JP2004235054A - Multiple contact input device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the whole shape of a multiple contact input device having a center switch and a plurality of side switches arranged around the center switch. <P>SOLUTION: A movable electrode 41 comprising a centroclinal snap plate of the center switch S1 and a movable electrode 42 comprising a centroclinal snap plate of the side switch S2 are arranged to be overlapped in a thickness direction of a case H. The movable electrode 42 of the side switch S2 is arranged in an outward-inclining attitude in a radial direction as viewed from the movable electrode 41 of the center switch S1. The movable electrode 42 is placed and supported on an inclined face 23 formed on a body 1. An operating member 6 is provided with a center pressing part 67 and a side pressing part 61. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a multi-contact input device, and more particularly, to a multi-contact input device in which a center switch and each of a plurality of side switches provided around the center switch are opened and closed through operation of an operation member. .
[0002]
[Prior art]
The multi-contact input device is used to operate one or a plurality of operation members to input and output different signals. Among conventional multi-contact input devices of this type, those in which the center switch and each side switch are provided with a movable electrode formed of a snap plate, the movable electrodes formed of the center switch and the snap plate of each side switch are overlapped with each other. It was common to deploy them so they did not fit.
[0003]
However, according to such a conventional multi-contact input device, the housing in which the center switch and the side switch are assembled is such that those movable electrodes formed of dome-shaped snap plates do not overlap in the thickness direction of the housing. Since it is necessary to have a size that can be arranged, there has been a situation where the size of the housing is determined by the size and number of the snap plates forming the movable electrode. Therefore, the idea of arranging these movable electrodes made of snap plates so that they do not overlap in the thickness direction of the housing is a key to reducing the size of the housing and making the overall shape of the multi-contact input device smaller and more compact. Was one of the obstacles.
[0004]
On the other hand, in Prior Example 1 listed as Patent Document 1, a multi-contact input device shown in FIG. 6 is disclosed. This multi-contact input device has a center switch S1 and a plurality of side switches S2 disposed around the center switch S1, and each of the center switch S1 and each side switch S2 is connected to the body 1 and the cover 5. Not only are the fixed electrodes 31 and 32 provided on the body 1 of the housing H and the movable electrodes 41 and 42 formed of dome-shaped snap plates provided on the body 1 but also a center switch S1 A part of the movable electrode 42 of each of the plurality of side switches S2 is disposed so as to overlap with the movable electrode 41 in the thickness direction of the body 1. Further, an operation member 7 capable of individually opening and closing the center switch S1 and each side switch S2 is provided.
[0005]
According to the prior art multi-contact input device, the movable electrode of the center switch and the movable electrodes of the plurality of side switches are arranged so as not to overlap in the thickness direction of the body as in the conventional multi-contact input device described at the beginning. As compared with the above-described configuration, it is possible to reduce the arrangement space of the movable electrodes 41 and 42 by a length commensurate with the overlap width D of the two, and this is achieved by reducing the size of the housing H. This is useful for promoting the miniaturization and compactness of the overall shape of the contact input device. A similar configuration is also disclosed in Prior Example 2 listed as Patent Document 2.
[0006]
Note that in the first prior art, the movable electrode 42 of the side switch S2 is disposed in an overlapping manner on the movable electrode 41 of the center switch S1, whereas in the second prior art, the movable electrode of the center switch is It is arranged in an overlapping manner on the movable electrode. In each of the preceding examples, all the movable electrodes are arranged in a horizontal posture.
[0007]
[Patent Document 1]
JP 2001-283690 A [Patent Document 2]
JP 2001-176357 A
[Problems to be solved by the invention]
However, in the first and second prior art examples, the movable electrode of the center switch and the movable electrode of the side switch are arranged in an overlapping manner in the thickness direction of the housing, so that the arrangement space in the horizontal direction of the movable electrode is reduced. Although it achieves the task of keeping the size small and thereby reducing the size of the housing, the movable electrodes in the thickness direction of the housing are provided by all the movable electrodes being arranged in a horizontal posture. However, there is a problem that the height of the arrangement space is higher than that in which the movable electrodes are arranged so as not to overlap.
