JP3763044B2 - Multi-directional switch - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a multidirectional switch in which a multidirectional switch is operated by a single operation lever.
[0002]
[Prior art]
Conventionally, a multidirectional switch has been developed for remote control or the like in which a single operation lever is tilted to a plurality of positions in the circumferential direction so that a switch operation can be performed for each operation direction.
[0003]
In recent years, for example, in a small computer device, an operation for moving the cursor on the display up, down, left and right, and an operation for selecting and executing the menu after moving the cursor on the menu displayed on the display are performed. Multi-directional switches that can be operated with a single control lever have been developed. As shown in FIG. 12, this conventional multi-directional switch supports the casing 1 so that the operation lever 2 can be inclined in the circumferential direction and at the same time can be pushed in the axial direction. A central switch 3 composed of a push button switch that is pressed by the lower end of the lever 2 is installed, and an actuator 4 that slides in a horizontal direction in accordance with the inclination of the operation lever 2 is accommodated in the casing 1. The plurality of movable contact pieces 5, 5... On the lower surface of 4 and the fixed contacts 7, 7... Provided on the surface of the bottom plate 6 constitute a plurality of outer peripheral switches, and the operation lever 2 is tilted, whereby the actuator 4 So that the movable contact piece 5 conducts between the pair of fixed contacts 7 or 7 on the moving direction side. Going on (actual Hei 5-62932 Patent Publication).
[0004]
In addition, as shown in FIG. 13 (a) or (b), this type of conventional multi-directional switch has fixed contacts 7, 7,... In a single or double direction in four directions along each side of the housing. An arrangement in which four switching terminals are switched and connected to two common terminals has been developed.
[0005]
[Problems to be solved by the invention]
Since the conventional multi-directional switch as described above slides the movable contact piece and conducts between the contacts on the slide side, one common terminal or two fixed contacts connected to the two common terminals are switched. Because it is necessary to correspond to the fixed contact connected to the terminal, there is a limit on the routing of the common terminal on the same plane, and the terminal plate shape must be larger as the number of terminals increases, There was a problem that it could not be downsized.
[0006]
In addition, since the return operation to the neutral position of the actuator is performed by a spring that presses from four directions, there is a problem that the number of parts increases, the number of manufacturing and assembly steps increases, and the cost increases.
[0007]
In view of such a conventional problem, the present invention is intended to provide a multi-directional switch that is small in size, can have a large number of switching patterns, has a small number of components, and can be provided at low cost.
[0008]
[Means for Solving the Problems]
Features of the invention described in claim 1 for solving the above-mentioned conventional problems, and casing a number of fixed contact is supported in a circular arrangement on the upper surface of the bottom wall, with respect to the casing, of the fixed contact arrangement An actuator supported via a universal mechanism so as to be able to incline in any direction of 360 ° in the horizontal direction around the upper position of the circular center position, and supported on the lower surface of the actuator, A movable contact piece made of a circular ring-shaped flexible conductive material opposed to the circular arrangement, a neutral position return mechanism for returning the actuator to a neutral position by a spring, and an operation lever protruding from the actuator to the outside of the casing; And tilting the actuator by operating the operating lever, so that the lower surface of the movable contact piece has at least two fixed bottom surfaces. Oite multidirectional switch comprising as to conduct between the fixed contacts in contact with the contact,
[0009]
The neutral position return mechanism is fitted in a guide hole opened in the bottom surface of the actuator so as to freely enter and exit, and a return operation piece whose downward tip is a flat surface perpendicular to the access direction, and the return operation piece A return operation spring comprising a coil spring urging in the direction of projecting from the inside of the guide hole, and a flat surface at the tip of the return operation piece is pressed against the upper surface of the bottom wall of the casing by the return operation spring. Keep the actuator neutral,
A push button switch is provided below the center of the lower wall of the casing, and a bar-like key stem penetrating vertically through the center of the actuator and the center of the return operation piece is provided, and the return operation spring is provided between the key stem and the return operation piece. Intervening, and urging the return operation piece in the downward projecting direction by the return operation spring, and simultaneously urging the key stem toward the upward return position ,
When the actuator is in the neutral position, the operation button of the push button switch is operated by the lower end of the key stem by the pressing operation.
