JP2006260813A - Switch structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress an increase in the number of components, to simplify a switch structure and to eliminate looseness between links and a switch knob, in a switch structure for positioning the switch knob with the links. <P>SOLUTION: This switch structure includes: a casing 2; a tact switch 31a arranged in the casing 2; links 224 and 225 formed by integral molding with the the casing 2 and having elasticity in a depression direction; a link fixing part 221 for fixing ends of the links 224 and 225 opposite to the casing 2 side thereto; and the switch knob 1a covering upper parts of the links 224 and 225 and the link fixing part 221 by being fixed to the link fixing part 221. The direction from a contact point 71 between the link and the link fixing part 221 to a contact point 72 therebetween is set oblique with respect to the depression direction; and the direction from the contact point 71 to the contact point 72 is set parallel with the direction from a contact point 73 to a contact point 74. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention relates to a switch structure.

  2. Description of the Related Art Conventionally, as a switch structure, for example, as described in Patent Document 1, there is a structure in which a switch knob and a substrate are connected by two links. An example of such a switch structure is shown as a side view in FIG. In this switch structure, a resin switch knob (key top) 100 and a keyboard substrate 101 which are directly pressed by a user are both connected by a metal link 102 and a link 103. One end of the link 102 is rotatably fixed to the keyboard substrate 101 by a fixing bracket 104, and is fixed to the side surface of the switch knob 100 by a fixing bracket 105 at other portions. One end of the link 103 is rotatably fixed to the keyboard substrate 101 by a fixing bracket 106, and is fixed to the side surface of the switch knob 100 by a fixing bracket 107 in other portions. Further, the link 102 and the link 103 are arranged in parallel.

With such a configuration, when the switch knob 100 is pressed, the link 102 and the link 103 are kept horizontal to the keyboard substrate 101 while rotating around the positions of the metal fittings 104 and 106 while maintaining a parallel relationship with each other. It will tilt in the direction. As a result, the switch knob 100 descends while keeping its upper surface horizontal, and finally presses a membrane sheet or tact switch (not shown) on the keyboard substrate 101.
JP 2000-348562 A

  However, in the link configured as described above, the object (the board in the above example) to which the end of the link is fixed and the link are separate components, which increases the number of components of the switch structure. Further, the structure for maintaining the parallel relationship between the links becomes complicated. Further, if the link and the object to which the link is to be fixed are to be rotatably assembled, a gap is formed between the link and the object, which causes a play.

  In view of the above points, an object of the present invention is to suppress an increase in the number of parts in a switch structure in which a switch knob is positioned by a link, to simplify the configuration, and to eliminate play between the object to which the link is fixed.

  In order to achieve the above object, the invention according to claim 1 includes a case (2) provided with an opening at the top, a push-down switch (31a-f) provided in the case, and the opening. And an operation unit (1a to f, 22a to f) that depresses the push-type switch by moving in response to a user's press operation, and the operation unit includes the case and the case inside the case. A first link (225) provided by integral molding and having elasticity in the pressing direction of the operation portion, and a second link provided integrally with the case and elastic in the pressing direction of the operation portion within the case. Link (224), a link fixing portion (221) to which ends of the first link and the second link in the direction opposite to the case side are fixed, the first link, the second link Link, and Switch knobs (1a to f) fixed to at least one of the link fixing portions, and the second link and the link from the contact (71) between the first link and the link fixing portion. The direction to the contact (73) with the fixed part is parallel or oblique to the pressing direction of the switch knob, and the contact (71) between the first link and the link fixed part The direction of the contact (72) between the first link and the case is from the contact (73) between the second link and the link fixing portion to the contact (74) between the second link and the case. The switch structure is parallel to the direction of the switch.

  As described above, the first link and the second link fixed to the link fixing portion are molded integrally with the case, so that the link or the switch knob fixed to the link fixing portion is positioned by the link. In the switch structure, the increase in the number of parts can be suppressed, the configuration can be simplified, and the play between the link and the case can be eliminated. In addition, since the first link and the second link elastically connect the case and the link fixing portion, and the case and the switch knob, the switch knob has a resilience to the pressing operation of the switch knob by the user. To have.