[0009]
The present invention has been made in view of the above problems, and is provided with a movable electrode of a center switch and a movable electrode of a side switch arranged in an overlapping manner in a thickness direction of a housing, so that a movable electrode in a horizontal direction is provided. It is an object of the present invention to provide a multi-contact input device having a structure capable of suppressing the height of a space for arranging movable electrodes in the thickness direction of a housing, while being able to reduce the space for arranging the electrodes.
[0010]
In addition, the present invention can reduce the horizontal space for the movable electrode by disposing the movable electrode of the center switch and the movable electrode of the side switch in an overlapping manner in the thickness direction of the housing. It is another object of the present invention to provide a multi-contact input device that can have the same thickness as a multi-contact input device in which movable electrodes are arranged so as not to overlap.
[0011]
[Means for Solving the Problems]
The multi-contact input device according to the present invention includes a center switch and a plurality of side switches disposed around the center switch, each including a movable electrode formed of a dome-shaped snap plate that is pressed down by an operation member, With respect to the movable electrode of the center switch, a part of each movable electrode of each side switch is arranged so as to overlap in the thickness direction of the housing accommodating the center switch and the movable electrode of each side switch. In the contact input device, each movable electrode of each of the side switches is arranged in a tilt posture falling outward in the radial direction with respect to the movable electrode of the center switch.
[0012]
With this configuration, with respect to the movable electrode of the center switch, a part of each movable electrode of each side switch is arranged in an overlapping manner in the thickness direction of the housing that houses them. Therefore, the space required for the movable electrodes in the horizontal direction can be reduced by the dimension corresponding to the overlapping width, and the movable electrodes of each side switch are moved outward in the radial direction with respect to the movable electrode of the center switch. The height of the space for arranging the movable electrodes in the thickness direction of the housing can be reduced as compared with the case where the movable electrodes are arranged horizontally. That is, since the movable electrode of each of the center switch and the side switch is constituted by a dome-shaped snap plate, the dome-shaped movable electrode of the side switch arranged in the inclined position falling outward in the radial direction is formed. The height position of the top of the snap plate is as shown in the first or second prior art example described with reference to FIG. 6, that is, the movable side switch composed of a dome-shaped snap plate disposed in a horizontal posture. Since the height is lower than the height position of the top of the electrode, the height of the space for disposing the movable electrode in the thickness direction of the housing can be reduced accordingly. Therefore, the space required for the movable electrode in the horizontal direction can be reduced, and the height of the space required for the movable electrode in the thickness direction of the housing can be kept low. It is easier to promote the miniaturization and compactness of the product.
[0013]
In the present invention, it is desirable that the top of the movable electrode of the center switch and the top of each movable electrode of each side switch be disposed at the same or substantially the same height. According to this, the thickness of the housing is the same as that of the housing of the multi-contact input device in which the movable electrode of the side switch is arranged so as not to overlap the movable electrode of the center switch in the thickness direction of the housing. It becomes possible to make it even thinner.
[0014]
In the present invention, the operating member may include a center pressing portion for pressing down a center portion of the movable electrode of the center switch, and a movable electrode of one of the side switches when the operating member is swung about the center pressing portion. And a side pressing portion that presses down the center portion of the center switch, whereby the switching mode of the center switch and the side switch can be selectively switched by one operating member.
[0015]
According to the present invention, the movable electrode having the inclined posture of the side switch has an inclined posture determined such that the movable electrode is bent and displaced in the radius direction of curvature when the center portion thereof is pressed down by the side pressing portion of the operation member. Is desirable. According to this, the movable electrode of the side switch formed of a dome-shaped snap plate performs a reasonable and appropriate snap operation even though it is arranged in an inclined posture, so that the feel when operating the operation member is improved. It will be kept well.
[0016]
In the present invention, the movable electrode of the side switch has an outer peripheral edge mounted and supported on an inclined surface provided in the housing in which a fixed electrode that is a counter electrode of the movable electrode is embedded, and the movable electrode has an inclined posture. May be held. According to this, since the movable electrode of the side switch performs the snap operation on the inclined surface of the housing, it is possible to prevent the snap operation of the movable electrode of the side switch from being rubbed against the movable electrode of the center switch and being damaged. .
