JP2004311091A - Electric switching device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electric switching device with improved switching response with a quickened action for moving a push button from a free position (F.P) to an operating position (O.P) as concerned such an electric switching device as a microswitch used for a buckle-wearing detection switch of an automobile. <P>SOLUTION: An actuator 1 has formed a built-up part 4 with a gradient increased of a length L1 of a switch operating body 44 in a movement direction and a length L2 of the push button 10 in a push-in direction, and the built-up part 4 is provided with a point of action A for the switch operating body to butt against and a push-button pressing part B for pressing down the push button 10 is fitted at a part further toward the tip than the built-up part 4, so that the point of action A is to be positioned above or in the vicinity of an axis line C of a switch main body 7. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to an electric switch device such as a micro switch used for a buckle attachment detection switch of an automobile and the like.
[0002]
[Prior art]
The buckle attachment detection switch of the automobile is attached to the buckle of the seat belt device, and is operated by the tongue when the tongue of the seat belt is inserted into and engaged with the buckle. The operation of the switch detects the wearing of the seat belt.
[0003]
As such a buckle attachment detection switch, an electric switch device SW-1 constituted by a micro switch is used. As shown in FIG. 16, in the electric switch device SW-1, the actuator 40 is pressed and bent by the insertion of the switch operating body 44, which is a tongue, into the buckle, and the push button 45 is pressed by the bending operation of the actuator 40. In this configuration, a switch unit (not shown) having an internal structure is turned on.
[0004]
As shown in FIGS. 19 and 20, the actuator 40 is located at a mounting leg 41, a support 42 bent at a predetermined obtuse angle with respect to the mounting leg 41, and a tip of the support 42. And an operating body contact portion 43 having a chevron shape. In this case, the support portion 42 is linear and has a small gradient formed by the length L1-1 in the moving direction H of the switch operating body 44 and the length L2-1 in the pushing direction F of the push button 45. It has become. An operation point A at which the switch operating body 44 abuts on an intermediate portion of the front surface of the support portion 42, and a button pressing portion B exists on the front side of the rear surface.
[0005]
The actuator 40 is mounted on the cover case 46 by inserting and locking the mounting leg 41 into an actuator mounting hole (not shown) of the cover case 46 of the switch body 47. In this case, the button pressing portion B of the support portion 42 is in contact with the top of the push button 45, and the push button 45 is at the free position (FP). Since the inclination of the support portion 42 is small, the action point A is separated from the axis C of the switch main body 47 by the distance x toward the mounting leg portion 41, and as described later, the push button 45 is moved to its free position ( F.P), the stroke S-1 of the switch operating body 44 from the operating position (OP) is large.
[0006]
Then, the switch operating body 44 is inserted into the buckle from the free position (FP) state shown in FIG. 16, and the tip end of the switch operating body 44 abuts on the action point a of the support portion 42, and further switch operation is performed. By the movement of the body 44, the switch operating body 44 slides on the surface of the support portion 42 and pushes the actuator 40 in the pushing direction F of the push button 45. For this reason, the actuator 40 bends in the pushing direction F, the button pressing part B of the support part 42 pushes the push button 45 in the pushing direction F, and the push button 45 becomes the operating position (0.P) shown in FIG. The switch unit turns on.
[0007]
Further, the switch operating body 44 moves, and the switch operating body 44 slides on the inclined surface portion 43a of the operating body contact portion 43 of the support portion 42 while pressing the support portion 42 of the actuator 40, and It contacts the top of the contact part 43. Therefore, the actuator 40 is further bent in the pushing direction F, the button pressing part B pushes the push button 45 in the pushing direction F, and the push button 45 is moved from the operating position (0.P) to the operation limit position (TT. .P).
[0008]
When the switch operating body 44 is moved in the reverse direction and separated from the actuator 40 to release the pressing of the push button 45, the switch normally closed contact is turned on.