  Further, the direction from the contact point between the first link and the link fixing portion (hereinafter referred to as the first fixing portion side contact point) to the contact point between the second link and the link fixing portion (hereinafter referred to as the second fixing portion side contact point). (Hereinafter referred to as the contact displacement direction) is parallel or oblique, that is, non-perpendicular to the pressing direction of the switch knob, and is a contact between the first link and the case (hereinafter referred to as the first link) from the first fixed portion side contact. The direction to the case side contact (hereinafter referred to as the first link direction) is the direction from the second fixed part side contact to the contact between the second link and the case (hereinafter referred to as the second case side contact) ( When the switch knob is pressed, a moment is applied that causes the switch knob to rotate around the first fixed part side contact and change its posture. The second link is against it 2 When a positive or negative force in the direction of the second link from the contact on the fixed part side is applied to the switch knob, and a moment is applied that the switch knob rotates around the second fixed part side contact to change the posture. Since the first link exerts a positive or negative force in the direction of the first link from the first fixed portion side contact against the first link on the switch knob, the posture of the switch knob is stabilized. That is, the first link and the second link act like a parallel spring when the switch knob is pressed, so that the posture of the switch knob is stabilized.

  Note that the operation unit depresses the push-type switch by moving in response to the user's depressing operation. In addition to the case where the operation unit directly depresses the push-down switch, the operation unit receives the user's depressing operation. This is a concept including a case where the operation unit indirectly presses the push-type switch such that the movement causes the medium to move and the push-type switch moves due to the movement.

  The term “parallel” as used herein is a concept that includes not only exact parallelism but also a case where the switch knob of the present invention deviates from parallelism within a range in which the posture stability can be realized.

  According to a second aspect of the present invention, in the switch structure according to the first aspect, a contact point (71) between the first link and the link fixing portion to a contact point between the first link and the case ( The linear distance to 72) is equal to the linear distance from the contact point (73) between the second link and the link fixing portion to the contact point (74) between the second link and the case. .

  Thus, the linear distance from the first fixed part side contact to the first case side contact (hereinafter referred to as the first linear distance) and the linear distance from the second fixed part side contact to the second case side contact (hereinafter referred to as the first linear distance). 2), the first fixed part side contact, the first case side contact, the second fixed part side contact, and the second case side contact form four vertices of a parallelogram. In addition, the effect of a more stable parallel spring is exhibited.

  According to a third aspect of the present invention, in the switch structure according to the first or second aspect, the first link and the second link are not overlapped when viewed from above the opening. Features.

  In this way, the first link and the second link do not overlap each other when viewed from above, which facilitates the configuration of the mold for molding the case, the first link, and the second link. Become.

  According to a fourth aspect of the present invention, in the switch structure according to any one of the first to third aspects, the switch knob includes a member having a property of transmitting visible light and the link fixing portion. Covering the upper part, the link fixing part includes a member having a property of not transmitting visible light, and is arranged to partition the lower part of the switch knob into a first space and a second space. A first light emitter (33) disposed at a position where light travels upward from the first space, and a second light emitter (33) disposed at a position where light travels upward from the second space. And a light emitter (34).

  Thus, the light from two different light sources separated by the link lake bottom using the link fixing portion as a partition can illuminate different portions of the switch knob.

  According to a fifth aspect of the present invention, in the switch structure according to any one of the first to third aspects, the switch knob includes a member having a property of transmitting visible light, and the first link. The second link and the link fixing portion include a member having a property of transmitting visible light, and the switch structure includes the switch knob, the first link, the second link, and the link. A first light emitter (33) for illuminating the fixing portion from below is provided.

  Thus, the light emitted from the first light emitter is scattered or refracted by the first link, the second link, and the link fixing portion, and illuminates the switch knob. Uneven position is less likely to occur or the light intensity at the switch knob is increased.