[0010]
According to a second aspect of the present invention, in addition to the configuration of the first aspect, the universal mechanism is a swing that rotatably supports a pair of actuator support shafts that protrude from the actuator to a symmetrical position thereof. A pair of oscillating ring spindles that protrude in a direction perpendicular to the actuator spindle on the outer periphery of the oscillating ring are rotatably supported in bearing grooves formed on the inner surface of the peripheral wall of the casing. This is because it was made to configure.
[0011]
[Action]
In the present invention, when the operating lever is not operated, the actuator is biased to the neutral position by the action of the return operation spring, and the circular ring-shaped movable contact piece is opposed to the circularly arranged fixed contact. . When the operating lever is tilted in either direction from this state, the actuator is tilted, so that the lower surface of the movable contact piece is brought into contact with the opposing fixed contact, and further tilted so that the movable contact piece is pressed. 2 and 3 are brought into contact with each other and conducted between them. In this way, by changing the tilting direction of the operation lever, the fixed contacts that are electrically connected to each other change, and various types of switching can be obtained.
[0012]
Further, when the return operation piece is pressed by a spring, the flat surface at the tip of the piece is urged in a direction parallel to the bottom surface of the casing, and is always urged toward the neutral position.
In addition, when the actuator is in the neutral position, the pushbutton switch is operated by pressing the key stem in the axial direction, causing the car navigation and PC cursor operations to be performed by tilting the lever, and executing the menu by pushing down the key stem. It can be used to make it happen by the action of.
Further, the neutral position return operation piece is pushed down and the key stem is pushed up by one coil spring.
[0013]
【Example】
Next, an embodiment of the present invention will be described with reference to FIGS.
[0014]
In the figure, reference numeral 10 denotes an insulating casing. The casing 10 has an actuator housing portion that is open upward and is surrounded by a bottom wall 11 and a peripheral wall formed integrally therewith, and an actuator 20 (to be described later) is housed therein. An upper lid 25 is fixed to the upper surface of the casing 10, thereby preventing the actuator 20 from coming off.
On the upper surface of the bottom wall 11 of the casing 10, as shown in FIG. 9, fixed contacts A, B... H having eight trapezoidal trapezoidal shapes in a circular arrangement centering on the center of the bottom wall are formed by insert molding. Integrated and supported.
[0015]
Further, a push button switch accommodating portion 12 is formed below the center of the bottom wall 11 of the casing 10, and a push button switch 13 made of a metal tact switch is accommodated therein, and the operation button 14 is a through hole at the center of the bottom wall. 15 is inserted.
[0016]
An actuator 20 is accommodated in the casing 10. The actuator 20 is supported via a universal mechanism so as to be inclined in any direction of 360 ° in the horizontal direction, with the center upper position of the circular arrangement of the fixed contacts A to H as the rotation center. The universal mechanism includes an actuator shaft 21 that protrudes on the left and right symmetrical positions from Akucheeta 20, the swinging ring 22 and the swing ring 22 supported to both the actuator shaft 21 rotatably On the outer periphery of the swing ring support shafts 23, 23 projecting in a direction perpendicular to the actuator support shafts 21, 21, and on the inner surface of the casing that rotatably supports the swing ring support shafts 23, 23, that is, on the inner surface of the peripheral wall The bearing grooves 24 and 24 are formed. Incidentally, on the upper side of the swinging ring support shafts 23, 23 are formed into fan-shaped segments 22a, 22 a is integral with the arc of swing ring shaft concentric, which is brought into contact with the upper cover 25 of the casing It has been retained.
[0017]
An operation lever 26 is integrally projected on the upper portion of the actuator 20, and a movable contact piece 27 having a circular ring shape is supported on the lower surface so as to protrude downward. The movable contact piece 27 is formed of flexible conductive rubber and is supported in an arrangement opposite to the circular arrangement of the fixed contacts A to H described above, and is pressed against the fixed contact by tilting the actuator 20. Because of its flexibility, it is bent and tilted so that it contacts two or three fixed contacts on the side and makes them conductive with each other.