[0017]
In the present invention, the movable electrode of the side switch is supported by being mounted on an inclined surface of which an outer peripheral edge is formed in a bulging shape on a base electrode embedded in the housing in a horizontal posture. It is possible to adopt a configuration in which a fixed electrode facing the center of the electrode is embedded in the housing, and the center of the fixed electrode is located in a recess formed by the bulging portion. it can. According to this, since the movable electrode of the side switch performs the snap operation on the inclined surface of the base electrode, it is possible to prevent the snap operation of the movable electrode of the side switch from being rubbed against the movable electrode of the center switch and being damaged. . In addition, since the fixed electrode facing the center of the movable electrode of the side switch is embedded in the housing, and the center of the fixed electrode is located in the recess formed by the bulging portion of the base electrode, Even though the movable electrode of the side switch is provided in an inclined posture, it is possible to ensure a sufficiently large stroke at the time of the snap operation of the movable electrode of the side switch.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a longitudinal sectional front view of a multi-contact input device according to an embodiment of the present invention, FIG. 2 is a plan view of a body 1 in which a base electrode 33 and fixed electrodes 31 and 32 are embedded, and FIG. FIG. 4 is a schematic plan view showing an arrangement of movable electrodes 41 and 42.
[0019]
As shown in FIGS. 1 to 3, the housing H is formed by a body 1 made of a synthetic resin molded body and a cover 5 made of sheet metal attached to the body 1 and has a substantially rectangular shape in plan view having an inclined corner portion. Is formed. The body 1 has a peripheral wall 12 forming the outer edge of the body 1 and has four partition walls 13 projecting inward from four equiangular positions of the peripheral wall 12. I have it. The inner surface of the peripheral wall 12 and the side surfaces of the four partition walls 13 form four recesses 21 positioned at an equal angle, and the respective inner end surfaces 14 of the four partition walls 13 described above. , A central recess 22 is formed.
[0020]
As shown in FIG. 2 or FIG. 3, each of the four recesses 21 partitioned by the four partition walls 13 is a circular recess having an inner surface formed in an arc surface. Further, since the inner end surfaces 14 of the partition walls 13 forming the central recess 22 are also formed in arcuate surfaces whose centers coincide with each other, the recess 22 is also a circular recess. Each of the central recess 22 and each of the four recesses 21... Are connected to each other via a space between the partition walls 13 adjacent to each other.
[0021]
Also, as can be seen in FIG. 1, the bottom surface of one central recess 22 is formed horizontally, while the bottom surfaces of the four surrounding recesses 21 are located at the center of the central recess 22. Are formed as inclined surfaces 23 that are inclined outward and outward in the radial direction as viewed from above. As shown in FIG. 1 or FIG. 2, a fixed electrode 31 is provided at the center of the bottom surface 22 of one central recess 22, and the electrode surface of the fixed electrode 31 is flush with the bottom surface of the recess 22. It has become. Also, fixed electrodes 32 are provided at the center of the inclined surface 23, which is the bottom surface of each of the four surrounding recesses 21, respectively. The electrode surfaces of the fixed electrodes 32 are the same as the inclined surfaces 23. It is flush. Further, on each of the bottom surface of the central recess 22 and the four inclined surfaces 23, a base electrode 33 formed of a single metal plate is electrically insulated from the fixed electrodes 31, 32,. Deployed in state. The upper surfaces of these base electrodes 33 are flush with the bottom surface of the recess 22 and the inclined surface 23.
[0022]
As can be seen in FIG. 2, a soldering terminal 34 is continuously provided on the fixed electrode 31 provided in the central recess 22. In addition, soldering terminals 35 are also connected to the respective fixed electrodes 32 provided in the four surrounding recesses 21. Further, soldering terminals 36 are connected to the base electrodes 33. Each of the soldering terminals 34, 35,..., 36 is laterally protruded from the left and right sides of the body 1 by three. Although each of the soldering terminals 34, 35,..., 36 in the illustrated example is of a surface mounting type, these soldering terminals 34, 35,.