  According to a sixth aspect of the present invention, in the switch structure according to any one of the first to fifth aspects, the operation portion is provided integrally with the case inside the case, and A third link (223) having elasticity in the pressing direction, and a fourth link (222) provided integrally with the case inside the case and having elasticity in the pressing direction of the operation unit. The link fixing portion is configured to fix an end portion of the third link and the second link opposite to the case side, and the third link and the link fixing portion. The direction from the contact (66) to the contact (68) between the fourth link and the link fixing portion is parallel or oblique to the pressing direction of the switch knob, and the third link. And the link The direction from the contact (66) with the fixed portion to the contact (67) between the third link and the case is from the contact (68) between the fourth link and the link fixing portion. It is parallel to the direction to the contact (69) with the case.

  As described above, by having the third link and the fourth link that act like a parallel spring like the first link and the second link, the posture of the switch knob becomes more stable.

  According to a seventh aspect of the present invention, in the switch structure according to the sixth aspect, the contact (71) between the first link and the link fixing portion and the second link and the link fixing portion. The contact (73) is at one end of the fixed part, and the contact (66) between the third link and the link fixed part and the contact (68) between the fourth link and the link fixed part are It exists in the other end of a fixing | fixed part, It is characterized by the above-mentioned.

  In this way, the group consisting of the first link and the second link and the group consisting of the third link and the fourth link are fixed to both ends of the link fixing portion. The posture becomes more stable.

(First embodiment)
The first embodiment of the present invention will be described below. FIG. 1 is a perspective view showing a schematic configuration before assembling the switch structure according to the present embodiment. This switch structure is used as a switch mounted on a vehicle, such as a switch for a vehicle air conditioner panel or a switch for a navigation device. This switch structure includes six resin switch knobs 1a to 1f, one resin case 2, and one substrate 3.

  The case 2 has two rectangular openings at the top.

  Each of the switch knobs 1a to 1f has a substantially square shape when viewed from above. When the switch structure is assembled, among the switch knobs 1a to 1f, the switch knobs 1a to 1c are fitted into one side of the opening of the case 2 in a state where the switch knobs 1a to 1c are arranged in a horizontal line. It is inserted from above into the other end of the opening in a state where it is horizontally aligned in a vertical row. As a result, the switch knobs 1 a to f are exposed to the outside from the opening of the case 2.

  Further, after the switch knobs 1a to f are assembled to the case 2, the substrate 3 is screwed to the case 1 in the screw holes 32a to 32d. The substrate 3 has six tact switches 31a to 31f on the upper surface in addition to the four screw holes 32. When the tact switches 31a to 31f are pressed, an electronic device (not shown) in the vehicle receives a signal based on the pressing and performs an operation based on the signal.

  FIG. 2 shows a top view of the case 2. In the two openings of the case 2, there are movable portions 22 a to 22 f formed integrally with the case 2. The movable portions 22a to 22f are arranged in a vertical line horizontally inside one opening of the case 2 so that the movable portions 22a to 1f correspond to the switch knobs 1a to 1f on a one-to-one basis. ˜f are arranged in a row in the vertical direction inside the other opening. These movable parts 22 a to 22 c have the same structure except for the position where they are connected to the case 2. Moreover, it has the structure which is a mirror image object with respect to the movable part 22a except the position connected to the movable parts 22d-f case 2. As shown in FIG. Hereinafter, the structure of the movable portion 22a will be described on behalf of the movable portions 22a to 22f.

  FIG. 3 shows a top view of the movable portion 22a and its periphery. 4 shows a cross-sectional view taken along the line AA of FIG. 3 after the switch knobs 1a to 1f and the substrate 3 are assembled to the case 2. FIG.

  The movable portion 22a includes a link fixing portion 221, a rear lower link 222, a rear upper link 223, a front lower link 224, a front upper link 225, lateral reinforcing portions 226 and 227, and a cross reinforcing portion 228. All of the constituent elements 221 to 228 of the movable portion 22a are integrally formed.

