JP4247312B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic apparatus having an operation unit that operates an electrical switch unit by pressing and pushing a push button.
[0002]
[Prior art]
Conventionally, a push button switch used for this type of electronic device has a key cap for an operator to press, a keyboard frame, a membrane sheet that is covered with a keyboard frame and provided with a switch portion, and one of the keys is a key. The stabilizer assembly, which is locked and engaged with the cap and the other with the keyboard frame, is arranged between the stem and keyboard frame on the keycap side and transmits the pressing force of the keycap to the switch part, and the keycap is elastic And a rubber spring that pushes back. The stabilizer assembly is constructed by combining two ladder-type operating frames with a plurality of bearing rods, enabling the keycap to be pushed down while keeping the keycap horizontal while keeping the keycap stroke relatively short. Thus, a stable stroke operation can be ensured (see, for example, Patent Document 1).
[0003]
[Patent Document 1]
JP-A-8-45378 (3rd, 4th page, FIG. 2)
[0004]
[Problems to be solved by the invention]
However, in such a conventional push button switch, the stabilizer assembly is constructed by combining two complicated operating frames in an X shape, and the key cap can be tilted in any direction during the pressing stroke only by the stabilizer assembly. Therefore, not only does the stabilizer assembly have a complicated structure, which increases the manufacturing cost, but also increases the thickness in the stroke direction, which makes it difficult to make the push button switch thinner. It was.
The present invention has been made to solve such a problem. The thickness of the push button including the key cap in the stroke direction can be made thinner, and the manufacturing cost can be reduced, and the push button can be reduced during the press stroke. An electronic device having an operation unit capable of suppressing tilting is provided.
[0005]
[Means for Solving the Problems]
Electronic device of the present invention, a push button provided with a pressing portion on the surface side, biases the push button in the direction returning the holding member before Symbol push button forming a guidable holes in the stroke direction of said push button a fixed member that includes a substrate having a switch portion respectively provided to operate by receiving the pressing force of the elastic urging portion and said push button to when pre SL is locked pivotally engaged to the solid Teisokubu material an operation unit that includes a stabilizer engaged slidably before Symbol push button to together, the elastic member tilting of the push button of the first axis parallel to the swing center axis of the stabilizer And the tilting of the push button around the second axis in a different direction from the first axis is suppressed by the stabilizer, and a plurality of the push buttons are arranged along the direction of the first axis. A plurality of elastic urging members having urging portions spaced apart from each other in the direction of the second axis In constructed, has a structure obtained by placing the pivot shaft of said stabilizer in parallel with the first axis.
With this configuration, it is possible to suppress the tilt of the push button around the first axis by the elastic biasing portion, and it is possible to suppress the tilt of the push button around the second axis in the direction different from the first axis by the stabilizer. The push button is set to have a pressing surface that can be pressed by the operator, so that the stabilizer can be easily engaged with the push button and slide. Can be secured. On the other hand, the fixed side member only locks the stabilizer in a swingable manner and does not require a sliding allowance. Therefore, the length of the locking portion can be shortened, and a plurality of push buttons are arranged side by side. In addition, it is not necessary to provide a locking portion for locking the portion serving as the pivot shaft of the stabilizer between the adjacent push buttons on the fixed side member . As a result, the thickness of the push button in the stroke direction can be made thinner and the manufacturing cost can be reduced, and the tilt of the push button during the press stroke can be suppressed.When arranging a plurality of push buttons side by side, it is possible to provide an electronic apparatus that Ru can be arranged compactly packed spacing between push button.
[0006]
The electronic device of the present invention has a configuration in which the first axis and the second axis are orthogonal or substantially orthogonal.
With this configuration, the elastic biasing portion and the stabilizer can be disposed at a position suitable for suppressing the tilting of the push button.
[0007]
Moreover, the electronic device of the present invention has a configuration in which the stabilizer is formed by bending a linear member.
With this configuration, the stabilizer has a simple and compact structure. As a result, the thickness of the push button switch in the stroke direction can be reduced, and the manufacturing cost of the push button switch can be reduced.