[0023]
The central recess 22 and the four surrounding recesses 21 have the same diameter. As shown in FIG. 1 or FIG. 3, movable electrodes 41, 42 formed of dome-shaped snap plates having the same shape and size in a circular shape in plan view are fitted in the respective recesses 21. The movable electrodes 41, 42,... Are seated in the recesses 21,. The movable electrode 41 fitted into the central recess 22 is formed by overlapping two snap plates having the same size and shape. Here, the diameter of each of the movable electrodes 41, 42... Is slightly shorter than the diameter of each of the recesses 21. Therefore, the movable electrode 41 fitted in the central recess 22 can be bent and deformed with a snap operation in the central recess 22, and is fitted in each of the four surrounding recesses 21. The movable electrodes 42 can be bent and deformed with a snap operation in each of the recesses 21. Further, at four locations on the outer peripheral portion of the movable electrode 41 fitted in the central recess 22, a part of each of the movable electrodes 42 fitted in the four surrounding recesses 21 is attached to the housing H. They are arranged in an overlapping manner in the thickness direction. Here, a center switch S1 is formed by the fixed electrode 31 in the central recess 22 and the movable electrode 41 that covers the fixed electrode 31 and is fitted in the recess 22. Each of the fixed electrodes 32 on the inclined surfaces 23 of the four surrounding recesses 21 and each of the movable electrodes 42 respectively covering the fixed electrodes 32 and fitted into the recesses 21. .. Form four side switches S2.
[0024]
With the above configuration, a part of each movable electrode 42 of the four side switches S2 surrounding the movable electrode 41 of the center switch S1 is arranged in an overlapping manner in the thickness direction of the housing H. 6, the movable electrode 41 of the center switch S1 and the movable electrode 42 of the side switch S2 provided in the diagonal direction of the body 1 overlap with the movable electrode 41 of the body 1 by a length corresponding to the overlap width D. 1. Finally, the diagonal length of the housing H can be reduced. The movable electrodes 41, 42 of the center switch S1 and the four side switches S2 are respectively positioned by the recesses 22, 21 so as not to be displaced. Operational reliability when the side switches S2 are opened and closed is kept good. Further, since the movable electrode 42 of the side switch S2 performs the snap operation on the inclined surface 23, the snap operation of the movable electrode 42 of the side switch S2 does not rub against the movable electrode 41 of the center switch S1 to be damaged.
[0025]
As shown in FIG. 1, a ring-shaped guide strip 51 is provided at the center of a cover 5 made of sheet metal attached to the body 1. A movable member 63 provided on the rear surface side with another side pressing portion 61 for each movable electrode 42 of each of the four side switches S2 is connected to the body 1 so as to be able to swing in all directions through the guide strip 51. It is held by the cover 5. An operating rod 65 is axially slidably inserted through a center hole 62 of the movable member 63, and a flange 66 integrally formed at a lower end of the operating rod 65 is provided on a lower surface 64 of the movable member 63. A center pressing portion 67 for the movable electrode 41 of the center switch S1 is provided on the lower surface of the flange 66 facing the center switch S1. In this embodiment, the operating member 6 is formed by the movable member 63 and the operating rod 65.
[0026]
In the other contact input device configured as described above, when the external force in the swing direction or the external force in the pushing direction is not applied to the operating member 6, the movable electrode 41 of the center switch S1 causes the operating rod 65 to move as shown in FIG. The center pressing portion 67 is supported, and the four side pressing portions 61 of the movable member 63 are supported by the movable electrodes 42 of the four side switches S2. Therefore, the operation member 6 maintains the neutral posture in which the operation member 6 stands upright.
[0027]
When the operating rod 65 is pushed in, the center pressing portion 67 pushes and deforms the movable electrode 41 of the center switch S1 while causing the movable electrode 41 to snap, so that the movable electrode 41 comes into contact with the fixed electrode 31 and both electrodes 41, 31 are electrically operated. And the center switch S1 is opened and closed. Further, when the operating rod 65 is swung, the movable member 63 is tilted following the swing. Therefore, when the operating rod 65 is swung toward the predetermined side switch S2 to be switched, the predetermined side pressing portion 61 of the movable member 63 pushes the movable electrode 42 of the predetermined side switch S2 while snapping it, and is bent. Since the electrode is deformed, the movable electrode 42 comes into contact with the fixed electrode 32, the electrodes 42 and 32 are electrically connected, and the predetermined side switch S2 is switched between open and closed. The same operation is performed when switching the opening and closing of the other side switch S2.