  The link fixing part 221 is a flat plate-like member standing so that its normal direction is horizontal. Further, the flat link fixing portion 221 is longer in the front-rear direction (that is, the vertical direction on the paper surface of FIG. 3) than in the vertical direction. The rear lower link 222, the rear upper link 223, the front lower link 224, and the front upper link 225 have a slender shape in the horizontal left and right (corresponding to the left and right sides in FIG. 3), and have elasticity in the vertical direction. It is like that. One end of each link 222 to 225 is connected to the side surface facing the long side of the opening of the case 2 by integral molding, and the other end is connected to the link fixing portion 221 by integral molding.

  Hereinafter, the relative positional relationship between these links 222 to 225 will be described. A contact 68 between the rear lower link 222 and the link fixing portion 221 (hereinafter referred to as a rear lower fixing portion side contact) and a contact 66 between the rear upper link 223 and the link fixing portion 221 (hereinafter referred to as a rear upper fixing portion side contact). ) Are on the lower side and the upper side of the left side surface of the end portion on the rear side of the link fixing portion 221. Further, the rear lower fixed portion side contact 68 is in front of the rear upper fixed portion side contact 66.

  Further, a contact point 69 (hereinafter referred to as a rear lower case side contact) between the rear lower link 222 and the case 2 is lower than a contact point 67 (hereinafter referred to as a rear upper case side contact) between the rear upper link 223 and the case 2. And located on the rear side. A contact 73 between the front lower link 224 and the link fixing portion 221 (hereinafter referred to as a front lower fixing portion side contact) is a contact 71 between the front upper link 225 and the link fixing portion 221 (hereinafter referred to as a front upper fixing portion side contact). It is located below and on the front side. Further, a contact 74 (hereinafter referred to as a front lower case side contact) between the front lower link 224 and the case 2 is lower than a contact 72 (hereinafter referred to as a front upper case side contact) between the front upper link 225 and the case 2. And located on the front side.

  When viewed from above as shown in FIG. 3, the rear lower link 222, the rear upper link 223, the front lower link 224, and the front upper link 225 do not overlap each other.

  Then, the direction from the front upper fixed part side contact 71 to the front upper case side contact 72 (hereinafter referred to as the first link direction), and the direction from the front lower fixed part side contact 73 to the front lower case side contact 74 (hereinafter referred to as the second link direction). The direction from the rear upper fixed part side contact 66 to the rear upper case side contact 67 (hereinafter referred to as the third link direction), and the rear lower fixed part side contact 68 to the rear lower case side contact 69. Directions (hereinafter referred to as the fourth link direction) are all in a parallel relationship.

  A linear distance from the front upper fixed part side contact 71 to the front upper case side contact 72 (hereinafter referred to as a first linear distance), and a linear distance from the front lower fixed part side contact 73 to the front lower case side contact 74 (hereinafter referred to as “first linear distance”). (Referred to as second linear distance), linear distance from the rear upper fixed part side contact 66 to the rear upper case side contact 67 (hereinafter referred to as third linear distance), and rear lower fixed part side contact 68 to the rear lower case side. The linear distance to the contact point 69 (hereinafter referred to as the fourth linear distance) is all the same.

  In addition, each link 222 to 225 is a substantially straight and long rod-shaped member, but the bent portions 222a to 225a and 222b to 225b at both ends thereof are thinner than the central rigid portions 222c to 225c. Yes. As a result, the flexible portions 222a to 225a and 222b to 225b are deformed more flexibly than the rigid portions 222c to 225c.

  Further, as shown in FIG. 4, the switch knob 1a has a groove on the lower surface, and the upper end portion of the link fixing portion 221 is fitted into the groove so that the switch knob 1a is fixed to the link fixing portion 221. As a result, The upper part of the movable part 22a is covered.

  Moreover, the lower end part of the link fixing | fixed part 221 is contacting the upper part of the tact switch 31a. Therefore, when the link fixing portion 221 moves downward, the tact switch 31a on the substrate 3 is pressed, and the in-vehicle device performs an operation based on the pressing.