[0008]
The electronic device of the present invention has a configuration in which the cross section of the linear member is circular. With this configuration, the stabilizer can be manufactured at low cost. In addition, since the sliding friction with respect to the holding member of the stabilizer and the substrate is small and can be prevented from being caught, the swinging operation and sliding operation of the stabilizer are smoothed, and the push button can be stroked stably and smoothly.
[0009]
The electronic device of the present invention, the stabilizer, and the locking portion for locking the stationary member, press slidably two engaging at a position spaced to the first axial direction button in the second axis direction It has a configuration having an engaging portion and two arm portions that respectively connect the two engaging portions and both ends of the locking portion.
With this configuration, the stabilizer can have a simple and thin structure. Further, the linear member can be formed simply by bending, and the manufacturing cost can be reduced.
[0011]
In the electronic device of the present invention, the stabilizer has a configuration in which the stabilizer abuts on the holding member and restricts the push button from coming off from the fixed side member.
With this configuration, the stabilizer can be used to prevent the push button from coming out or to restrict the return position, and it is not necessary to separately provide a protrusion for preventing the push button from coming out from the fixed side member, or a return position restricting projection.
[0012]
The electronic device of the present invention has a configuration in which the stabilizer has an engaging portion that engages with the fixed-side member so as to be swingable, and the engaging portion abuts on the fixed-side member and restricts the push-button from coming off. Have.
With this configuration, it is only necessary to use the engaging portion that is necessary for the stabilizer to prevent the push button from coming out of the fixed side member and to restrict the return position of the push button, and the push button stopper structure is simple. And it can be made compact.
[0013]
The electronic device of the present invention has a configuration in which the elastic urging portions are at least two elastic urging portions protruding from the substrate side toward the push button side at positions spaced apart in the second axial direction. .
With this configuration, the elastic biasing portion that suppresses the tilting of the push button can be formed into a simple and compact shape.
[0014]
Moreover, the electronic device of the present invention has a configuration in which the elastic biasing portion accommodates the switch portion therein.
With this configuration, the entire push button switch can be made compact, and dust and the like can be prevented from entering the switch unit from the outside.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 1, an electronic device 20 according to an embodiment of the present invention has a push button switch 10 as an operation unit, and a case (not shown) containing an electronic circuit (not shown) and the like. ) Is provided with an escutcheon (holding member) 21 attached to the surface side. The escutcheon 21 is formed with a screen hole 22 at a slightly slightly deeper position in the center thereof, so that the liquid crystal screen portion 23 has a lower inclined surface portion 21a (increase as it goes downward, and its cross section is shown in FIG. ), A push button insertion hole 24 is formed, and the push button 11 of the push button switch 10 is inserted. Here, five push button switches 10a to 10e are provided as the push button switch 10, and the holes 24 are divided into five to accommodate the push buttons 11A to 11E of the push button switches 10a to 10e, respectively.
The electronic device 20 according to the embodiment of the present invention is, for example, a vehicle-mounted navigation device or audio device.
[0017]
Hereinafter, the push button switch which is the main part of the electronic apparatus of the present invention will be described in detail.
An exploded perspective view of the push button switch 10 is shown in FIG. As shown in the figure, the push button switch 10 includes a push button 11 (only one is representatively depicted in FIG. 2 and the remaining four are omitted) and a hole for inserting the push button 11. 24, and upper and lower elastic urging portions 15A and 15B that are attached to the back side of the escutcheon 21 and elastically press the push button 11 from the back side toward the front side, and the electrical components shown in FIG. A substrate 12 provided with a switch 17 and a stabilizer 14 swingably mounted between the push button 11 and the escutcheon 21 are provided. In addition, the escutcheon 21 and the board | substrate 12 comprise the stationary side member of this invention.
[0018]
Hereinafter, the above-described portions of the push button switch 10 will be described in more detail. However, since the five push button switches 10a to 10e have substantially the same configuration, only one push button switch will be described. To do.