[0028]
In this embodiment, since the operating rod 65 is slidable in the axial direction with respect to the movable member 63, the operation of pushing the operating rod 65 to switch the opening and closing of the center switch S1 and the operation of tilting the movable member 63 together with the operating rod 65 are performed. It is possible to perform the operation of switching the opening and closing of the predetermined side switch S2 together.
[0029]
In this embodiment, the opening and closing of the center switch S1 and the four side switches S2 can be individually switched by pushing or tilting one operating member 6, but the center switch S1 and the four It is also possible to arrange operation members individually for the side switches S2 and individually switch the opening and closing of the center switch S1 and the four side switches S2 by operating each operation member individually. . The movable electrodes 41, 42,... Of the center switch S1 and the side switches S2,... Are each formed by a circular dome-shaped snap plate that bulges upward. It is also possible to form it with a dome-shaped snap plate bulging upward (for example, square).
[0030]
In this embodiment, the base electrode 33 is formed as a common terminal that contacts both the movable electrode 41 of the center switch S1 and the movable electrodes 42 of the four side switches S2. Even if each of the movable electrodes 41, 42 of S2... Is in contact at the overlapping portion, no problem occurs in switching mode switching. However, when the movable electrodes 41, 42,... Are in contact with each other at the overlapping portion, for example, when the movable electrode 42 of the side switch S2 performs a snap operation, the movable electrode 42 rubs with the movable electrode 41 of the center switch S1. , These movable electrodes 41 and 42 may be damaged. In order to solve this, it is advantageous to form a gap U between the upper surface of the movable electrode 41 of the center switch S1 and the outer peripheral edge of each movable electrode 42 of each side switch S2.
[0031]
As shown in FIG. 1, in this embodiment, the tops of the movable electrode 41 of the center switch S1 and the movable electrodes 42 of each side switch S2 are located on a virtual plane PP shown by a virtual line. In other words, the tops of the movable electrodes 41, 42 are arranged at the same or substantially the same height. Therefore, the thickness of the housing H can be reduced to the same thickness as the housing of the conventional multi-contact input device described at the beginning.
[0032]
Further, in this embodiment, by appropriately determining the inclination angle of the movable electrode 42 of the side switch S2 disposed in the inclined posture, the center of the movable electrode 42 is pushed down by the side pressing portion 61 of the movable member 63. The movable electrode 42 is inclined so that the movable electrode 42 is bent and displaced in the radius direction of curvature. Therefore, the movable electrode 42 of the side switch S2 formed of a dome-shaped snap plate performs a reasonable and appropriate snap operation even when the movable electrode 42 is disposed in the inclined posture, and the operation member 6 is operated. The snap feeling at the time is kept good.
[0033]
Further, in this embodiment, the bottom surface of the body 1 in the four recesses 21 is defined as the inclined surfaces 23, and the movable electrode 42 is mounted on the inclined surfaces 23. Can be formed by other means. One example is shown in FIGS.
[0034]
That is, FIG. 4 is a schematic plan view showing an arrangement of a base electrode 33 and fixed electrodes 31 and 32 according to another embodiment, and FIG. 5 is a vertical sectional front view of a multi-contact input device according to another embodiment.