  Next, FIG. 5 and FIG. 6 show a front view of the assembled switch structure in which the switch knob 22b is pushed in (viewed from the lower side in FIG. 3). In this figure, the description of the front side of the switch knob 1a is omitted in order to clearly show the state of the links 224 and 225. Hereinafter, the posture change of the movable portion 22a and the switch knob 1a when the switch knob 1a is pressed will be described as a representative. However, the posture changes of the movable portions 22b to f and the switch knob 1b to f are also described. Are equivalent.

  When the position shown by the arrow 51 in FIG. 6, that is, the center part of the switch knob 1 a is pressed from above, the switch knob 1 a and the link fixing part 221 are moved downward by that force, and accordingly the front lower link 224 is moved. The flexures 224a and 224b and the flexures 225a and 225b of the front upper link 225 bend, so that the front lower link 224 and the front upper link 225 support the front upper case side contact 72 and the front lower case side contact 74, respectively. As it tilts down.

  In a state where the switch knob 1a is not pressed, the direction from the front upper fixed portion side contact 71 to the front lower fixed portion side contact 73 (corresponding to the contact displacement direction) is not relative to the pressing direction 51 of the switch knob 1a. The first link direction from the front upper fixed part side contact 71 to the front upper case side contact 72 is the second link direction from the front lower fixed part side contact 73 to the front lower case side contact 74. Therefore, when the switch knob 1a as shown in FIG. 5 is pressed, the posture is changed by rotating counterclockwise around the front upper fixing portion side contact 71 with respect to the link fixing portion 221. Even if such a moment is applied, the front lower link 224 applies a positive force from the front lower fixed portion side contact 73 to the front lower case side contact 74 against the switch knob 1a. In addition, even if a moment is applied to the link fixing portion 221 that rotates counterclockwise around the front lower fixing portion side contact 73 as an axis to change the posture, the upper upper link 225 resists the front upper case. Since a positive force from the side contact 72 to the front upper fixed portion side contact 71 is applied to the link fixing portion 221, the postures of the link fixing portion 221 and the switch knob 1a are stabilized.

  Further, as shown by an arrow 52 in FIG. 6, when the outer end portion of the switch knob 1a (that is, the end portion closer to the link fixing portion 221) is pressed, the link fixing portion 221 is fixed to the front upper portion by the pressing. Even if a moment is applied to change the posture by rotating the part side contact 71 as an axis, the front lower link 224 is positive or negative from the front lower fixed part side contact 73 to the front lower case side contact 74 against it. Even if a negative force is exerted on the link fixing portion 221 and a moment is applied that the link fixing portion 221 rotates about the front lower fixing portion side contact 73 axis and changes its posture, the front upper link 225 resists it. Since a positive or negative force from the front upper fixed portion side contact 71 to the front upper case side contact 72 is applied to the switch knob 22b, the link fixed portion 221 and the switch knob 1 are applied. Attitude to the stabilization of.

  In this way, the front lower link 224 and the front upper link 225 are paired and act like a parallel spring when the switch knob 22b is pressed, so that the postures of the link fixing portion 221 and the switch knob 1a are stabilized. Although not illustrated, the rear upper fixed portion side contact 66 to the rear lower fixed portion side contact 68 are not perpendicular to the pressing direction 51, and the third link direction and the fourth link direction are parallel to each other. Accordingly, the rear lower link 222 and the rear upper link 223 function as a pair of parallel springs by performing the same functions as the front lower link 224 and the front upper link 225, respectively, so that the link fixing portion 221 and the switch The posture of the knob 1a is further stabilized.

  Further, a linear distance (corresponding to the first linear distance) from the front upper fixed part side contact 71 to the front lower fixed part side contact 73 and a linear distance from the front upper case side contact 72 to the front lower case side contact 74 ( Therefore, the front upper fixed portion side contact 71, the front upper case side contact 72, the front lower fixed portion side contact 73, and the front lower case side contact 74 are substantially parallel to each other. Four vertices of a figure that is a quadrilateral are formed, and the effect of a more stable parallel spring is exhibited. Moreover, since the materials and shapes (length, thickness, and shape) of the links 222 to 225 are the same, the bending state of the paired links becomes uniform, and a more stable parallel spring effect is exhibited.

