44 along the direction roughly similar from base part 40 with pushing direction release knob 2 and the middle surface of shaking the sidepiece that portion 30 located is outstanding and outstanding to the relative sidepiece of the sidepiece of being located with soft-touch control 5a and 5b.That is it is side-prominent forward from the surface of base part 40 that, fulcrum forms part 44.First shakes the distance of first between fulcrum 42 and the base part 40 is longer than second second distance that shakes between fulcrum 43 and the base part 40.In this case, the centre is shaken portion 30 and is arranged between release knob 2 and soft-touch control 5a and the 5b.So portion 30 is shaken in the centre can provide stroke between release knob 2 and soft-

touch control

5a and 5b.

In addition, first shake fulcrum 42 and second and shake fulcrum 43 and be arranged on fulcrum in the roughly coaxial mode of direction of pushing and form part 44 along release knob 2.Fulcrum formation part 44 has the reinforcing section 45 that vertically extends towards both sides along release knob 2.Therefore, whole fulcrum formation part 44 is strengthened.Shown in Fig. 5 A, the rear side of button body 20 is the logical side of opening, and makes the fulcrum that comprises reinforcing section 45 form part 44 and is contained in the release knob 2 from rear side.Push junction surface 3 pushing the direction extension and forming part 44 along release knob 2 around fulcrum.

As mentioned above, in rocking switch unit 10, release knob 2 shakes fulcrum 42 by first and is attached to base portion 4 can carry out two-way mode of shaking.What a pair of soft-

touch control

5a and 5b were arranged to correspond respectively to release knob 2 shakes end sections 21a and 21b.

Switch press part

31a and 31b are separately positioned on and shake between

end sections

21a and 21b and soft-touch control 5a and the 5b.When in shaking

end sections

21a and 21b one was subjected to pushing, pressing force was delivered to soft-

touch control

5a and 5b by switch press part 31a and 31b.

Switch press part

31a and 31b are so that the coupling connection angle θ between the surperficial 31c is shaken in the end that surperficial 34c and switch

press part

31a and 31b are shaken in the middle centre of shaking portion 30 ₁The mode that can change is attached to the end sections of 34a of jack back portion and 34b.The centre is shaken portion 30 and is shaken fulcrum 43 by second and be attached to base portion 4 carrying out two-way mode of shaking with release knob 2.

In this case, the centre is shaken the radial direction of shaking that surperficial 34c shakes the pivot center (shaking axis) of portion 30 in the middle of being positioned to be approximately perpendicular to and shake portion 30 along the centre and is extended.Coupling connection angle θ ₁Shake the crossing angle that surperficial 31c is shaken in surperficial 34c and end in the middle of being.

34a of jack back portion and 34b that portion 30 is shaken in the centre are used as the angle changing unit, shake the coupling connection angle θ between portion 30 and switch press part 31a and the 31b in the middle of this angle changing unit makes it possible to change ₁Particularly, the angle changing unit is the part of the strain of 34a of jack back portion and 34b.In the present embodiment, as Fig. 3 and shown in Figure 8, the outer end part 60a of 34a of jack back portion and 34b and 60b are as the angle changing unit.

When angle changing unit strain, coupling connection angle θ ₁And the crossing angle between the outstanding axis 31y of the middle extension axis 34x that shakes portion 30 and switch

press part

31a and 31b changes.So the switch press part 31a and the 31b that shake portion's 30 couplings connection with the centre can move towards soft-

touch control

5a and 5b respectively along pushing direction Fa and Fb.Therefore, the pressing force that is applied to release knob 2 can linear be delivered to the surface of pushing of soft-touch control 5a and 5b.Extending axis 34x is to connect the middle axis that shakes two ends of portion 30 along shaking radial direction.

Switch press part

31a and 31b have running part 312a and the 312b that is positioned at soft-

touch control

5a and 5b side respectively.Running

part

312a and 312b are outstanding towards soft-

touch control

5a and 5b along outstanding axis 31y.Shown in Fig. 7 A and 7B, the end surface of

switch press part

31a and 31b faces in the mode of almost parallel each other with the surface of pushing of soft-

touch control

5a and 5b respectively.

