JP6296708B2 - Sliding switch - Google Patents

Description

  According to the present invention, electrical connection is achieved when the contact portion of the contact comes into contact with the terminal plate, and an operation signal such as a shift lever is generated by generating an electrical signal corresponding to the relative position of the movable member to the terminal block. The present invention relates to a sliding type switch that can detect the position of.

  In general, an automobile equipped with an automatic transmission is provided with a sliding switch called a shift switch for detecting the position of an operating means such as a shift lever. For example, as disclosed in Patent Document 1 and Patent Document 2, such a sliding switch is connected to a terminal block in conjunction with a plurality of terminal plates extending on the terminal block and operating means such as a shift lever. On the other hand, the movable member has a movable member and a contact formed on the movable member and capable of sliding on the terminal board as the movable member moves.

  In addition, contact portions that are slidable while being in contact with the pair of terminal plates are formed at predetermined portions of the contact, and the movable member is connected to the terminal block in conjunction with operation means such as a shift lever. The contact portion of the contactor is in contact with the terminal board while sliding on the upper surface of the contact plate, and electrical conduction is achieved, and a convex portion is formed between the pair of contact portions. In the process in which the child slides on the terminal plate, the contact portion can be separated from the terminal plate by the convex portion climbing on the riding portion formed at a predetermined position of the terminal block. Accordingly, it is possible to detect the position of the operating means such as the shift lever by generating an electrical signal corresponding to the relative position of the movable member to the terminal plate.

JP-A-5-325731 JP 2003-59372 A

  However, in the above-described conventional sliding type switch, the contact portion of the contact is slid while being in line contact with the terminal plate, so that the movable member moves and the contact portion of the contact becomes the terminal plate. When sliding over, contact surface pressure may be insufficient, or the contact may be tilted during sliding, and either one of the pair of contact portions may be separated from the terminal board. . As described above, when the contact surface pressure is insufficient or the contact portion is separated from the terminal plate due to the inclination, the electrical continuity between the contact and the terminal plate becomes poor, and the detection accuracy of the position of the operating means is poor. There was a problem that would get worse.

  The present invention has been made in view of such circumstances, and can maintain the contact of the contact with the terminal plate well, improve the contact surface pressure, and detect the position of the operating means. An object of the present invention is to provide a sliding switch capable of improving accuracy.

The invention according to claim 1 is formed on the plurality of terminal plates extending on the terminal block, a movable member movable relative to the terminal block in conjunction with the operating means, and formed on the movable member. A contactor that can slide on the terminal plate as the movable member moves, and a contact portion that is formed on the contactor and that can slide while making contact with each of the pair of terminal plates, Electrical contact is achieved when the contact portion of the contact comes into contact with the pair of terminal plates, and the position of the operating means is determined by generating an electrical signal corresponding to the relative position of the movable member to the terminal block. in the sliding-type switches that are detectable, contact contact portion of the contact, respectively point contact with the terminal plate by being a folded curved shape in both the thickness direction and the width direction of the contact However, it is slidable while being movable. The wood, with accommodation recess capable of accommodating the contacts are formed, when the movable member is moved, the contact is characterized in that it is a tiltable in the accommodating recess.

  According to a second aspect of the present invention, in the sliding switch according to the first aspect, the contact portion is formed in a spherical shape so that it can be slid while being in point contact with the terminal board. Features.

According to a third aspect of the present invention, in the sliding switch according to the first or second aspect , a convex portion is formed between the contact portions of the contact, and the contact is formed on the terminal board. In the sliding process, the contact portion can be separated from the terminal plate by climbing on a riding portion formed at a predetermined position of the terminal block.

According to a fourth aspect of the present invention, in the sliding switch according to the third aspect , the convex portion can be climbed while being in line contact or surface contact with the riding portion.