  When the user removes his / her finger from the switch knob 22b, the positions of the switch knob 1a and the link fixing portion 221 are returned to the initial positions shown in FIG. 4 by the elastic force of the links 222-225.

  As described above, the links 222 to 225 which are fixed to the link fixing portion 221 and stabilize the posture of the switch knob 1a are molded integrally with the case 2, so that the switch knob is positioned by the link. In the structure, the increase in the number of parts can be suppressed, the configuration can be simplified, and the play between the link and the switch knob can be eliminated.

  Further, as shown in FIGS. 7 and 8, positioning is performed by having a portion sandwiched between rails 82 and 83, and the tact switch 84 is pushed by a user's pressing operation as indicated by an arrow 85. In the conventional switch knob 81, the gap between the rail 82 and the rail 83 causes the switch knob 81 to tilt as indicated by an arrow 86, or the switch knob 81 is positioned in the direction indicated by the arrow 87. The appearance may worsen by going down. However, since the switch knobs 1a to 1f in the switch structure as in the present embodiment are not positioned by the rail, there is a low possibility that such a problem will occur.

  Moreover, in the switch structure of the type supported by such rails 82 and 83, in order to prevent the switch knob from shaking due to the vibration of the vehicle on which the switch structure is mounted and the instrument panel, an unpleasant sound is generated. There has been a case in which a preload is generated between the switch knob and the case by pressing the flange portion of the switch knob 81 against the case using the elastic reaction force of the tact switch rubber. In such a case, when the hand is released after the switch knob is pressed, the flange portion and the case may hit strongly and an unpleasant sound may be generated. However, in the switch structure as in the present embodiment, it is not necessary to apply a preload, so the possibility of such a problem occurring is reduced.

Further, as shown in FIG. 9, the hinge type switch knob 91 that is rotatably fixed to the case 92 at one end and is in contact with the tact switch 93 at the other end is operated by a user's pressing operation as indicated by an arrow 95. As a result, the tact switch 93 is greatly inclined, and the operation feeling of the switch knob 91 may be deteriorated. However, the switch knobs 1a to 1f in the switch structure as in the present embodiment are less likely to cause such a problem because the posture change due to pressing is small.
(Second Embodiment)
Next, only a different part from 1st Embodiment is demonstrated about 2nd Embodiment of this invention. FIG. 10 shows a cross-sectional view of the movable portion 22a according to the present embodiment and the periphery thereof in the same format as FIG. In the present embodiment, the switch knob 1a is made of a member (for example, acrylic resin) having a property of diffusing and transmitting a part of visible light, and is almost at the end near the link fixing portion 221 on the upper surface. It has the indicator part 11 which consists of transparent resin.

  The movable portion 22a is made of a member that does not transmit visible light. Further, the position where the link fixing portion 221 is fixed to the switch knob 1a is closer to the center of the switch knob 1a than the indicator portion 11. In this way, the link fixing portion 221 is configured such that the space below the switch knob 1a is in contact with the indicator portion 11 (hereinafter referred to as a first space) and the side where the links 222 to 225 are located. It is divided into a space (hereinafter referred to as a second space).