[0009]
[Problems to be solved by the invention]
However, in the above-described conventional electric switch device SW-1, the support portion 42 of the actuator 40 is linear and has a small gradient. The stroke S-1 of the switch operating body 44 that moves the push button 45 from its free position (FP) to its operating position (OP) at a distance x to the side of the part 41 becomes large. I have. For example, in FIG. 10 showing the relationship between the moving distance (mm) of the operating body 40 and the contact pressure (gf), the push button 45 is moved from its free position (FP) to its operating position (OP). The stroke S-1 of the switch operating body 44 is 2.9 mm.
[0010]
For this reason, there is a problem that the operation of the actuator 40 for shifting the push button 45 from the free position (FP) to the operating position (OP) becomes slow.
[0011]
SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to shift a push button from a free position (FP) to an operating position (OP). An object of the present invention is to provide an electric switch device that operates quickly and has high switching response.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, an electric switch device according to the present invention includes a switch unit having an internal structure in which an actuator is pushed and bent by the movement of a switch operating body, and a push button is pushed by the bending operation of the actuator. Is an electric switch device that performs a switching operation. The actuator has a steep slope by increasing the ratio of the length L2 of the pressing direction F of the push button to the length L1 of the moving direction H of the switch operating body. A rising portion is formed, and the rising portion is provided with an action point a with which the switch actuating body comes into contact, and a push button pressing portion for pressing a push button is provided at a portion ahead of the rising portion of the actuator.
[0013]
With such a configuration, a steep rising portion is formed in the actuator, and since this rising portion has an action point a, the action point a can be located on or near the axis of the switch body, It is possible to reduce the stroke S of the switch operating body that moves the push button from its free position (FP) to its operating position (OP). For this reason, the operation of the actuator for moving the push button from the free position (FP) to the operating position (OP) is faster than that of the conventional electric switch device, and the switching response is improved. .
[0014]
When the electric switch device is used as a buckle attachment detection switch to be attached to a buckle of an automobile seat belt device, the buckle attachment detection switch is immediately turned on when a tongue is inserted and engaged with the buckle. By doing so, the wearing of the seat belt is detected.
[0015]
Also, in the electric switch device according to the present invention, in the above electric switch device, the actuator has a support portion having a mounting leg portion bent at a base portion, and a bending direction of the mounting leg portion at a tip portion of the support portion. And a switch operating body contact portion with which the switch operating body comes into contact at the push button operation restriction position (TTP) at the leading end of the rising portion. In addition, an action point A is provided on the rising portion, and a push button pressing portion is provided on the back side of the switch operating body contact portion.
[0016]
With this configuration, the switch operating body moves and collides with the action point a present at the rising portion, and further movement of the switch operating body pushes the rising portion, and the actuator moves in the pushing direction F of the push button. The push button is pushed in the pushing direction F by the push button pressing portion, and the push button can be shifted from its free position (FP) to the operating position (OP), and the actuator is operated by the push button. The operation {the operation for shifting from the free position (FP) to the operation position (OP)} can be made faster, and the switching responsiveness can be improved.
[0017]
Also, in the electric switch device according to the present invention, in the above electric switch device, the actuator has a support portion having a mounting leg portion bent at a base portion, and a bending direction of the mounting leg portion at a tip portion of the support portion. A rising portion bent in the opposite direction is formed, a contact portion forming portion is formed at the leading end of the rising portion, an action point a is provided at the rising portion, and a pressing portion is formed on the surface side of the contact portion forming portion. A switch actuating body contact portion that contacts the switch actuating body at the button operation restriction position (TTP) is provided, and a push button pressing portion is provided on the back side of the contact portion forming portion.
[0018]
With this configuration, the switch operating body moves and collides with the action point a present at the rising portion, and further movement of the switch operating body pushes the rising portion, and the actuator moves in the pushing direction F of the push button. The push button is pushed in the pushing direction F by the push button pressing portion, and the push button can be shifted from its free position (FP) to the operating position (OP), and the actuator is operated by the push button. The operation {the operation for shifting from the free position (FP) to the operation position (OP)} can be made faster, and the switching responsiveness can be improved.