According to the present invention, the contact portions of the contacts, so were slidable with point contact with the terminal plate, it is possible to maintain good contact with the terminal plate of the contact, The contact surface pressure can be improved, and the detection accuracy of the position of the operating means can be improved.
In addition, the movable member is formed with an accommodating recess that can accommodate the contact, and when the movable member moves, the contact can be tilted in the accommodating recess. By tilting the contact in the accommodating recess, it is possible to avoid excessive load being applied to the contact during movement of the movable member and to allow the contact to smoothly follow the movable member. Since the contact portion of the contact slides while making point contact with the terminal plate, the contact with the terminal plate can be reliably performed even when the contact is inclined.

  According to the invention of claim 2, since the contact portion is formed into a spherical shape and is slidable while making point contact with the terminal board, the spherical curvature (R) is arbitrarily set. The contact surface pressure of the contact with respect to the terminal plate can be appropriately maintained, and the sliding of the contact with respect to the terminal plate can be performed smoothly.

According to invention of Claim 3 , while a convex part is formed between the contact parts in a contactor, the said convex part is formed in the predetermined position of a terminal block in the process in which the said contactor slides on a terminal board. Since the contact portion is configured to be separated from the terminal plate by riding on the raised portion, it is possible to reliably perform electrical continuity with respect to the terminal plate of the contactor and interruption of electrical continuity, The position of the operating means can be detected with higher accuracy.

According to the fourth aspect of the present invention, since the convex portion can be climbed while making line contact or surface contact with the riding portion, the raising of the convex portion to the riding portion is performed more stably and reliably. Can be made.

The top view which shows the terminal block in the sliding switch which concerns on embodiment of this invention A plan view showing a body member and a movable member in the sliding switch A perspective view showing a terminal block and a contact in the sliding switch Sectional drawing which shows the contact state of the contact with the terminal board in the same sliding switch Sectional drawing which shows the separation state of the contact with respect to the terminal board in the same slide type switch Front view and side view showing contacts in the sliding switch A perspective view showing a contact in the sliding switch

Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.
The sliding switch according to the present embodiment is applied to an automatic transmission control switch that can be assembled to an automobile and can detect the position of a shift lever of the automatic transmission. As shown in FIGS. A body member 3 to which a movable member 4 is attached is assembled to a terminal block 1 on which a plurality of terminal plates 2 are formed to constitute a housing, and a contactor 5 is formed on the movable member 4. .

  The terminal block 1 is formed by molding a predetermined resin material into a predetermined shape, and a plurality of terminal plates 2 made of a conductive member such as a metal plate material are insert-molded at the predetermined position. These terminal plates 2 extend in an arc shape along the rotation direction of the movable member 4 and are fixed by being embedded in a resin material while facing the outside while being spaced apart from each other by a predetermined distance. The terminal block 1 is formed with a fitting hole 1a into which the rotation center portion 4a of the movable member 4 can be fitted, and each terminal plate 2 is formed in an arc shape around the fitting hole 1a. Yes.

  A connector portion 1b is integrally formed at a predetermined portion of the terminal block 1, and a connector terminal (not shown) that is electrically connected to the terminal plate 2 is formed on the connector portion 1b. For example, an ECU (Engine Control Unit) of the vehicle is electrically connected through the connector terminal, and the electrical signal generated when the contactor 5 comes into contact with the pair of terminal plates 2 to be conductive. Can be transmitted to the vehicle side.

  The body member 3 is formed by molding a predetermined resin material into a predetermined shape, and a recess 3 a is formed on the surface facing the terminal block 1. The movable member 4 can be accommodated in the recess 3a so as to be rotatable about the rotation center 4a. The movable member 4 is connected to a shift lever (operation means) of an automobile via a wire or the like, and can rotate in the recess 3a in conjunction with the operation of the shift lever.

  2 indicates a seal member such as packing formed along the edge of the recess 3a, and the recess 3a can be sealed when the body member 3 is assembled to the terminal block 1. Yes. Thereby, it can prevent that a water, a foreign material, etc. permeate into the recessed part 3a, and avoid exposing the terminal board 2 and the movable member 4 which are located in the recessed part 3a to a water, a foreign material, etc. Can do.