Pushing in the junction surface 3 shown in Fig. 8,, in the middle of being positioned at, the angle changing unit shakes the outer end part 60a and the 60b place of portion 300 as example.Alternately, the angle changing unit can be positioned at the other parts place.For example, the angle changing unit can be positioned at fulcrum coupling connection part 33 sides with respect to outer end part 60a and 60b.Alternately, as pushing shown in the 3F of junction surface among Figure 14, whole jack back 34a of portion and 34b can be used as the angle changing unit.Alternately, each 34a of jack back portion and 34b can have compare with other parts can easier generation strain part.For example, as pushing shown in the 3G of junction surface among Figure 15,34a of jack back portion and 34b can have the recess part respectively.Recess part 34a1 and 34b1 are thinner than other parts.So recess part 34a1 compares with other parts with 34b1 can easier generation strain.Alternately, compare with other parts, the part that strain can take place can be made by high modulus material.

Alternately, as pushing shown in the 3H of junction surface among Figure 16, the 34a of jack back portion can have curved surface 31a1 and 32a1 respectively in the connection of the coupling between 34a of jack back portion and switch press part 31a part and the coupling connection part place between 34a of jack back portion and fulcrum coupling connection part 33, and the 34b of jack back portion can have curved surface 31b1 and 32b1 respectively in the connection of the coupling between 34b of jack back portion and switch press part 31b part and the coupling connection part place between 34b of jack back portion and fulcrum coupling connection part 33.Therefore, the outer surface of coupling connection part forms smooth surface.Alternately, as pushing shown in the 3I of junction surface among Figure 17, the 34a of jack back portion can have conical surface 31a2 and 32a2 respectively in the connection of the coupling between 34a of jack back portion and switch press part 31a part and the coupling connection part place between 34a of jack back portion and fulcrum coupling connection part 33, and the 34b of jack back portion can have conical surface 31a2 and 32a2 respectively in the connection of the coupling between 34b of jack back portion and switch press part 31b part and the coupling connection part place between 34b of jack back portion and fulcrum coupling connection part 33.But above-mentioned structure combination with one another.

In this rocker switch 10, when in shaking

end sections

21a and 21b one was subjected to pushing, switch

press part

31a and 31b can shake portion 30 with respect to the centre and rotate.So

switch press part

31a and 31b can be linear mobile towards soft-touch control 5a and 5b.Therefore, the switch Surface Vertical pressurized of soft-

touch control

5a and 5b, therefore and can guarantee the operability of operation sense and release knob.In addition, attachedly there is the centre of pair of switches pressing part 31a and 31v to shake portion 30, compares the quantity that can reduce parts with the situation of using mutual conversion pin by using.So improved packaging efficiency.

In addition, because be provided with

switch press leader

41a and 41b, can make the switch surface of running

part

312a and 312b vertical pressing soft-touch control 5a and the 5b of

switch press part

31a and 31b beyond the question, and the user can experience the sensation of operation.

Base portion 4 comprises base part 40.Base part 40 supports first are shaken fulcrum 42 and second and are shaken fulcrum 43 settings fulcrum formation part 44 thereon.In addition, base part 40 can easily provide guide hole 45a and the 45b as through hole.

(second execution mode)

In the rocking switch unit 10 according to first execution mode, the 34a of jack back portion and the 34b of portion 30 shaken in the centre can strain.Therefore, thereby switch press part 31a and 31b can move respectively to divide near corresponding soft-touch control 5a and 5b or with corresponding soft-touch control 5a and 5b and open at the guide hole 45a of switch press leader 42a and 42b and 45b neutral line, make switch press part 31a and 31b keep the outstanding state of direction of pushing along release knob 2 simultaneously.As shown in Figure 9, the junction surface 3A that pushes according to second embodiment of the invention has middle the shake 30A of portion and switch press part 310a and 310b.It is roughly similar that portion 30 is shaken in centre during the centre is shaken the 30A of portion and pushed junction surface 3, but switch press part 310a and 310b are longer than switch press part 31a and the 31b that pushes in the junction surface 3.Similarly in this case, because the middle 34a of jack back portion of the 30A of portion and the strain of 34b of shaking, switch press part 310a and 310b can be respectively divide near corresponding soft-touch control 5a and 5b or with corresponding soft-touch control 5a and 5b with linear mode and open, and make switch press part 310a and 310b keep the outstanding state of direction of pushing along release knob 2 simultaneously.