  Further, an LED 33 is installed on the substrate 3 immediately below the first space, and an LED 34 that emits light of a color different from that of the LED 33 is installed just below the second space. In this way, the light emitted from the LED 33 follows the path as indicated by the arrow 61 and exits from the indicator unit 11 to the outside. At this time, the light emitted from the LED 33 is blocked by the link fixing portion 221, so that the possibility of going out through the second space is reduced. Further, a part of the light emitted from the LED 34 follows the path as indicated by arrows 62 and 63, for example, and exits from the upper surface of the switch knob 1a. As a result, the portion covering the second space of the switch knob 1a appears to emit light. At this time, the light emitted from the LED 34 is blocked by the link fixing portion 221, so that the possibility of going out through the first space is reduced. As described above, the light blocking effect of the link fixing portion 221 reduces the possibility that the light of these two light sources will mix in the lower part of the switch knob 1a, so the LED 33 functions as a light source for the indicator color of the switch knob 1a. The LED 34 functions as a light source for the illumination color of the switch knob 1a. With such a configuration, light from two different light sources can illuminate different parts of the switch knob 1a using the link fixing portion 221 as a partition. Further, in order to cause the switch knob 1a to emit light in different colors at the same time, for example, a complicated configuration such as molding the switch knob 1a in two colors becomes unnecessary.

Further, the tact switch 31a is in contact with the pressing member 230 fixed to the front lower link 224 instead of the link fixing portion 221. In this way, when the switch knob 1 a is pressed, the front lower link 224 is tilted downward, and as a result, the tact switch 31 a is pressed by the pressing member 230.
(Other embodiments)
Although the embodiment of the present invention has been described above, the configuration of the present invention is not limited to the above-described embodiment, and includes various modes that can realize the functions of each component of the present invention. .

  For example, in each of the above embodiments, the switch structure is for in-vehicle use, but the switch structure of the present invention can be used for purposes other than in-vehicle use.

  The switch knob 1a may be fixed to the links 222-225. Further, it may be fixed to the lateral reinforcing portions 226 and 227 or the cross reinforcing portion 228. That is, the switch knob 1a may be fixed to the links 222 to 225 or the link fixing portion 221 directly or indirectly.

  The rear lower fixed portion side contact 68, the rear lower case side contact 69, the front lower fixed portion side contact 73, and the front lower case side contact 74 are respectively a rear upper fixed portion side contact 66, a rear upper case side contact 67, The front upper fixed portion side contact 71 and the front upper case side contact 72 may be vertically below. That is, it is sufficient that the contact deviation direction is not perpendicular to the switch knob pressing direction.

  Moreover, in the said embodiment, although each link 222-225 is united with the link fixing | fixed part 221, the link fixing | fixed part 221 and each link do not necessarily need to be formed integrally.

  Further, one link fixing unit 221 has two pairs of links, that is, a total of four links are connected, but only one pair of links may be connected.

  Moreover, the case 1 and the fixing part 21 may be further firmly fixed by catching by a pawl shape.

  Further, the thickness of the rear lower links 222 to 225 may be constant without changing, and the mode of change of the thickness may be different for each of the links 222 to 225.

  The tact switch 31 may be replaced with a membrane sheet or the like. That is, it is sufficient that the tact switch 31 is a contact (corresponding to a press-type switch) that is electrically turned on / off when pressed.

It is a perspective view which shows schematic structure before the assembly | attachment of the switch structure which concerns on embodiment of this invention. 3 is a top view of case 2. FIG. 4 is an enlarged view of a vicinity of a movable part 22a of the case 2. FIG. It is AA sectional drawing of the switch knob 1a. It is a front view showing the state where the center part of switch knob 1a was pushed down. It is a front view showing the state by which the edge part of the switch knob 1a was pushed down. It is a front view showing the state where the end of switch knob 22b was pushed down. It is a figure showing the inclination of the switch knob 81 supported by the rails 82 and 83. FIG. It is a figure showing the position shift of the switch knob 81 supported by the rails 82 and 83. FIG. It is AA sectional drawing of the switch knob 1a in 2nd Embodiment. It is a side view of the conventional switch structure.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Switch knob, 2 ... Case, 3 ... Board | substrate, 11 ... Indicator part, 22 ... Movable part,
31 ... tact switch, 32 ... screw hole, 33, 34 ... LED, 51,52 ... pressing direction,
61-63 ... light path, 66 ... rear upper fixed part side contact, 67 ... rear upper case side contact,
68: Rear lower fixed part side contact, 69: Rear lower case side contact,
71 ... front upper fixed part side contact, 72 ... front upper case side contact,
73 ... front lower fixed part side contact, 74 ... front lower case side contact, 81 ... switch knob,
82 ... Rail, 83 ... Rail, 84 ... Tact switch, 85 ... Pressing direction, 86 ... Arrow,
87 ... Arrow, 91 ... Switch knob, 92 ... Case, 93 ... Tact switch,
95 ... Pressing direction, 100 ... Switch knob, 101 ... Keyboard board,
102, 103 ... link, 104-107 ... fixing bracket, 221 ... link fixing part,
222 ... rear lower link, 223 ... rear upper link, 224 ... front lower link,
225 ... Front upper link, 226 ... Lateral reinforcement, 227 ... Lateral reinforcement,
228 ... cross reinforcing part, 230 ... pressing member.