  The contact 5 is assembled in an accommodation recess 4b formed at a predetermined position of the movable member 4, and is moved in accordance with the movement of the movable member 4 (that is, a rotation operation around the rotation center portion 4a). It is made of a metal member that can slide on the plate 2. As shown in FIGS. 4 to 7, the contact 5 is composed of parts obtained by bending a metal plate material, and a pair of left and right slidable while being in contact with a pair of adjacent terminal plates 2. The contact portion 5a includes a convex portion 5b formed between the contact portions 5a, a seat portion 5c, and a tapered portion 5d.

  As shown in FIGS. 4 and 5, the seat portion 5 c includes a portion that receives a spring 7 that biases the contact 5 toward the terminal plate 2. That is, as shown in the figure, the contact 5, the spring 7 and the ball member 8 are housed in the housing recess 4 b of the movable member 4, and one end of the spring 7 is placed on the seat 5 c of the contact 5. It is assembled in a state where the end is in contact with the ball member 8, and the contactor 5 is always pressed against the terminal plate 2 side by the urging force of the spring 7.

  An insertion hole 4c is formed in the top surface (bottom) of the housing recess 4b so that the ball member 8 can be fitted and a part thereof can face the outside. Thus, when the movable member 4 rotates in conjunction with the shift lever, the contact 5 is pressed against the terminal plate 2 by the urging force of the spring 7 to ensure contact pressure, and the ball member 8. Is slid on the bottom surface while being pressed toward the bottom surface of the recess 3a of the body member 3 by the urging force of the spring 7.

  As described above, the spring 7 can ensure the contact pressure of the contact 5 with respect to the terminal plate 2, can be slid by the ball member 8, and can smoothly move the movable member 4. Can do. The spring 7 has a function of urging the contact 5 toward the terminal plate 2 and a function of urging the ball member 8 to slide on the surface of the body member 3 (the bottom surface of the recess 3a). Therefore, the number of parts can be reduced as compared with the case where each urging member is provided. Instead of the spring 7, other general-purpose urging means may be used, and instead of the ball member 8, a pin-shaped member having a tip end in an arc shape (R shape) may be used.

  Further, tapered portions 5d are formed on the left and right side surfaces of the contact 5, and the contact 5 can be allowed to tilt in the left and right directions in FIGS. Note that the contact 5 is also allowed to incline toward the front side and the depth direction in FIGS. Thus, when the movable member 4 rotates (moves) in the recess 3a, the contact 5 tilts in the housing recess 4b, so that friction during sliding on the terminal board 2 and riding on the lifting portion 6 occur. It is possible to release the load applied by raising it. Therefore, when the movable member 4 rotates (moves) in the recess 3a, an excessive load can be avoided from being applied to the contact 5, and the contact 5 can be caused to smoothly follow the movable member 4. it can.

  Thus, when the movable member 3 rotates in the recess 3a in accordance with the operation of the shift lever, the contact 5 moves along the arc shape of the terminal board 2, and the movement is shown in FIG. As described above, the left and right contact portions 5a can be slid with respect to the adjacent terminal plates 2 (that is, slid in an arc shape). Further, as shown in FIGS. 1 and 3, a ride-up portion 6 is formed at a predetermined position between the adjacent terminal plates 2.

  The riding-up portion 6 is formed of a convex portion integrally formed with the terminal block 1, and as shown in FIG. 5, the convex portion 5 b of the contact 5 is moved in the process of sliding the contact 5 on the terminal plate 2. It is configured that the contact portion 5 a can be separated from the terminal plate 2 by riding on the ride-up portion 6. That is, when the contact 5 reaches the climbing portion 6 in the process of sliding on the terminal board 2, the convex portion 5 b interferes with the climbing portion 6, and the contact 2 as a whole resists the biasing force of the spring 7. Therefore, the contact portion 5a is separated from the terminal plate 2. In addition, the edge part of the riding-up part 6 is formed in the taper shape, and can raise the convex part 5b smoothly.