This structure can be suitable for reason owing to design and make the elongated situation of distance between release knob 2 and soft-touch control 5a and the 5b.When

switch press part

31a and 31b along pushing direction when elongated, need switch press leader 42a and 42b to have long guide hole 45a and 45b respectively.

(the 3rd execution mode)

As shown in figure 10, the junction surface 3B that pushes according to the 3rd execution mode of the present invention has the middle 30B of portion that shakes.The centre is shaken the 30B of portion and is had 34a of jack back portion and 34b, and each 34a of jack back portion and 34b are made of a plurality of bar portion element of for example three bar portion elements.Bar portion element extends along being roughly parallel to middle direction of shaking surperficial 34c, and is separated from each other along pushing direction.When each bar portion element has along the first size of bearing of trend and when pushing second size of direction, first size is greater than the summation of second size of all bar portion elements.When by a plurality of bar component construction jack back 34a of portion of portion and 34b, the intensity that the 30B of portion is shaken in the centre increases.

(the 4th execution mode)

In first to the 3rd execution mode,

switch press part

31a and 31b and centre are shaken portion 30 and are combined as a whole.Can strain because portion 30 is shaken in the centre, so switch

press part

31a and 31b can move towards soft-

touch control

5a and 5b along pushing direction Fa and Fb, shake the coupling that surface and end shakes between the surface in the middle of changing simultaneously and join angle θ ₁And the crossing angle between extension axis 34x and the outstanding axis 31y.That is shake portion 30 places in the middle of, the angle changing unit is positioned at.Alternately, shake under the independent situation about forming of portion 30 and

switch press part

31a and 31b in the centre, the angle changing unit can be shaken the coupling connection part place between portion 30 and switch press part 31a and the 31b in the centre.

As shown in figure 11, the rocking switch unit 10C according to the 4th execution mode comprises the first middle 30C of portion, second middle portion 302 and switch press part 31a and the 31b of shaking of shaking.First centre shakes the 30C of portion and the second middle portion 302 of shaking is separated from each other to constitute the parallel rod structure.Particularly, the first middle 30C of portion that shakes comprises fulcrum coupling connection part 331 and 341a of jack back portion and 341b.Shake portion 302 in the middle of second and comprise fulcrum coupling connection part 332 and 342a of jack back portion and 342b.The 341a of jack back portion is connected with switch press part 31a with 434a by connecting rod fulcrum portion 433a respectively with 342a.In addition, the 341b of jack back portion is connected with switch press part 31b with 434b by connecting rod fulcrum portion 433b respectively with 342b.Switch press part 31a has retaining part 435a and 436a, so that keep connecting rod fulcrum portion 433a and 434a respectively in the mode that can rotate.Switch press part 31b has retaining part 435b and 436b, so that keep connecting rod fulcrum portion 433b and 434b respectively in the mode that can rotate.Connecting rod fulcrum portion 433a and retaining part 435a constitute link rod part 437a, connecting rod fulcrum portion 434a and retaining part 436a constitute link rod part 438a, connecting rod fulcrum portion 433b and retaining part 435b constitute link rod part 437b, and connecting rod fulcrum portion 434b and retaining part 436b formation link rod part 438b.Link rod part 437a, 438a, 437b and 438b play the effect of angle changing unit.

In this case, base portion 4C need not have switch press leader 41a and 41b.Owing to adopt the parallel rod structure, can linearly move respectively to divide and open thereby push the switch press part 31a at

junction surface

3 and 31b, make

switch press part

31a and 31b keep the outstanding state of direction of pushing simultaneously along release knob 2 near corresponding soft-

touch control

5a and 5b or with corresponding soft-touch control 5a and 5b.The fulcrum of base portion 4C form part 44 have be used for that first of release knob 2 shakes fulcrum 42 and be used to push junction surface 3C shake fulcrum 431 and 432.First shakes fulcrum 42 and shakes

fulcrum

431 and 432 push the coaxial setting of direction along release knob 2.Shaking

fulcrum

431 and 432 inserts respectively in the fulcrum

coupling connection part

331 and 332 in the mode that can rotate.

