JP3973367B2 - Multi-directional switch device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention particularly relates to a multidirectional switch device suitable for use in an electric window mirror device of a vehicle.
[0002]
[Prior art]
FIG. 7 is a plan view showing a conventional multi-directional switch device, FIG. 8 is a cross-sectional view taken along line 8-8 in FIG. 7, and FIG. 9 is a conventional multi-directional switch device. FIG. 10 is a cross-sectional view taken along line 9-9 in FIG. 7 showing the elastic spring member in connection with the switch device, and FIG. 10 is a cross-sectional view taken along line 10-10 in FIG.
[0003]
The box-shaped case 51 made of a synthetic resin material is vertically extended from the vicinity of the upper wall 51a and the outer peripheral edge of the upper wall 51a, and is provided on the upper left side of the upper wall 51a. In addition, a substantially rectangular recess 51c, grooves 51d provided at the four corners of the recess 51c, and a through-hole 51e provided in the center of the recess 51c are provided. The through hole 51e is formed to have a cross-shaped rectangle, and an arcuate and hemispherical receiving portion 51f is provided on the outer surface of the through hole 51e.
[0004]
Further, in the case 51, a partition plate 51g extending vertically from the upper wall 51a into the case 51 is provided, and the first storage portion 51h and the second storage are provided in the case 51 by the partition plate 51g. The part 51i is provided adjacent to each other, and a through hole 51j is provided in the upper wall 51a located on the second storage part 51i.
[0005]
The substantially square elastic spring member 52 made of an elastic rubber material has four rubber domes 52a provided at the four corners of the cross shape and a circular through hole 52b provided in the central portion. The substantially cylindrical pressing part 52c, the conical part 52d holding the pressing part 52c, the substantially square base part 52e holding the conical part 52d, and the outer peripheral edge of the base part 52e protrude downward. And a protrusion 52f. Further, the lower surface of the pressing portion 52c is disposed so as to protrude into the conical portion 52d.
[0006]
The elastic spring member 52 is disposed in the recess 51c of the case 51. In this state, the protruding portion 52f of the elastic spring member 52 is inserted and disposed in the groove 51d of the case 51, thereby elastically The spring member 52 is positioned on the case 51.
[0007]
In this state, the through hole 51 e of the case 51 is positioned in the through hole 52 b of the elastic spring member 52.
Further, the distance L3 between the lower surface of the pressing portion 52c of the rubber dome 52a and the lower surface of the conical portion 52d is formed to be a relatively short distance, and when a pressing force is applied to the pressing portion 52c of the rubber dome 52a. The pressing portion 52c is pressed downward by the pressing force, and the conical portion 52d is buckled, so that the pressing portion 52c contacts the upper wall 51a. Since the distance L3 is a relatively short distance, the conical portion 52d has a small stroke.
[0008]
The operation member 53 made of a synthetic resin material is substantially circular, and includes an operation portion 53a, a peripheral portion 53b extending substantially vertically from the outer peripheral portion of the operation portion 53a, and the vicinity of the outer peripheral portion of the operation portion 53a. 4 projections 53c provided at the respective cross-shaped positions, and a quadrangular columnar drive part 53d protruding downward from the center of the operation part 53a. In addition, a pair of concave portions 53e are provided on the opposing surfaces of the intermediate portion of the quadrangular columnar drive portion 53d, and a support portion 53f having a hemispherical concave portion is provided at the base portion of the drive portion 53d.
[0009]
The drive portion 53 d of the operation member 53 is inserted into the through hole 51 e of the case 51 and is held in a state where the support portion 53 f of the operation member 53 is placed on the receiving portion 51 f of the case 51. In this state, the four protrusions 53c of the operation member 53 are disposed so as to be in pressure contact (contact) with the pressing portions 52c of the four rubber domes 52a.
[0010]
The operation member 53 is inserted into the through hole 51e formed in the cross shape of the case 51, and the first straight line X1 passing through the center of the operation member 53 and the first through the center. The second straight line Y1 that is orthogonal to the straight line X1 can be tilted in four cross-shaped directions that are orthogonal to each other. Further, when the operation member 53 is inserted into the case 51, the four rubber domes 52a are respectively arranged in the intermediate portion between the first straight line X1 and the second straight line Y1 that are the tilting operation directions of the operation member 53. When the operation member 53 is tilted in each direction, the pressing portions 52c of the two rubber domes 52a with which the two adjacent protrusions 53c disposed on the tilt direction side are in contact with each other are moved downward. By pressing down, the two conical portions 52d buckle due to the pressing down, and the buckling of the conical portions 52d causes the operator of the operation member 53 to feel a click.
[0011]
In addition, since the smooth lower surface of the protrusion 53c of the operation member 53 made of a molded product and the smooth upper surface of the pressing portion 52c of the rubber dome 52a are always in pressure contact and in close contact with each other, Since the protruding portion 53c presses the pressing portion 52c in a close contact state, the conical portion 52d is buckled while being pressed in the arrow Z direction, and the click feeling becomes worse.