  With this configuration, the contact portion 5a of the contactor 5 comes into contact with the pair of terminal plates 2 to achieve electrical continuity, and the contactor 5 rides on the ride-up portion 6 so that the contact portion 5a becomes a pair of The electrical continuity is cut off by being separated from the terminal plate 2, and an electrical signal corresponding to the relative position of the movable member 4 to the terminal block 1 (that is, the contact portion 5 a of the contact 5 is connected to the terminal plate 2). The position of the shift lever (operating means) can be detected by generating an electrical signal generated by contacting or separating the switch.

  In the present embodiment, the contact portion 5a is separated from the terminal plate 2 by the convex portion 5b riding on the ride-up portion 6, but the terminal is intermittently provided along the rotation direction of the movable member 3, for example. The plate 2 is formed, and the contact portion 5a of the contactor 5 is brought into contact with the pair of terminal plates 2 so that electrical conduction is achieved, and the electrical conduction is interrupted at the intermittent portion. Also good. Even in this case, an electric signal corresponding to the relative position of the movable member 4 with respect to the terminal block 1 (that is, an electric signal generated when the contact portion 5a of the contactor 5 is in contact with the terminal plate 2 or separated at the intermittent portion). ) Can be used to detect the position of the shift lever (operation means).

  Here, the contact 5 according to the present embodiment is slidable while the contact portion 5 a is in point contact with the terminal plate 2. Specifically, as shown in FIG. 7, the contact portion 5 a of the contact 5 according to the present embodiment is arranged in both the a direction (thickness direction of the contact 5) and the b direction (width direction of the contact 5). The spherical shape is bent and has a predetermined curvature R, and is slidable in contact with the upper surface of the terminal plate 2 in a point-like manner.

  For example, with respect to a metal plate material that is a material of the contact 5, a notch is formed by trimming a portion corresponding to the contact portion 5 a and a portion corresponding to the convex portion 5 b by trimming, and the contact portion 5 a. The portion corresponding to is pressed in the b direction and bent, and then pressed in the a direction and bent to form a spherical contact portion 5a bent in both the a direction and the b direction, and the a direction. The contactor 5 having the convex portion 5b bent only on the surface can be obtained. Here, since the convex part 5b of the contactor 5 is bent only in the a direction, the convex part 5b can be lifted while being in line contact or surface contact with the riding part 6.

  According to the above embodiment, the contact portion 5a of the contactor 5 is slidable while making point contact with the terminal plate 2, so that the biasing force of the spring 7 is concentrated on the point contact portion. Contact surface pressure can be improved. Therefore, the contact of the contact 5 with the terminal plate 2 can be maintained well, the contact surface pressure can be improved, and the detection accuracy of the position of the operating means such as the shift lever can be improved.

  In addition, since the contact portion 5a according to the present embodiment is formed into a spherical shape and is slidable while being in point contact with the terminal plate 2, the spherical curvature (R shape) is arbitrarily set. The contact surface pressure of the contact 5 with respect to the terminal plate 2 can be appropriately maintained, and the sliding of the contact 5 with respect to the terminal plate 2 can be performed smoothly. Furthermore, since the spherical shape of the contact portion 5a is obtained by bending by pressing in two directions orthogonal to each other (direction a and direction b in FIG. 7), a spherical shape having a desired curvature (R shape) is obtained. It can be formed easily.

  Furthermore, in the present embodiment, a convex portion 5b is formed between the contact portions 5a of the contactor 5, and the convex portion 5b is connected to the terminal while the contactor 5 slides on the terminal plate 2. Since the contact portion 5a can be separated from the terminal plate 2 by climbing on the riding portion 6 formed at a predetermined position of the table 1, the electrical continuity and electrical connection of the contact 5 to the terminal plate 2 are achieved. The conduction can be reliably interrupted, and the position of the operating means such as the shift lever can be detected more accurately. In particular, according to the present embodiment, the convex portion 5b of the contactor 5 can be climbed while being in line contact or surface contact with the climbing portion 6, so that the convex portion 5b rides on the climbing portion 6. Raising can be performed more stably and reliably.