(the 5th execution mode)

With reference to the rocking switch unit 10D of Figure 12 description according to the 5th execution mode of the present invention.Rocking switch unit 10D comprises release knob 2, pushes junction surface 3D and base portion 4D.Push junction surface 3D and comprise that single centre shakes portion 30, the centre is shaken portion 30 and is had fulcrum coupling connection part 330 and 340a of jack back portion and 340b.340a of jack back portion and 340b connect with switch press part 31a and 31b by connecting rod fulcrum portion 430a and 430b.Switch press part 31a has retaining part 440a so that keep connecting rod fulcrum portion 430a in the mode that can rotate, and switch press part 31b has retaining part 440b so that keep connecting rod fulcrum portion 430b in the mode that can rotate.Connecting rod fulcrum portion 430a and retaining part 440a constitute link rod part 450a, and connecting rod fulcrum portion 430b and retaining part 440b formation link rod part 450b.The fulcrum of base portion 4D forms part 44 to have along first of the coaxial setting of direction of pushing of release knob 2 and shakes fulcrum 42 and second and shake fulcrum 43.Second shakes fulcrum 43 inserts fulcrum coupling connection part 330 in the mode that can rotate.Only have under the situation of shaking the 30D of portion in single centre pushing junction surface 3D, base portion 4D need have switch press leader 41a and 41b.In this case, link rod part 450a and 450b play the effect of angle changing unit.

(the 6th execution mode)

With reference to the rocking switch unit 10E of Figure 13 description according to the 6th execution mode of the present invention.Rocking switch unit 10E comprises release knob 2, pushes junction surface 3E and base portion 4E.The fulcrum of base portion 4E forms part 44 to have and singlely shakes fulcrum 421 so that not only insert in the attachment apertures 22 but also insert in the fulcrum coupling connection part 33.In this case, the outer end part 60a of 34a of jack back portion and 34b and 60b play and effect according to the similar angle changing unit of the rocking switch unit 10 of first execution mode.

(the 7th execution mode)

In rocking switch unit, use to replace the junction surface of pushing by crimp head 3J shown in Figure 18 A and the 18B according to first execution mode according to the 7th execution mode of the present invention.

Switch press part

31a and 31b shake the 34a of jack back portion of portion 30 and the end sections of 34b in the middle of being attached in the mode that can rotate by 53a of ball joint portion and 53b.The 53a of ball joint portion comprises ball handle 50a and ball retaining part 52a, and the 53b of ball joint portion comprises ball handle 50b and ball retaining part 52b.Each ball handle 50a and 50b have roughly spheroid form in its end portion office.

Ball retaining part

52a and 52b are arranged in the mode that can rotate and are shaking maintenance ball handle 50a and 50b on the surface at least respectively.For example, from

ball retaining part

52a and 52b that the outstanding ball handle 50a of the side surface of

switch press part

31a and 31b and 50b are coupled to the end portion office that is arranged on 34a of jack back portion and 34b.Alternately, portion 30 is shaken in the centre can have ball handle 50a and 50b, and switch

press part

31a and 31b then have

ball retaining part

52a and 52b respectively.

(the 8th execution mode)

In first to the 7th execution mode, be used to accept accept

part

311a and 311b are arranged on

switch press part

31a and 31b as example the part place that is positioned at release knob 2 sides from the pressing force of the pressing force that shakes

end sections

21a and 21b of release knob 2.Alternately, pressing force is accepted

part

311a and 311b and is shaken portion 30 in the middle of can being arranged on.

In this case, the centre end sections that shakes portion 30 is provided with pressing force and accepts part 311a and 311b.Thereby the centre is shaken the end sections contact of portion 30 and is shaken

end sections

21a and 21b and directly push and accept pressing force by shaking

end sections

21a and 21b.