[0019]
Also, in the electric switch device according to the present invention, in the above electric switch device, the actuator has a support portion having a mounting leg portion bent at a base portion, and a bending direction of the mounting leg portion at a tip portion of the support portion. A steep rising portion bent in the opposite direction is formed, and the leading end portion of the rising portion is bent in a substantially mountain shape, thereby restricting the operation of the push button (TTP). A switch actuating body contact portion with which the switch actuating body contacts, a flat portion is formed on the back side of the switch actuating body contact portion, an action point a is provided on the rising portion, and a push button pressing portion is provided on the flat portion. It is.
[0020]
With such a configuration, the actuator can make the operation of the push button {the operation for shifting from the free position (FP) to the operating position (OP)} faster, and can improve the switching response. Alternatively, a flat portion is formed on the back side of the switch operating body contact portion of the actuator, and the push button pressing portion is provided in this flat portion, so that the push button pressing portion contacts the top of the push button by surface contact, and the switch At the moment when the operating body presses the actuator, the push button pressing portion operates the push button, and the switch contact pressure can be maximized at an early stage during the full stroke of the switch operating body to reliably output the switch signal.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0022]
(Embodiment 1)
Embodiment 1 of the electric switch device according to the present invention is shown in FIGS. FIG. 1 is a front view of an electric switch device according to a first embodiment of the present invention, and FIG. 2 is a configuration explanatory diagram of a switch unit of the electric switch device. In these drawings, X-X 'is the horizontal direction, and Z-Ｚ' is the vertical direction.
[0023]
3 to 6, the actuator 1 of the electric switch device SW according to the present invention has a support portion 3 in which a mounting leg 2 is formed at a substantially right angle at a base portion. A steep rising portion 4 is formed at the tip portion at a predetermined angle α1 (for example, α1 = about 145 °) in a direction opposite to the bending direction of the mounting leg portion 2. In other words, the rising portion 4 has a steep slope in which the ratio of the length L2 of the push button 10 in the pushing direction F to the length L1 of the moving direction H of the switch operating body 44 is increased. In the middle of the rising portion 4, there is provided an operation point a at which the switch operating body 44 abuts.
[0024]
On the leading side of the rising portion 4, a contact portion forming portion 5 which forms a predetermined angle β1 (for example, β1 = about 150 °) with the rising portion 4 and is substantially parallel to the support portion 3 is formed. On the surface side of the contact portion forming portion 5, a switch operating member contact portion 6 with which the switch operating member 44 comes into contact at the operation restriction position (TTP) of the push button 10 is formed so as to protrude. Further, a push button pressing portion b is provided on the back surface side of the contact portion forming portion 5. The inclined surface 6A of the operating body contact portion 6 is located on an extension of the surface 4a of the rising portion 4.
[0025]
The actuator 1 configured as described above is mounted on the switch body SW-1 of the electric switch device SW. That is, the switch body SW-1 is composed of a cover case 7, a switch unit 9 inside the cover case 7, a push button 10, and a waterproof cap 11, as shown in FIGS. The actuator 1 is mounted on the switch body SW-1 by inserting and locking the mounting leg 2 into the actuator mounting hole 12 of the cover case 7.
[0026]
In this case, the support portion 3 of the actuator 1 is substantially parallel to the end face portion 7a of the cover case 7, and the operating point A provided on the rising portion 4 is located on the axis C passing through the center of the switch body SW-1. Further, since there is a gap between the push button pressing portion B and the top of the push button 10, the push button 10 is at the free position (FP).
[0027]
The switch unit 9 has a base 13 made of a synthetic resin, and an inner actuator supporting portion 14 protrudes from the upper surface of the base 13 on the left side of FIG. 2 in FIG. 2, and the inner actuator supporting portion 14 in FIG. A fulcrum A is formed on the right side. Then, a normally closed fixed terminal 16, a normally open fixed terminal 17, and a common terminal 18 are sequentially attached to the base 13 by insert molding from left to right in FIG.
[0028]
The upper portion of the normally closed fixed terminal 16 is bent at a right angle, and a fixed contact 19 is fixed to the lower surface of the bent portion 16a. The upper portion of the normally open fixed terminal 17 is bent at a substantially right angle toward the inner actuator support portion 14, and a fixed contact 20 is fixed to the upper surface of the bent portion 17a. They are facing each other. In addition, a fulcrum B is formed on the left side in FIG.