[0019]
As shown in FIGS. 2 to 4, the push button 11 is formed in a box-like shape having an opening on the back side, and the surface of the push button 11 is inclined according to the inclined surface 21 a of the escutcheon 21 and pressed by the operator. It has the part 11a and the engagement cylinder part 11b which protruded in the horizontal direction from the back surface side of the press part 11a. As shown in FIG. 4, the engaging cylinder portion 11b has two grooves 11d and 11e that extend in the vertical direction on the lower wall on the lower wall, and two lengths that extend in the vertical direction on both side walls and penetrate in the horizontal direction. Holes 11f and 11g are formed, respectively. Further, as shown in FIG. 1, four protrusions 11 h to 11 k that protrude in the horizontal direction are provided on the upper and lower ends of both side surfaces of the push button 11. The push button 11 is at least partly so that the surface of the pressing portion 11a becomes bright when receiving light from a light source (not shown) arranged on the back surface so that the push button 11 can be visually recognized at night. Is made of a translucent material such as translucent.
[0020]
As shown in FIG. 2, the escutcheon 21 is divided into four holes 24 by four partition plates 25a to 25d, and five holes 24a to 24e are provided. The four protrusions 11h to 11k of the push button 11 are engaged with the upper and lower ends of the partition plates 25a to 25d so that they can be guided. Further, as shown in FIG. 4, two locking pieces 26 a and 26 b are provided at positions spaced along the longitudinal direction of the hole 24 in the lower portion of each hole 24 a to 24 e of the escutcheon 21.
[0021]
Further, a frame portion 21 b for inserting the engagement cylinder portion 11 b of the push button 11 is provided on the back side of the escutcheon 21. Stopper portions 21c and 21d projecting in the horizontal direction are formed at intermediate portions of both side walls of the frame portion 21b. These stopper portions 21c and 21d are provided at positions facing the elongated holes 11f and 11g, respectively, and are formed in a groove shape having substantially the same vertical length as the elongated holes 11f and 11g. As a result, the two engaging portions 14d and 14e of the stabilizer 14 can move while sliding in the groove.
On the other hand, the grooves of the stopper portions 21c and 21d are formed so that the bottom is positioned on the front side of the engaging portions 14d and 14e, and the engaging portions 14d and 14e are pressed against the bottoms of the grooves. The button 11 and the stabilizer 14 are prevented from moving further to the surface side.
[0022]
As shown in FIGS. 2 and 3, the substrate 12 includes a relatively hard thin plate 18 provided with two attachment portions 13 a and 13 b for attachment to the escutcheon 21, and a push button 11 that is spaced apart in the vertical direction. It has elastic urging portions 15A and 15B that elastically press toward the surface side, and an electrical switch portion 17 disposed between the elastic urging portions 15A and 15B and the thin plate 18. The board | substrate 12 is attached to the back surface side of the escutcheon 21 with the screw (not shown) which penetrates the attaching parts 13a and 13b.
[0023]
The upper and lower elastic urging portions 15A and 15B have five sets of two elastic urging portions arranged vertically corresponding to the push buttons 11A to 11E (elastic urging portions 15a and 15b, elastic urging portions 15c and 15d, elastic biasing portions 15e and 15f, elastic biasing portions 15g and 15h, and elastic biasing portions 15i and 15j). These elastic urging portions 15a to 15j are formed by protruding a part of the elastic member 15 fixed to the surface side of the thin plate 18 to the surface side in a truncated cone shape.
The tips of the upper and lower elastic urging portions 15A and 15B are respectively brought into contact with the upper and lower walls of the engaging cylinder portion 11b of the push button 11, and urge the push button 11 toward the surface side by their elastic force. .
Between the upper and lower elastic urging portions 15A and 15B, there is a cylindrical portion 16 (consisting of five cylindrical portions 16a to 16e) that guides light from a light source disposed on the back surface side of the substrate 12 to the back surface of the push button 11. Is formed. In FIG. 2, the three cylindrical portions 16a, 16b, and 16c on the left side and the two cylindrical portions 16d and 16e on the right side have different opening areas so that the amount of light passing therethrough is different. is there.