  Furthermore, the movable member 4 according to the present embodiment is formed with a housing recess 4b capable of housing the contact 5, and when the movable member 4 moves (turns), the contact 5 is moved into the housing recess. Since it is possible to incline within 4b, when the movable member 4 moves, the contactor 5 inclines within the accommodating recess 4b, so that an excessive load is applied to the contactor 5 when the movable member 4 moves. The contact 5 can be made to smoothly follow the movable member 4 and the contact portion 5a of the contact 5 slides while being in point contact with the terminal plate 2, so that the contact 5 Even if tilted, contact with the terminal plate 2 can be reliably performed.

  That is, when the contact 5 is in linear contact with the terminal plate 2 (line contact), if the contact 5 is inclined in the housing recess 4b, one end of the contact portion 5a floats upward. However, in the present embodiment, the contact portion 5a of the contactor 5 makes point contact with the terminal plate 2 while the floating portion may be separated from the terminal plate 2. Even if 5 inclines in any direction, the contact state with respect to the terminal board 2 can be kept constant. In the present embodiment, the tapered portions 5d are formed on both side surfaces of the contactor 5, thereby allowing the contactor 5 to be inclined (inclination in the width direction of the contactor 5) in the housing recess 4b. Therefore, the taper portion 5d makes it possible to more easily and smoothly insert the contact 5 into the housing recess 4b.

Having described the present embodiment, the present invention is not name limited thereto.

Also, in place of the seat 5c of the spring 7 in the contact 5, a separate seat which can undergo one end of the spring 7 (in this case, the spring 7 a seat for receiving the biasing means different forms May also be formed. In this embodiment, the movable member 4 is rotated in conjunction with the operation means so that the contact 5 can slide in an arc shape. However, the movable member is interlocked with the operation means. It is good also as a structure which the contactor 5 can slide linearly (namely, it slides on the terminal board extended in substantially linear form) by moving to substantially linear form.

Contact contact portion of the contact may be slidable while contacting each point with respect to the terminal plate by being a folded curved shape in both the thickness direction and the width direction of the contacts, and, the movable member Is a sliding switch in which an accommodation recess capable of accommodating a contact is formed and the contact can be tilted in the accommodation recess when the movable member moves. Or may be applied to other sliding switches.

DESCRIPTION OF SYMBOLS 1 Terminal block 2 Terminal board 3 Body member 4 Movable member 5 Contact 5a Contact part 5b Convex part 6 Riding part 7 Spring 8 Ball member 9 Contact 10 Contact

Claims (4)

A plurality of terminal boards extending on the terminal block;
A movable member movable relative to the terminal block in conjunction with the operating means;
A contactor formed on the movable member and capable of sliding on the terminal board as the movable member moves;
A contact part formed on the contact and slidable in contact with each of the pair of terminal boards;
The contact portion of the contact is brought into contact with the pair of terminal plates so that electrical continuity is achieved, and the electrical signal is generated according to the relative position of the movable member with respect to the terminal block. In the sliding type switch capable of detecting the position of the operation means,
Contact contact portion of the contact is slidable while being in contact respectively point to the terminal plate by being a folded curved shape in both the thickness direction and the width direction of the contacts, and, the The movable member is formed with an accommodation recess capable of accommodating the contact, and when the movable member moves, the contact can be tilted in the accommodation recess. switch.   2. The sliding switch according to claim 1, wherein the contact portion is formed in a spherical shape so as to be slidable while making point contact with the terminal board. A convex portion is formed between the contact portions of the contactor, and the convex portion is formed in a predetermined position of the terminal block in the process of sliding the contactor on the terminal board. The sliding switch according to claim 1 or 2 , wherein the contact portion is configured to be separated from the terminal board by being ridden. 4. The sliding switch according to claim 3 , wherein the convex portion can be climbed while being in line contact or surface contact with the climbing portion.

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