[0029]
The fulcrum engaging portion 23 of the inner actuator 22 is swingably engaged with the fulcrum portion A of the inner actuator support portion 14, and the fulcrum engaging portion 26 of the movable piece 25 is pivotally engaged with the fulcrum portion B of the common terminal 18. The hook 30A at one end of the coil spring 30 is movably engaged with the spring locking hole 27 of the movable piece 25, and the hook 30B at the other end of the coil spring 30 is connected to the right end of the inner actuator 22. The switch unit 9 is configured to be locked to the spring locking portion 28.
[0030]
The movable piece 25 is pulled to the right (toward the common terminal 18) and the inner actuator 22 is pulled to the left (toward the normally closed fixed terminal 16) by the compression force of the coil spring 30, and the inner actuator 22 is supported by the fulcrum. The movable piece 25 is urged in a clockwise direction about the fulcrum portion B so that the movable contact 29 is in contact with the fixed contact 19.
[0031]
The cover unit 7 is put on the switch unit 9 configured as described above, and the cover case 7 is detachably engaged with the base 13 of the switch unit 9. A push button 10 is inserted into a button insertion hole (not shown) provided in the cover case 7, and a waterproof cap mounting portion (not shown) concentric with the button insertion hole of the cover case 7. In FIG. 1), a waterproof cap 11 is fitted and fixed in a liquid-tight manner, and a peripheral portion on the front side of the waterproof cap 11 is attached to the push button 10.
[0032]
The insertion end of the push button 10 into the cover case 7 holds the hook 30B at the right end of the coil spring 30 and the right end of the inner actuator 22, and the right end of the inner actuator 22 is the action point C. .
[0033]
Lead wires 31, 32, and 33 are connected to the normally closed fixed terminal 16, the normally open fixed terminal 17, and the common terminal 18, respectively, and the inside of the skirt 8 is filled with resin (not shown). .
[0034]
Next, the operation of the electric switch device SW configured as described above will be described.
[0035]
In the state shown in FIG. 2, as described above, the inner actuator 22 is biased counterclockwise about the fulcrum A, and the movable piece 25 is biased clockwise about the fulcrum B. As a result, the movable contact 29 is in contact with the fixed contact 19. In this case, the push button 10 is at the free position (FP) as shown in FIG.
[0036]
In this free position (FP) state, the switch operating body 44 moves, and the switch operating body 44 collides with the operating point a existing in the intermediate portion of the rising portion 4 of the actuator 1, and the further switch operating body 44 is moved. , The steep rising portion 4 is pushed by the switch operating body 44, the actuator 1 bends in the pushing direction F of the push button 10, and the button pushing portion B pushes the push button 10 in the pushing direction F. Reference numeral 10 indicates the operating position (0.P) shown in FIG.
[0037]
For this purpose, the push button 10 pushes down the right end of the inner actuator 22, and the inner actuator 22 rotates clockwise about the fulcrum A so that the center of the coil spring 30 When a dead point (dead point) which coincides with the center in the axial direction is exceeded, the movable piece 25 is pulled, and the movable piece 25 is turned counterclockwise around the fulcrum B so that the movable contact 29 is moved. After leaving the fixed contact 19 of the normally closed fixed terminal 16 and coming into contact with the fixed contact 20 of the normally open fixed terminal 17, the switch is turned on.
[0038]
Further, the switch operating body 44 moves, and the switch operating body 44 slides from the rising portion 4 to the inclined surface portion 6A of the switch operating body contact portion 6 while pressing the rising portion 4 of the actuator 1 to thereby switch the switch. It comes into contact with the top of the operating body contact portion 6. Accordingly, the actuator 1 is further bent in the pressing direction F of the push button 10, the push button pressing portion B pushes the push button 10 in the pressing direction F, and the push button 10 is moved from the operating position (0.P) to the operation limit shown in FIG. Position (TTP).