[0024]
Also, as shown in FIG. 3, spaces covered with the thin plate 18 are formed inside the upper and lower elastic urging portions 15A and 15B, and the switch portion 17 is accommodated in each space. The switch portion 17 includes first switch pieces 17a and 17b on the space inner side portion of the elastic biasing portion 15A and the portion of the thin plate 18 below, respectively, and the space inner side portion of the elastic biasing portion 15B and the same. Second switch pieces 17c and 17d are provided on the lower thin plate 18, respectively. Then, when the push button 11 is pressed, both elastic urging portions 15A and 15B bend in the direction to be crushed, and the first switch pieces 17a and 17b and the second switch pieces 17c and 17d come into contact with each other. Turns on and passes current.
[0025]
As shown in FIGS. 2 to 4, the stabilizer 14 is formed by bending a linear member having a circular cross section. That is, the stabilizer 14 is formed in a U shape by a linear locking portion 14a and two arm portions 14b and 14c bent 90 degrees from both ends, and the tips of these arm portions 14b and 14c. Are provided with two engaging portions 14d and 14e that are bent 90 degrees from each other and extend in a direction parallel to the locking portion 14a and away from each other.
[0026]
As shown in FIG. 4, the stabilizer 14 has its locking portion 14 a swingably locked to two locking pieces 26 a and 26 b provided on the escutcheon 21, and the arm portions 14 b and 14 c are back surfaces of the push button 11. Are inserted into the two grooves 11d and 11e of the engaging cylinder portion 11b provided on the side, and the two elongated holes formed in the side walls of the engaging cylinder portion 11b of the push button 11 by the engaging portions 14d and 14e, respectively. 11f and 11g can be slid along these long holes 11f and 11g.
Further, the stabilizer 14 has portions protruding from the long holes 11f and 11g of the engaging portions 14d and 14e at the bottoms of the two stopper portions 21c and 21d provided on both side walls of the frame portion 21b on the back side of the escutcheon 21. Each can be brought into contact with each other, and the push button 11 is prevented from going too far from the hole 24 to the front side or coming out.
[0027]
Next, the operation of the push button switch 10 will be described.
When the operator pushes the push button 11, the push button 11 swings the stabilizer 14 while crushing the upper and lower elastic urging portions 15A and 15B and simultaneously with the locking portion 14a of the stabilizer 14 as a swing shaft. Stroke toward the back side while letting it go.
[0028]
During this stroke, the upper and lower elastic urging portions 15A and 15B are pressed and deformed. At this time, an elastic force is applied to the engagement cylinder portion 11b of the push button 11 from the upper and lower sides to the surface side. In order to continue to act, tilting of the push button 11 around the first shaft 31 passing through the center portion of the push button 11 in parallel with the swing shaft is suppressed.
[0029]
On the other hand, during the pressing stroke, the stabilizer 14 swings clockwise in FIG. 3 with the locking portion 14a as the swing axis. At this time, the two engaging portions 14d and 14e The long holes 11f and 11g provided on the both side walls of the engaging cylinder portion 11 are respectively engaged and slid. The stabilizer 14 supports the push button 11 from the left and right so as to maintain the posture so that both the engaging portions 14d and 14e are always in a straight line. As a result, the stabilizer 14 is orthogonal to the first shaft 31 and The tilting of the push button 11 around the second shaft 32 passing through the central portion is suppressed.
[0030]
Therefore, the push button 11 is restrained from tilting in any direction by the restraining forces of both the elastic biasing portions 15A and 15B and the stabilizer 14, and a stable stroke operation is performed. When the push button 11 is further pushed and the upper and lower elastic biasing portions 15A and 15B are further bent, the first switch pieces 17a and 17b and the second switch pieces 17c and 17d come into contact with each other. , the switch unit 17 the current is the flow becomes switched on.