Shown in Figure 19 A and 19B, according to the pushing among the 3K of junction surface of the 8th execution mode of the present invention, pressing force is accepted part 311a and 311b are arranged on 34a of jack back portion and 34b in release knob 2 sides end portion office.Switch press part 31a and 31b are by being attached to the end portion office of 34a of jack back portion and 34b in soft-touch control 5a and 5b side as the 56a of ball joint portion of angle changing unit and 56b.The 56a of ball joint portion comprises ball handle 55a and ball retaining part 54a, and the 56b of ball joint portion comprises ball handle 55b and ball retaining part 54b.Each ball handle 55a and 55b have roughly spheroid form in its end portion office.The mode that ball retaining part 54a and 54b are arranged for rotating keeps ball handle 55a and 55b respectively.Pushing among the 3K of junction surface shown in Figure 19 A and the 19B, ball handle 55a and 55b are separately positioned on the end portion office of switch press part 31a and 31b, and ball retaining part 54a and 54b shake the end portion office of portion 30 in the middle of being arranged on.Alternately, ball retaining part 54a and 54b can be separately positioned on the end portion office of switch press part 31a and 31b, shake portion 30 in the middle of ball handle 55a then can be arranged on.

(the 9th execution mode)

Pushing among the 3L of junction surface shown in Figure 20 A and the 20B, to according to the 8th execution mode to push junction surface 3K similar, pressing force accepts part 311a and 311b shakes the end portion office of portion 30 in the middle of release knob 2 sides are arranged on.In addition, switch press part 31a and 31b are attached to the middle end sections that shakes portion 30 by the angle changing unit at soft-touch control 5a and 5b side.Shake the end sections of portion 30 in the centre and be arranged between the running part 312a at switch press part 31a and 31b place and the 312b and be provided with flexible engaging portion, thereby join angle θ by shaking the coupling that surface and end shakes between the surface in the middle of changing in soft-touch control 5a and 5b side ₁And the crossing angle between the outstanding axis 31y of the middle extension axis 34x that shakes portion 30 and switch press part 31a and 31b and make switch press part 31a and 31b to move towards soft-touch control 5a and 5b.For example, portion 30 and switch press part 31a and 31b are shaken in integrally formed centre by the injection mo(u)lding of resin, and the middle end sections that shakes portion 30 is given prominence to towards soft-touch control 5a and 5b.Shake between the end sections of portion 30 and running part 312a and the 312b in the centre and to be provided with recess part 37a and 37b.Recess part 37a and 37b are narrower than the outer end part of mid portion 30 and the other parts of switch press part 31a and 31b along shaking radial direction.In the angle changing unit shown in Figure 20 A and the 20B, each side surface that the radial direction location is shaken on the edge of switch press part 31a and 31b cuts into recess part 37a and the 37b that provides crooked from the outside.Therefore, the centre is shaken portion 30 and switch press part 31a and 31b and can be relatively rotated with respect to each other shaking on the surface.

(the tenth execution mode)

Shown in Figure 21 A and 21B, according to the pushing among the 3M of junction surface of the tenth execution mode of the present invention, junction surface 3L is similar to pushing, and it is outstanding towards soft-

touch control

5a and 5b that the end sections of portion 30 is shaken in the centre.In the present embodiment, the 56a of ball joint portion and 56b play the effect of the angle changing unit similar to the 8th execution mode.

Each parts in the above-mentioned execution mode can combination with one another.Alternately, shake

end sections

21a and 21b and can have the angle changing unit.Such modification and remodeling are interpreted as being in the scope of the present invention that is limited by the accompanying claims.

Claims

A rocking switch unit (10,10C-10E), comprising:

(4,4C-4E), it has first and shakes fulcrum (42) and second and shake fulcrum (43) base portion;

Release knob (2), its by described first shake fulcrum (42) with can carry out two-way mode of shaking and described base portion (4,4C-4E) coupling connection, and, its have with respect to described first shake that fulcrum (42) is positioned at both sides a pair of shake end sections (21a, 21b);

A pair of soft-touch control (5a, 5b), described a pair of soft-touch control (5a, 5b) be arranged to described a pair of shake end sections (21a, 21b) corresponding;