Claims (7)

The case (2) provided with an opening in the upper part, the push-type switches (31a to f) provided in the case, and the vicinity of the opening, and by moving in response to a pressing operation by the user, An operation unit (1a to f, 22a to f) for pressing the push type switch,
The operation unit is
A first link (225) provided in the case by integral molding with the case and having elasticity in the pressing direction of the operation unit;
A second link (224) provided inside the case by integral molding with the case and having elasticity in the pressing direction of the operation portion;
A link fixing portion (221) to which ends of the first link and the second link in a direction opposite to the case side are fixed;
A switch knob (1a-f) fixed to at least one of the first link, the second link, and the link fixing portion;
The direction from the contact (71) between the first link and the link fixing portion to the contact (73) between the second link and the link fixing portion is parallel or oblique to the pressing direction of the switch knob. And
The direction from the contact point (71) between the first link and the link fixing portion to the contact point (72) between the first link and the case is the contact point between the second link and the link fixing portion ( 73) to a contact point (74) between the second link and the case, the switch structure. The linear distance from the contact (71) between the first link and the link fixing portion to the contact (72) between the first link and the case is the contact between the second link and the link fixing portion. 2. The switch structure according to claim 1, wherein the switch structure is equal to a linear distance from a contact point (74) between the second link and the case. 3. The switch structure according to claim 1, wherein the first link and the second link do not overlap each other when viewed from above the opening. The switch knob includes a member having a property of transmitting visible light and covers an upper portion of the link fixing portion.
The link fixing portion includes a member having a property of not transmitting visible light, and is disposed so as to partition the lower portion of the switch knob into a first space and a second space,
The switch structure includes a first light emitter (33) disposed at a position where light travels upward from the first space;
The switch according to any one of claims 1 to 3, further comprising a second light emitter (34) disposed at a position where light travels upward from the second space. Construction. The switch knob includes a member having a property of transmitting visible light,
The first link, the second link, and the link fixing portion include a member having a property of transmitting visible light,
The switch structure includes a first light emitter (33) that illuminates the switch knob, the first link, the second link, and the link fixing portion from below. 4. The switch structure according to any one of 3 above. The operation unit is
A third link (223) provided inside the case by integral molding with the case and having elasticity in the pressing direction of the operation portion;
A fourth link (222) provided integrally with the case inside the case and having elasticity in the pressing direction of the operation portion;
The link fixing portion is configured to fix an end portion of the third link and the second link opposite to the case side,
The direction from the contact (66) between the third link and the link fixing portion to the contact (68) between the fourth link and the link fixing portion is parallel or oblique to the pressing direction of the switch knob. And
The direction from the contact (66) between the third link and the link fixing portion to the contact (67) between the third link and the case is the contact between the fourth link and the link fixing portion ( 68. The switch structure according to claim 1, wherein the switch structure is parallel to a direction from a contact point (69) between the fourth link and the case to the contact point (69). The contact (71) between the first link and the link fixing portion and the contact (73) between the second link and the link fixing portion are at one end of the fixing portion,
The contact point (66) between the third link and the link fixing portion and the contact point (68) between the fourth link and the link fixing portion are at the other end of the fixing portion. 6. The switch structure according to 6.

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