[0031]
Thereafter, when the operator stops pressing the push button 11, the push button 11 is pushed back to the surface side by the elastic restoring force by the upper and lower elastic urging portions 15A and 15B of the elastic member 15. Along with this, first, the contact between the first switch pieces 17a and 17b and the second switch pieces 17c and 17d is released, the switch is turned off, and the current flow is interrupted. Finally, the push button 11 is pushed back to the first return position.
During this return stroke, the stabilizer 14 swings counterclockwise in FIG. 3 with the locking portion 14a as the swing axis while supporting the push button 11 from the left and right by the engaging portions 14d and 14e. .
[0032]
Therefore, the push button 11 returns with a stroke while being supported from above and below by the elastic biasing portions 15A and 15B and from the left and right by the engaging portions 14d and 14e of the stabilizer 14, and as a result, in all directions. Tilt of the push button 11 is suppressed.
[0033]
As described above, in the electronic device 20 according to the embodiment of the present invention, the push button switch 10 which is the operation unit is supported by the two elastic urging portions 15A and 15B of the elastic member 15 and the push button 11 is supported. The push button 11 around the first axis 31 that is parallel to the pivot center axis is suppressed, and the push button around the second axis 32 that is orthogonal to the first axis 31 at the engaging portions 14 d and 14 e of the stabilizer 14. 11 can be prevented from tilting in any direction during the stroke of the push button 11.
Further, since the tilting of the push button 11 is restrained by the elastic urging portions 15A and 15B and the stabilizer 14 according to the tilting direction, the stabilizer 14 is simply formed by bending a linear member having a circular cross section, for example. A simple and thin member can be used. As a result, it is possible to obtain the push button switch 10 which is thinner in the stroke direction than the conventional push button switch and can reduce the manufacturing cost.
[0034]
Further, the engaging portions 14d and 14e engaged with the push button 11 of the stabilizer 14 are brought into contact with the stopper portions 21c and 21d of the escutcheon 21, respectively, and the push button 11 is pulled out from the hole 21a and the stabilizer 14 is inserted. Therefore, it is not necessary to separately form protrusions for preventing the pull-out or for restricting the return position on the push button 11.
Further, the locking portion 14 a of the stabilizer 14 is rockably locked to the two locking pieces 26 a and 26 b of the escutcheon 21, and both engaging portions 14 d and 14 e are formed on the engaging cylinder portion 11 b of the push button 11. Since the two elongated holes 11f and 11g are slidably engaged, it is not necessary to secure the sliding allowance of the stabilizer 14 on the escutcheon 21 side, and the interval between the push buttons 11 is increased when a plurality of push buttons 11 are arranged. It can be packed and placed compactly in the electronic device 20 or the like.
Further, since the switch portion 17 is arranged inside the elastic biasing portions 15A and 15B, the push button switch 10 can be made compact and dust and the like can be prevented from entering the switch portion 17 from the outside.
[0035]
The electronic device of the present invention is not limited to the above embodiment, and the following modifications and changes are possible.
That is, the stabilizer 14 is slidably engaged with the push button 11 and is slidably locked to the escutcheon 21. However, the engagement and locking may be reversed. Further, in the push button switch 10 of the electronic device 20 according to the above-described embodiment, the locking portion 14a and the both engaging portions 14d and 14e of the stabilizer 14 are in the horizontal direction, and both elastic biasing portions 15A and 15B are provided. They are arranged so as to be in the vertical direction, but these are interchanged so that the locking portion 14a and both engaging portions 14d and 14e of the stabilizer 14 are in the vertical direction, and both elastic biasing portions 15A and 15B are in the horizontal direction. You may arrange so that it may become.
Further, the other side that locks or engages the stabilizer 14 may be the substrate 18 instead of the escutcheon 21.
In addition, the push button switch 10 is pressed in the horizontal direction, but may be pressed in any direction.
In addition, the first shaft 31 and the second shaft 32 are orthogonal to each other. However, the first shaft 31 and the second shaft 32 are not necessarily orthogonal to each other as long as the tilt of the push button 11 in each direction can be substantially suppressed in different directions.