[0012]
The holder 54 made of a synthetic resin material has a substantially hemispherical base portion 54a, a rectangular through hole 54b provided in the central portion of the base portion 54a, and a pair of elastic claws 54c facing the central portion of the base portion 54a. is doing.
The drive portion 53d of the operation member 53 is inserted into the through hole 54b of the holder 54, and the elastic claw portion 54c is snap-engaged with the recess 53e of the drive portion 53d. The stopper 51 is positioned on the upper wall 51a of the 51 and positioned.
[0013]
Further, in this state, the operation member 53 is attached to the upper wall 51a of the case 51 so as to be tilted in four cross-shaped directions.
[0014]
The slide-type switch 55 includes a substantially rectangular slider 56 made of a synthetic resin material, a plurality of sets of movable contacts 57 attached to the lower surface of the slider 56, and a printed wiring board 58 provided at a position facing the movable contacts 57. And a plurality of sets of fixed contacts (not shown) that are formed on the printed wiring board 58 and to which the movable contact 57 contacts and separates.
[0015]
The slider 56 of the switch 55 has a rectangular through hole 56a at the center and a recess 53b that accommodates the movable contact 57 and the coil spring 63, and the operation member 53 is driven in the through hole 56a. The part 53 d is inserted, and the printed wiring board 58 is attached so as to cover the open part of the lower part of the case 51. Then, by the tilting operation of the operation member 53 in the four directions of the cross, the slider 56 is driven in the four directions of the cross in the horizontal direction with respect to the printed circuit board 58, and the fixed contact ( The movable contact 57 is brought into contact with and separated from the top (not shown), and the switching operation of the contact of the switch 55 is performed.
The switch 55 is housed and arranged in the first housing portion 51 h of the case 51.
[0016]
The second slide type switch 60 includes a substantially rectangular slider 60a made of a synthetic resin material, a plurality of sets of movable contacts 60b attached to the lower surface of the slider 60a, and a print provided at a position facing the movable contacts 60b. The wiring board 58 includes a plurality of sets of fixed contacts (not shown) that are formed on the printed wiring board 58 and to which the movable contact 60b contacts and separates.
[0017]
Further, the slider 60 a of the switch 60 has a protruding portion 60 c that protrudes outward at the center, and a recess 60 d that accommodates the movable contact 60 b and the coil spring 64. The switch 60 is housed and arranged in the second housing portion 51i.
The operation knob 62 made of a synthetic resin material is attached by appropriate means while being inserted into the through hole 51j of the upper wall 51a of the case 51. By the operation of the operation knob 62, the second slide type switch 60 is moved. It is configured to be operated.
[0018]
The bottom wall member 59 made of a synthetic resin material has a bottom wall 59a and a side wall 59b extending vertically from a predetermined portion on the outer peripheral edge of the bottom wall 59a. The bottom wall 59a of the bottom wall member 59 is placed under the printed wiring board 58, and the bottom wall member 59 is used as appropriate means such as snap-in engagement with the open end of the side wall 51b of the case 51. Attached.
[0019]
The connector 61 has an insulating holding body 61a and a terminal portion 61b held by the holding body 61a. The terminal portion 61b is electrically connected to a fixed contact (not shown) of the printed wiring board 58. In this state, the switch is attached to the case 51, and the switching operation of the contacts of the switches 55 and 60 is output to an external electric device via the connector 61.
[0020]
Next, the operation of this conventional multidirectional switch will be described.
First, when the operation member 53 is tilted by pressing the position in the left direction (point A) on the second straight line Y1 of the operation member 53 shown in FIG. 7, two rubber domes located on both sides of the point A are sandwiched. Each pressing portion 52c of 52a is pressed by each projection 53c of the operation member 53, and when this pressing portion 52c is pressed, the conical portion 52d is buckled, causing the operator to feel a click.
Further, since the conical portion 52d is formed in a small stroke, this click feeling is bad.
[0021]
Further, by the tilting operation of the operating member 53, the drive portion 53d of the operating member 53 drives the switch 55, and the switching operation of the switch 55 in the pressing to the point A is performed.
At this time, the smooth lower surface of the protruding portion 53c and the smooth upper surface of the pressing portion 52c are always in pressure contact and are in close contact with each other. Therefore, during this tilting operation, the protruding portion 53c is in close contact with the pressing portion. Since the conical portion 52d is pressed in the direction of the arrow Z to press the 52c, the click feeling becomes worse.
[0022]
Next, when the pressing of the operating member 53 to the point A on the second straight line Y1 is released, the operating member 53 is against the upper wall 51a of the original case 51 by the self-returning force of the two buckled rubber domes 52a. Return to a parallel position.
[0023]
Next, the operation when pressing the position of the operation member 53 shown in FIG. 7 in the right direction (point B) on the second straight line Y1 and the up / down direction (point C / D) on the first straight line X1 is as follows. Since this is the same as the pressing operation at the position in the left direction (point A) described above, the description is omitted.
[0024]
Next, the operation of the second slide type switch 60 is as follows. The slider 60a of the switch 60 slides on the printed wiring board 58 by the operation of the operation knob 62, and the contact of the switch 60 is switched by the slide of the slider 60a. An action is performed.