[0035]
This embodiment, which will be described next, is different from the multi-contact input device of the embodiment (preceding embodiment) described with reference to FIGS. That is, in the previous embodiment, the inclined surfaces 23 are formed on the bottom surface of the recesses 21 of the body 1 and the outer peripheral edge of the movable electrode 42 is mounted on the inclined surfaces 23. In the embodiment, the bottoms of the recesses 21 of the body 1 are horizontal, the base electrodes 33 are embedded flush with the bottoms, and two outer peripheral portions of the base electrodes 33 are rib-shaped. The point that the bulging portions 37 are formed in a bulging shape and the upper surfaces of the bulging portions 37 are formed as the inclined surfaces 23. A fixed electrode 32, which opposes the center of the movable electrode 42, is embedded in the body 1 so that the outer periphery of the movable electrode 42 is mounted and supported thereon. 37 are located in the recesses formed by. By doing so, the movable electrode 42 of the side switch S2 performs a snap operation on the inclined surface 37 of the base electrode 33, so that the snap operation of the movable electrode 42 of the side switch S2 rubs against the movable electrode 41 of the center switch S1 and is damaged. That situation can be prevented. Further, since the fixed electrode 32 facing the center of the movable electrode 42 of the side switch S2 is located in the recess formed by the bulging portion 37, the movable electrode 42 of the side switch S2 is disposed in an inclined posture. However, there is also an advantage that a sufficiently large stroke at the time of the snap operation of the movable electrode 42 of the side switch S2 can be ensured.
[0036]
In the other embodiments described with reference to FIG. 4 or FIG. 6, matters other than those described above are the same as those in FIG. 1 to FIG. 3 showing the preceding embodiment. The same reference numerals are given and detailed description is omitted.
[0037]
【The invention's effect】
As described above, according to the present invention, while being able to exhibit the same input / output capability as a conventional multi-contact input device, the thickness and width of the housing are kept small and the overall shape of the multi-contact input device is reduced. It is easy to reduce the size and size.
[Brief description of the drawings]
FIG. 1 is a vertical sectional front view of a multi-contact input device according to an embodiment of the present invention.
FIG. 2 is a plan view of a body in which a base electrode and a fixed electrode are embedded.
FIG. 3 is a schematic plan view showing an arrangement of movable electrodes in a body.
FIG. 4 is a schematic plan view showing an arrangement of a base electrode and fixed electrodes according to another embodiment.
FIG. 5 is a vertical sectional front view of a multi-contact input device according to another embodiment.
FIG. 6 is a vertical sectional front view of the multi-contact input device disclosed in the first prior art.
[Explanation of symbols]
H Case S1 Center switch S2 Side switch 6 Operating member 23 Inclined surface 32 Fixed electrode 33 Base electrodes 41 and 42 Movable electrode 61 Side pressing portion 67 Center pressing portion

Claims (6)

Each of the center switch and a plurality of side switches provided around the center switch includes a movable electrode formed of a dome-shaped snap plate that is pressed down by an operation member. In a multi-contact input device in which a part of each movable electrode of the side switch is arranged in an overlapping manner in a thickness direction of a housing containing the center switch and the movable electrode of each side switch,
The multi-contact input device, wherein each movable electrode of each of the side switches is arranged in a tilted position that is outwardly downward with respect to the movable electrode of the center switch. 2. The multi-contact input device according to claim 1, wherein the movable electrode of the center switch and the top of each movable electrode of each side switch are arranged at the same or substantially the same height position. A center pressing portion for pressing down the center portion of the movable electrode of the center switch, and a center portion of the movable electrode of any of the side switches when the operating member is swung about the center pressing portion. The multi-contact input device according to claim 1, further comprising a side pressing portion that presses down. The tilt position of the movable electrode in the tilt position of the side switch is determined so that the movable electrode is bent and displaced in the radius direction of curvature of the movable electrode when the center portion is pressed down by the side pressing portion of the operation member. Item 4. The multi-contact input device according to Item 3. The movable electrode of the side switch has an outer peripheral edge mounted and supported on an inclined surface provided in the housing in which a fixed electrode that is a counter electrode of the movable electrode is embedded, and holds the inclined posture. The multi-contact input device according to any one of claims 1 to 4. The movable electrode of the side switch has its outer peripheral edge mounted and supported on an inclined surface formed in a bulging shape on a base electrode embedded in the housing in a horizontal posture, and has a central portion of the movable electrode. 5. The fixed electrode facing the substrate is embedded in the housing, and the center of the fixed electrode is located in a concave portion formed by the bulging portion. 6. The multi-contact input device described in the above.

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