Further, in the push button switch 10 of the electronic device 20 according to the above embodiment, the switch portion 17 is attached to the top of the elastic biasing portions 15A and 15B with the switch pieces 17a and 17c. It may be provided only on the thin plate 18 side and may be pressed by the inner side portions of the elastic biasing portions 15A and 15B.
[0036]
【The invention's effect】
As described above, according to the present invention, the stabilizer suppresses the tilting of the push button around the first axis parallel to the swing central axis of the swing motion, and the elastic biasing portion has a direction different from the first axis. By suppressing the tilting of the push button around the second axis, the thickness of the push button in the stroke direction can be further reduced, and the tilt of the push button during the pressing stroke can be suppressed while reducing the manufacturing cost. , can be provided when placing side by side a plurality of push buttons, the electronic apparatus having a push button switch is Ru can be arranged compactly packed the spacing between push button.
[Brief description of the drawings]
FIG. 1 is a front view of an electronic device including a push button switch according to an embodiment of the present invention. FIG. 2 is an exploded perspective view of a push button switch portion of the electronic device of FIG. Side view [Fig. 4] Rear view of the vicinity of the push button of the push button switch [Explanation of symbols]
10, 10a, 10b, 10c, 10d, 10e Push button switch (operation unit)
11, 11A, 11B, 11C, 11D, 11E Push button 11a Press part 11f, 11g Slot 12 Substrate 14 Stabilizer 14a Locking part 14b, 14c Arm part 14d, 14e Engaging part 15 Elastic members 15A, 15B, 15a, 15b , 15c, 15d, 15e, 15f, 15g, 15h, 15i, 15j Elastic urging portion 17 Switch portions 17a, 17b First switch piece 17c, 17d Second switch piece 20 Electronic device 21 Escution (holding member)
21c, 21d Stopper portion 24, 24a, 24b, 24c, 24d, 24e

Claims (9)

A push button provided with a pressing portion on the surface side;
Switch unit for actuating the push button by receiving the pressing force of the stroke direction to guide retention members to form a hole and before Symbol elastically biased portion and the push button to bias the back toward push button of the push button A fixed-side member provided with a substrate provided with
Has a front Symbol operation section having slidably and engaged with the stabilizer in the press and before Symbol in together when swingably engaged in solid Teisokubu material,
The elastic member suppresses the tilt of the push button around the first axis parallel to the pivot center axis of the stabilizer, and the tilt of the push button around the second axis in a direction different from the first axis is Suppressed by a stabilizer , a plurality of the push buttons are arranged along the direction of the first axis, the elastic urging portion is composed of a plurality of elastic urging portions spaced from each other in the direction of the second axis, An electronic apparatus , wherein the swing axis of the stabilizer is arranged in parallel with the first axis .   The electronic apparatus according to claim 1, wherein the first axis and the second axis are orthogonal or substantially orthogonal.   The electronic apparatus according to claim 1, wherein the stabilizer is formed by bending a linear member.   The electronic apparatus according to claim 3, wherein the linear member has a circular cross section. The stabilizer is pre-Symbol solid and the locking portion for locking the Teisokubu material, two engagement of slidably engaged to said second axially spaced locations Previous Symbol press the first axial direction button 5. The electron according to claim 1, further comprising: a joining portion and two arm portions that respectively connect the two engaging portions and both ends of the locking portion. machine. The stabilizer, an electronic device according to any of claims 1 to 5, characterized in that regulating the exit from the fixed-side member abuts the push button to the fixed side member. The stabilizer has an engaging portion that engages with the fixed side member so as to be able to swing, and the engaging portion abuts on the fixed side member to restrict the push button from coming off. The electronic device according to claim 6 . The elastic urging portions are at least two elastic urging portions that protrude from the substrate side toward the push button side at positions spaced apart in the second axial direction. 8. The electronic device according to any one of 7 . The resilient biasing unit, electronic apparatus according to claims 1 to 8, characterized in that houses the switch unit inside of the elastic urging portion.

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