Portion is shaken in the centre, and (30,30A-30E), it shakes fulcrum (43) and described base portion (4 by described second, 4C-4E) thereby coupling connection can carry out two-way shake and it has (the 34a of jack back portion with described release knob (2), 34b, 340a, 340b, 341a, 341b, 342a, 342b), described jack back portion extend towards both sides with respect to described second fulcrum (43) and have and push direction (Fa, surface (34c) is shaken by Fb) crossing bar portion;

Pair of switches pressing part (31a, 31b, 310a, 310b), described switch press partly is positioned at the described a pair of end sections (21a that shakes, 21b) with described a pair of soft-touch control (5a, 5b), so as described shake end sections (21a, 21b) direction (Fa is pushed on the edge in, Fb) during pressurized with pressing force from the described end sections (21a that shakes, 21b) one be delivered to described correspondence soft-touch control (5a, 5b), and described switch press partly has and the described direction (Fa that pushes, Fb) surface (31c) is shaken in the end of Xiang Jiaoing, and described switch press part is pushed direction (Fa is Fb) with described jack back portion (34a, 34b along described, 340a, 340b, 341a, 341b, 342a, two end sections 342b) shake coupling connection angle (θ between the surface (31c) so that surface (34c) and end are shaken by described bar portion ₁) the mode coupling connection that can change.
2. (10,10D 10E), also comprises rocking switch unit according to claim 1

A pair of leader (41a, 41b), described leader is arranged on described pair of switches pressing part (31a, 31b, 310a is 310b) with described a pair of soft-touch control (5a, 5b), and each described leader has guide hole (45a and 45b) so that guide described switch press part (31a, 31b, 310a, 310b) it can linearity be moved between off-position and pressing position, at place, described off-position, described release knob (2) is in the neutral position, and at described pressing position place, described switch press part (31a, 31b, 310a pushes corresponding described soft-touch control (5a and 5b) for one in 310b); And

When described switch press part (31a, 31b, 310a, 310b) (5a, in the time of 5b), shake the coupling that surface (34c) and described end shakes between the surface (31c) and join angle (θ by described bar portion near corresponding soft-touch control for the described switch press part in ₁) increase.
Rocking switch unit 3. according to claim 2 (10,10D, 10E), wherein:

Described base portion (4,4D, 4E) comprise that fulcrum forms part (44) and base part (40,400), described first shakes fulcrum (42) and described second shakes fulcrum (43) and is arranged at described fulcrum and forms part (44), described base part (40,400) form part (44) to be approximately perpendicular to the described direction (Fa that pushes from described fulcrum, Fb) mode is extended, and described base part be arranged on described centre shake portion (30,30A, 30B, 30D, 30E) with described soft-touch control (5a, 5b) between;

(41a 41b) is positioned at described base part (40,400) and locates described a pair of leader;

(45a 45b) pushes direction (Fa Fb) extends along described each described guide hole; And

Described switch press part (31a, 31b, 310a, 310b) insert respectively described guide hole (45a, 45b) in so that can push direction (Fa Fb) moves along described.
Rocking switch unit 4. according to claim 3 (10,10D), wherein:

Described fulcrum form part (44) along described push direction (Fa, Fb) towards described soft-touch control (5a, the opposition side with respect to described base part (40,400) 5b) extends;

Described first shakes fulcrum (42) is longer than described second second distance that shakes between fulcrum (43) and the described base part (40,400) with first distance between the described base part (40,400).
According to each described rocking switch unit among the claim 1-3 (10,10E), wherein:

Described pair of switches pressing part (31a, 31b, 310a, 310b) with described jack back portion (34a, described end sections 34b) is combined as a whole; And

(34a 34b) is constructed to be permeable to take place strain, so that (310a, in 310b) one are pushed and (5a makes described coupling connection angle (θ in the time of 5b) near corresponding soft-touch control for 31a, 31b in described switch press part in described jack back portion ₁) change.
Rocking switch unit 6. according to claim 5 (10,10E), wherein:

Described centre shake portion (30,30A, 30B, 30E) and described pair of switches pressing part (310a 310b) is made by the resin of injection mo(u)lding for 31a, 31b.
7. rocking switch unit according to claim 5 (10), wherein:

Described jack back portion (34a, 34b) have along be roughly parallel to described bar portion shake surface (34c) direction first size and along described direction (Fa, Fb) second size on of pushing; And