[0018]
That is, as shown in FIG. 9, when the operating lever 26 is tilted to the intermediate position side of adjacent fixed contacts, for example, the N direction side between AB, with normal operating force, the two fixed contacts AB on both sides are electrically connected. In addition, when tilted to the center side of any one of the fixed contacts, for example, to the WSW side at the center of G, the center fixed contact G and the three F and H on both sides thereof are made to conduct at the same time.
[0019]
A neutral position return mechanism and a push button switch operation mechanism are incorporated at the center position of the actuator 20. The neutral position return mechanism is for a return operation comprising a return operation piece 31 that is fitted in a guide hole 30 opened in the bottom surface of the actuator 20 so as to freely enter and exit, and a coil spring that urges the return operation piece 31 in the protruding direction from the inside of the hole 30. is a spring 32., frame 31 the bottom wall upper surface of the downward tip surface has a flat surface 33 of the right angles to and out direction, the flat surface 33 which due to being pushed by the return operation spring 32 casing 10 The actuator 20 is returned to the neutral position by the action of becoming parallel to the actuator .
[0020]
On the other hand, the push-button switch operation mechanism includes a center and a rod-shaped key stem 40 to the center penetrating in upper and lower return operation piece 31 of the actuator 20 is constituted by a returning operation for spring 32 which upwardly energizing it, the The return operation spring 32 shares the return operation spring of the neutral position return mechanism, and is interposed between the key stem 40 and the return operation piece 31.
In the key stem 40, retaining claws 41, 41 project upward on both sides of the upper outer periphery, and these are inserted into the window holes 42, 42 opened in the operation lever 26. The retaining claws 41, 41 are inserted into the window holes 42, 42. 42 is prevented from coming off in the upward direction by being brought into contact with the upper edge of the door 42, and the retaining claws 41, 41 can move in the window holes 42, 42, so that the key stem 40 resists the return operation spring 32 and is an actuator. The inside of 20 can be moved in the push-down direction.
When the actuator 20 is in the neutral position, pressing the upper end of the key stem 40 causes the key stem 40 to move relative to the actuator 20 to be pushed down, and the operation button 14 of the push button switch 13 is operated at the lower end thereof. by releasing the depressing force of the retaining claws 41, 41 by the return operation spring 32 is turned so that returned to the return position abutting the upper edge of the window holes 42, 42.
[0021]
The multi-directional switch configured in this way can use each of the fixed contacts A to H as a matrix, and is based on, for example, a type 1 to 3 switch wiring matrix as shown in FIGS. Connected to the matrix circuit of the IC.
[0022]
FIG. 6 shows a case where conduction is made between the fixed contacts A and B (hereinafter referred to as SW) 1. Similarly, between B and C is SW2, between C and D is SW3, between D and E is SW4, and between E and F. SW4, 4 × 4 matrix comprising SW6 between G and F, SW7 between G and H, SW8 between A and H, and in this case, each fixed contact as shown in FIG. A pattern in which eight of A to H are led out to terminals independently of each other.
[0023]
When a 3 × 4 matrix is formed by 7 terminals A to G as shown in FIG. 7, a pair of fixed contacts A and A at the target position are made conductive on the substrate as shown in FIG. A pattern.
[0024]
Further, when a 2 × 4 matrix is configured with six terminals A to F as shown in FIG. 8, in addition to the pair of fixed contacts A and A in the target arrangement as shown in FIG. A pattern in which C and C fixed contacts in the orthogonal direction are made conductive outside the substrate is used.
[0025]
【The invention's effect】
As described above, the multi-directional switch of the present invention supports the circular ring-shaped movable contact on the lower surface of the actuator that can be tilted in the 360 ° direction, and the fixed contact in a circular arrangement on the casing bottom wall surface facing this. By providing a movable contact between a plurality of fixed contacts on the tilt direction side by the tilting operation of the actuator, a large number of circular contacts can be used as a matrix, and the switch is downsized. The number of output terminals is reduced, and the wiring space of the printed circuit board to which this switch is attached can be increased.
[0026]
Further, as a neutral position return mechanism of the actuator, a structure in which a piece having a flat tip surface is pressed against the bottom surface of the casing by a spring can be configured with a small number of parts, facilitating manufacturing and assembly, and reducing costs.