[0039]
When the switch actuating body 44 is moved in the reverse direction to release the pressing of the push button 10, the movable piece 25 is reversed in the reverse direction by the urging force of the coil spring 30, and the movable contact 29 is fixed to the normally open fixed terminal 17. After leaving the contact 20, it comes into contact with the fixed contact 19 of the normally closed fixed terminal 16, and the normally closed contact is turned on.
[0040]
According to the above-described first embodiment, the steep rising portion 4 is formed in the actuator 1 and the action point a is present in the rising portion 4, so that the action point a is located on the axis c of the switch body 7 ( (In the vicinity of the axis C), and the stroke S of the switch operating body 44 that moves the push button 10 from its free position (FP) to its operating position (OP) can be reduced. Can be.
[0041]
For example, in FIG. 10 showing the relationship between the movement distance (mm) of the switch operating body 44 and the contact pressure (gf), in the conventional electric switch device SW, the push button 45 is moved to its free position (FP). ), The stroke S-1 of the switch operating body 44 from the operating position (OP) is 2.9 mm. In the electric switch device SW according to the present invention, the push button 10 is The stroke S of the switch operating body 44 from the free position (FP) to the operating position (OP) becomes 1.3 mm. Thus, the stroke S of the switch operating body 44 that moves the push button 10 from its free position (FP) to its operating position (OP) can be reduced.
[0042]
For this reason, the operation of the actuator 1 for shifting the push button 10 from the free position (FP) to the operating position (OP) is faster than that of the conventional electric switch device SW-1, and the switching operation is performed. Responsiveness improves.
[0043]
Further, when the electric switch device SW according to the present invention is used as a buckle attachment detection switch to be attached to a buckle of a seat belt device of an automobile, the buckle attachment detection switch is provided when a tongue is inserted into and engaged with the buckle. Is immediately turned on and off, thereby detecting the wearing of the seat belt.
[0044]
(Embodiment 2)
Second Embodiment FIGS. 11 to 14 show an electric switch device according to a second embodiment of the present invention. FIG. 11 is a front view of an actuator according to Embodiment 2 of the electric switch device according to the present invention. FIG. 12 is an explanatory diagram of a free position (FP) state of a push button in the electric switch device (Embodiment 2) according to the present invention, and FIG. 13 is an operating position (OP) of the push button in the electric switch device. FIG. 14 is an explanatory diagram of a state, and FIG. 14 is an explanatory diagram of an operation restriction position (TTP) state of the push button in the electric switch device.
[0045]
The actuator 1-2 of the electric switch device SW has a support portion 3 formed by bending a mounting leg portion 2 at a base portion, and a tip portion of the support portion 3 is provided in a direction opposite to a bending direction of the mounting leg portion 2. A switch operation in which a steep rising portion 4 bent at a predetermined angle α2 (for example, α1 = about 150 °) is formed, and the rising portion 4 has a leading end portion bent substantially in a mountain shape. A body contact portion 6 is provided, and a flat portion substantially parallel to the support portion 3 at a predetermined angle β2 (for example, β2 = about 154 °) with respect to the rising portion 4 on the back side of the switch operating body contact portion 6. 6-1 is formed, an action point A is provided on the rising portion 4, and a push button pressing portion B is provided on the flat portion 6-1.
[0046]
The actuator 1-2 configured as described above is mounted on the switch body 7, as shown in FIG. In this case, is the support portion 3 of the actuator 1-2 substantially parallel to the end surface portion 8a of the cover case 8, and is the action point a provided on the rising portion 4 positioned on an axis c passing through the center of the switch body 7? The push button 10 is in the free position (FP) because the push button pressing portion B comes into contact with the top of the push button 10 in a surface contact state.
[0047]
In the free position (FP) state, the switch operating body 44 moves, and the switch operating body 44 collides with the operating point a existing at the intermediate portion of the rising portion 4 of the actuator 1-2, and further switch operation is performed. By the movement of the body 44, the steep rising portion 4 is pressed by the switch operating body 44, the actuator 1-2 bends in the pressing direction F of the push button 10, and the button pressing portion B pushes the push button 10 in the pressing direction F. The push-in and push-button 10 is in the operating position (0.P) shown in FIG. 13, and the switch unit 9 is operated in the same manner as in the above-described first embodiment of the present invention, and the normally closed contact is turned on. Become.