Described first size is greater than described second size.
8. rocking switch unit according to claim 7 (10), wherein:

(34a 34b) is made by single plate in described jack back portion.
9. rocking switch unit according to claim 5 (10), wherein:

(34a 34b) comprises a plurality of bar portion element, and described a plurality of bar portion element is along being roughly parallel to that described bar portion shakes that the direction on surface (34c) is extended and pushing direction (Fa Fb) is separated from each other along described in described jack back portion;

Each described bar portion element has along the first size of described bearing of trend and along described second size of pushing direction; And

Described first size is greater than the summation of described second size of described a plurality of bar portion element.
According to each described rocking switch unit among the claim 1-4 (10C, 10D), wherein:

Described jack back portion (30C, 30D) have in the end portion office pair of links fulcrum portion (430a, 430b, 433a, 433b); And

Each described switch press part (31,31b) have be used for the mode that can rotate keep described connecting rod fulcrum portion (430a, 430b, 433a, retaining part 433b) (440a, 440b, 435a, 435b).
11. rocking switch unit according to claim 10 (10C) further comprises

Shake portion (302) in the middle of another, it is arranged to be roughly parallel to described centre and shakes portion (30C) and push direction (Fa Fb) shakes portion (30C) with described centre and separates, wherein along described

Each described switch press part (31a, 31b) have another retaining part (436a, 436b), be used for the mode that can rotate keep being arranged on described shake in the middle of another connecting rod fulcrum portion that portion (302) locates (434a, 434b).
12. according to each described rocking switch unit (10) among the claim 1-4, wherein:

Described centre shake portion (30) and described pair of switches pressing part (31a, 31b) one among both have two handles giving prominence to towards another person (52a, 52b, 55a, 55b); And

Described centre shake portion (30) and described pair of switches pressing part (31a, 31b) person of another among both have two retaining parts (50a, 50b, 54a, 54b), be used for the mode that can rotate keep described handle (52a, 52b, 55a, 55b).
13. rocking switch unit according to claim 12 (10), wherein:

Described handle (52a, 52b, 55a, 55b) be arranged on described jack back portion (34a, described end sections 34b) and described pair of switches pressing part are (on one of them in the two of 31a, end sections 31b); And

Described retaining part (50a, 50b, 54a, (34a, described end sections 34b) and described pair of switches pressing part are (on 31a, end sections 31b) another person among both 54b) to be arranged at described jack back portion.
14. according to each described rocking switch unit (10) among the claim 1-4, wherein:

Described jack back portion (34a, described end sections 34b) contact described a pair of shake end sections (21a, 21b) so that with described pressing force from described a pair of shake end sections (21a, 21b) be delivered to described pair of switches pressing part (31a, 31b).
15. according to each described rocking switch unit among the claim 1-4 (10,10C-10E), wherein:

Described pair of switches pressing part (31a, 31b, 310a, 310b) contact described a pair of shake end sections (21a, 21b).
16. according to each described rocking switch unit (10) among the claim 1-4, wherein:

Each described switch press part (31a, 31b, 310a, 310b) (37a is 37b) with described jack back portion (34a, described end sections coupling connection 34b) by coupling connection part; And

When described shake end sections (21a, in 21b) one along described push direction (Fa, Fb) during pressurized described coupling connection part (37a 37b) can strain.
17. according to each described rocking switch unit (10E) among the claim 1-3, wherein:

Described first shakes fulcrum (421) and described second shakes fulcrum (421) and is bonded to each other and is one.
18. according to each described rocking switch unit among the claim 1-4 (10,10C-10E), wherein:

Described centre shake portion (30,30A-30E) have and connect described jack back portion (34a, 34b, 340a, 340b, 341a, 341b, 342a, the first axle of described end sections 342b) (34x);

Each described switch press part (31a, 31b, 310a, 310b) (5a 5b) gives prominence to towards corresponding soft-touch control along second axis (31y); And

By changing the crossing angle between described first axle (34x) and described second axis (31y), and make each described switch press part (31a, 31b, 310a, 310b) can push direction (Fa, Fb) (5a 5b) moves towards corresponding soft-touch control along described.