[0027]
Furthermore, by mounting a push button switch on the bottom of the casing and operating it with a key stem for push button operation that penetrates the actuator, it can be used as a multi-directional control switch for car navigation and personal computers with a simple configuration. In this case, the number of parts can be reduced and the miniaturization can be further promoted by using a single spring for return operation in common for pushing down the return operation piece of the actuator and pushing up the key stem.
[Brief description of the drawings]
FIG. 1 is a plan view of an embodiment of a multidirectional switch of the present invention.
FIG. 2 is a plan view of the same embodiment with a casing top lid removed.
FIG. 3 is a cross-sectional view taken along line AA in FIG.
4 is a sectional view taken along line BB in FIG. 1. FIG.
5 is a cross-sectional view showing the operation state of FIG. 3;
FIG. 6 is a diagram showing type 1 of a switch wiring matrix of the same example;
FIG. 7 is a diagram showing a type 2 of a switch wiring matrix of the same example;
FIG. 8 is a diagram showing type 3 of a switch wiring matrix of the same example;
FIG. 9 is a plan view showing a pattern of fixed contacts corresponding to type 1 shown in FIG. 5;
10 is a plan view showing a fixed contact pattern corresponding to type 2 shown in FIG. 6; FIG.
11 is a plan view showing a fixed contact pattern corresponding to type 3 shown in FIG. 7; FIG.
FIG. 12 is a longitudinal sectional view showing a conventional example.
13A and 13B are plan views showing patterns of fixed contacts used in the conventional example of FIG.
[Explanation of symbols]
A to H fixed contact 10 casing 11 bottom wall 12 receiving portion 13 push button switch 14 operation button 15 through hole 20 actuator 21 actuator support shaft 22 swing ring 22a segment 23 swing ring support shaft 24 bearing groove 25 upper lid 26 operation lever 27 movable Contact piece 30 Guide hole 31 Return operation piece 32 Return operation spring 33 Flat surface 40 Key stem 41 Retaining claw 42 Window hole

Claims (2)

A casing in which a large number of fixed contacts are supported in a circular arrangement on the upper surface of the bottom wall, and on the direction side of 360 ° in the horizontal direction with respect to the casing, the position above the circular center position of the fixed contact arrangement. An actuator supported via a universal mechanism so as to be able to tilt, and a movable contact piece made of a flexible conductive material in a circular ring shape supported on the lower surface of the actuator and opposed to the circular arrangement of the fixed contacts, A neutral position return mechanism that returns the actuator to a neutral position by a spring; and an operation lever that protrudes out of the casing from the actuator, and the actuator is tilted by operating the operation lever. A multi-sided structure in which the lower surface of the inclined side is in contact with at least two or more fixed contacts so that the fixed contacts become conductive. Oite to switch,
The neutral position return mechanism is fitted in a guide hole opened in the bottom surface of the actuator so as to freely enter and exit, and a return operation piece whose downward tip is a flat surface perpendicular to the access direction, and the return operation piece A return operation spring comprising a coil spring urging in the direction of projecting from the inside of the guide hole, and a flat surface at the tip of the return operation piece is pressed against the upper surface of the bottom wall of the casing by the return operation spring. Keep the actuator neutral,
A push button switch is provided below the center of the lower wall of the casing, and a bar-like key stem penetrating vertically through the center of the actuator and the center of the return operation piece is provided, and the return operation spring is provided between the key stem and the return operation piece. Intervening, and urging the return operation piece in the downward projecting direction by the return operation spring, and simultaneously urging the key stem toward the upward return position,
A multi-directional switch, characterized in that, when the actuator is in a neutral position, the operation button of the push button switch is operated by the lower end of the key stem by a pressing operation . The universal mechanism has a swing ring that rotatably supports a pair of actuator support shafts that protrude from the actuator to the left and right symmetrical positions, and the outer periphery of the swing ring has a direction orthogonal to the actuator support shaft. 2. The multi-directional switch according to claim 1, wherein a pair of swinging ring support shafts protruding in a manner are rotatably supported in bearing grooves formed on an inner surface of the peripheral wall of the casing .

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