[0048]
Further, the switch operating body 44 moves, and the switch operating body 44 comes into contact with the top of the switch operating body contact portion 6 from the rising portion 4 while pressing the rising portion 4 of the actuator 1-2. Therefore, the actuator 1-2 further bends in the pushing direction F of the push button 10, the push button pressing portion B pushes the push button 10 in the pushing direction F, and the push button 10 is moved from the operating position (0.P) as shown in FIG. It becomes the operation limit position (TTP).
[0049]
When the switch operating body 44 is moved in the reverse direction to release the pressing of the push button 10, the switch unit 9 is operated as in the case of the first embodiment of the present invention, and the normally closed contact is turned on. State.
[0050]
According to the above-described second embodiment, the steep rising portion 4 is formed in the actuator 1-2, and the operating point a is present in the rising portion 4. The stroke S of the switch actuating body 44 that allows the push button 10 to move from its free position (FP) to its operating position (OP) can be reduced. Actuator 1-2 makes the operation of the push button 10 {the operation for shifting from the free position (FP) to the operation position (OP)} faster, thereby increasing the switching responsiveness. Can be improved.
[0051]
Moreover, since the flat portion 6-1 is formed on the back side of the switch operating body contact portion 6 of the actuator 1-2, and the flat portion 6-1 is provided with the push button pressing portion B, the push button pressing portion B is provided. Is in contact with the top of the push button 10 by surface contact, and the moment the switch operating body 44 presses the actuator 1-2, the push button pressing section b activates the push button 10, and the early stage of the full stroke of the switch operating body 44 Thus, the switch signal can be reliably output by maximizing the switch contact pressure.
[0052]
For this reason, when the above-described electric switch device SW according to Embodiment 2 of the present invention is used as a buckle attachment detection switch to be attached to a buckle of a seat belt device of an automobile, an early stage during the full stroke of the tongue insertion. The switch signal can be reliably output by maximizing the switch contact pressure.
[0053]
【The invention's effect】
As described above, according to the electric switch device of the present invention, a steep rising portion is formed in the actuator, and since the rising portion has the action point a, the action point a is located on the axis c of the switch body. Alternatively, it is possible to position the push button from the free position (FP) to the operation position (OP) of the push button, so that the stroke S of the switch operating body can be reduced. . For this reason, the operation of the actuator for moving the push button from the free position (FP) to the operating position (OP) is faster than that of the conventional electric switch device, and the switching response is improved. .
[0054]
Further, when the electric switch device according to the present invention is used as a buckle attachment detection switch to be attached to a buckle of a seat belt device of an automobile, the buckle attachment detection switch is provided when a tongue is inserted into and engaged with the buckle. By performing the on / off operation immediately, the wearing of the seat belt is detected.
[0055]
Further, according to the electric switch device of the present invention, the switch operating body moves and collides with the action point a present at the rising portion, and by further movement of the switch operating body, the switch operating body pushes the rising portion, The actuator bends in the pushing direction F of the push button, pushes the push button in the pushing direction F by the push button pressing portion, and shifts the push button from its free position (FP) to its operating position (OP). As a result, the actuator can make the operation of the push button (operation for shifting from the free position (FP) to the operating position (OP)) faster, and improve the switching response.
[0056]
Further, according to the electric switch device of the present invention, the actuator makes the operation of the push button {the operation for shifting from the free position (FP) to the operating position (OP)} faster, and the switching is performed. Not only can the responsiveness be improved, but also a flat portion is formed on the back side of the switch operating body contact portion of the actuator, and this flat portion is provided with a push button pressing portion. When the switch touches the top of the push button and the switch actuating body presses the actuator, the push button pressing section activates the push button and maximizes the switch contact pressure early in the full stroke of the switch actuating element to generate a switch signal. It is possible to output reliably.
[Brief description of the drawings]
FIG. 1 is a front view of an electric switch device (first embodiment) according to the present invention.
FIG. 2 is a diagram illustrating a configuration of a switch unit of the electric switch device.
FIG. 3 is a plan view of an actuator in the electric switch device.
FIG. 4 is a front view of the actuator.
FIG. 5 is a sectional view taken along line WW of FIG. 4;
FIG. 6 is a view from the direction of arrow V in FIG. 4;
FIG. 7 is an explanatory diagram of a free position (FP) state of a push button in the electric switch device (Embodiment 1) according to the present invention.
FIG. 8 is an explanatory diagram of an operation position (OP) state of a push button in the electric switch device.
FIG. 9 is an explanatory diagram of an operation restriction position (TTP) state of a push button in the electric switch device.
FIG. 10 is a diagram showing a relationship between a moving distance of a switch operating body and a contact pressure.
FIG. 11 is a front view of an actuator in an electric switch device (Embodiment 2) according to the present invention.
FIG. 12 is an explanatory diagram of a free position (FP) state of a push button in an electric switch device (Embodiment 2) according to the present invention.
FIG. 13 is an explanatory diagram of an operation position (OP) state of a push button in the electric switch device.
FIG. 14 is an explanatory diagram of a push-button operation restriction position (TTP) state in the electric switch device.
FIG. 15 is an explanatory diagram of a free position (FP) state of a push button in a conventional electric switch device.
FIG. 16 is an explanatory diagram of an operation position (OP) state of a push button in the electric switch device.
FIG. 17 is an explanatory diagram of a push button operation restricted position (TTP) state in the electric switch device.
FIG. 18 is a plan view of an actuator in the electric switch device.
FIG. 19 is a front view of the actuator.
[Explanation of symbols]
SW electric switch device
SW-1 switch body
1 Actuator
1-1 Actuator
1-2 Actuator
2 Mounting legs
3 support
4 rising part
5 Contact part formation part
6 Switch actuating body contact
6-1 Flat part
7 Cover case
8 Skirt
9 Switch unit
10 push buttons
44 Switch actuating body (tang)
B. Action point
B Push button pressing section
C Switch body axis

Claims (4)

An electric switch device in which the actuator is pressed and bent by the movement of the switch operating body, and the push button is pressed by the bending operation of the actuator, so that the switch unit having an internal structure performs a switching operation,
The actuator has a steep rising portion formed by increasing the ratio of the length L2 of the pushing direction F of the push button to the length L1 of the moving direction H of the switch operating body. An electric switch device, comprising: an action point (a) at which the switch actuating body abuts; and a push button pressing portion for pressing the push button is provided at a position ahead of the rising portion of the actuator. The actuator has a supporting portion having a mounting leg bent at a base portion, and the leading portion of the supporting portion is formed with the rising portion bent in a direction opposite to a bending direction of the mounting leg. A switch actuating body contacting portion is provided on the leading side of the rising portion at which the switch actuating body is in contact at the push button operation restriction position (TTP), and the rising portion is provided with the action point a. The electric switch device according to claim 1, wherein the push button pressing portion is provided on a back surface side of the switch operating body contact portion. The actuator has a supporting portion having a mounting leg bent at a base portion, and the leading portion of the supporting portion is formed with the rising portion bent in a direction opposite to a bending direction of the mounting leg. A contact portion forming portion is formed on the leading side of the rising portion, the action point A is provided on the rising portion, and an operation restriction position (T.T.P.) of the push button is provided on the surface side of the contact portion forming portion. 2. The electric switch device according to claim 1, wherein a switch actuating body contact portion with which the switch actuating member contacts is provided, and the push button pressing portion is provided on a back side of the contact portion forming portion. The actuator has a supporting portion having a mounting leg portion bent at a base portion, and a steep rising portion bent and formed in a direction opposite to a bending direction of the mounting leg portion at a tip portion of the supporting portion. At the same time, the leading portion is bent substantially in a mountain shape at the rising portion, and a switch operating member contact portion with which the switch operating member comes into contact at the operation limit position (TTP) of the push button is provided. The flat portion is formed on the back side of the switch operating body contact portion, the action point (i) is provided on the rising portion, and the push button pressing portion is provided on the flat portion. Electrical switch device.

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