[0025]
The switch 60 is used for switching the left and right window mirrors of the electric window mirror device, and the switch 55 is used for switching the left or right window mirror in the vertical and horizontal directions.
[0026]
[Problems to be solved by the invention]
In the above-described multidirectional switch device, there is a problem that a sufficient click feeling cannot be obtained because the click feeling is caused by the small buckling of the conical portions 52d of the two rubber domes.
[0027]
The multi-directional switch device of the present invention solves the above-mentioned problems, and an object thereof is to provide a multi-directional switch device capable of generating a good click feeling for an operator.
[0028]
[Means for Solving the Problems]
The multi-directional switch device according to the present invention includes a case, a switch housed in the case, and a multi-directional tilting operation, wherein the switch is switched by a tilting operation in each of the multi-directional directions. A member, a plurality of first rubber domes that are operated by any two of the operation members tilted in the respective directions, and a second rubber dome disposed between the adjacent first rubber domes. When the operation member is tilted in the respective directions, the two first rubber domes and the second rubber dome positioned between the two first rubber domes are buckled, and a click feeling is generated in the operation member. Further, the movable distance of the second rubber dome is longer than the movable distance of the first rubber dome.By pressing the operating member, the two first rubber domes and the second rubber dome are buckled, and then the lower surface of the pressing portion of each of the two first rubber domes is a recess provided in the case. So that the lower surface of the pressing portion of the second rubber dome does not contact the bottom surface of the concave portion even when it comes into contact with the bottom surface of the recess.Is that
  In the multidirectional switch device of the present invention, when tilting in each direction, the two first rubber domes and the second rubber dome positioned therebetween are buckled simultaneously.
  With this configuration, since the buckling of the second rubber dome is added to the buckling of the first rubber dome, a sufficient click feeling can be obtained, and since the second rubber dome has a long movable distance, the operation member is pressed. After the two first rubber dome and the second rubber dome are buckled, the lower surface of the pressing portion of the second rubber dome also comes into contact with the bottom surface of the pressing portion of the two first rubber dome, Since the operation member is supported only by the two first rubber domes because it does not contact the bottom surface of the concave portion, it is possible to provide a multidirectional switch device having a good click feeling that does not scatter.
[0029]
  AlsoOrWith this configuration, the configuration of each of the first and second rubber domes can be simplified, so that the cost can be reduced and an inexpensive multidirectional switch device can be provided.
[0030]
  In the multidirectional switch device of the present invention, the operation member is tilted in the four directions of the cross shape.PossibleIn the middle of the cross-shaped tilting operation direction of the operation member, four first rubber domes arranged in a cross shape and four second ones arranged between the adjacent first rubber domes, respectively. A rubber dome, and the first rubber dome and the second rubber dome are arranged on the same circumference, and the operation memberOf the four directions of the crossThat is, two first rubber domes and one second rubber dome are operated by a tilting operation in one direction.
  With this configuration, the first and second rubber domes can be arranged in a minimum arrangement area while avoiding the tilting range of the support portion of the operation member, and a small multi-directional switch device can be provided as a whole.
[0031]
  In the multidirectional switch device of the present invention, the operation member is tilted in the four directions of the cross shape.soThe four first rubber domes arranged in a cross shape and four first rubber domes arranged one by one between each of the adjacent first rubber domes in the middle part of the operation member in the cross-shaped tilting operation direction. 2 rubber domes, and each of the four second rubber domes is arranged on a straight line connecting the adjacent first rubber domes,Of the four directions of the crossThat is, two first rubber domes and one second rubber dome are operated by a tilting operation in one direction.
  With such a configuration, the operation of the first and second rubber domes can be made uniform, and an inexpensive multidirectional switch device with good operability can be provided.
[0032]
  Further, in the multidirectional switch device of the present invention, each of the four second rubber domes is disposed at a central position of each of the four first rubber domes.
  With such a configuration, the buckling positions of the first and second rubber domes are uniformly arranged, so that the operation force is uniform and a more stable and good click feeling can be obtained.
  In the multi-directional switch device of the present invention, the case is formed in a box shape, a plurality of switches are located in the case, and the first and second rubber domes are disposed in the recesses of the upper wall of the case so as to face the operation member. It is that.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is an exploded perspective view showing a multidirectional switch device according to the present invention, FIG. 2 is a plan view showing the multidirectional switch device according to the present invention, and FIG. FIG. 4 is a sectional view taken along line 4-4 in FIG. 2, FIG. 5 is a sectional view taken along line 4-4 in FIG. 2, and FIG. 5 relates to the multi-directional switch device of the present invention. It is sectional drawing in the 5-5 line | wire of FIG. 2 shown.
[0034]
A box-shaped case 1 made of a synthetic resin material has a substantially flat upper wall 1a, a side wall 1b that extends vertically from the vicinity of the outer periphery of the upper wall 1a, and an upper left side of the upper wall 1a. It has a substantially rectangular recess 1c provided on the side, a groove 1d provided at each of the four corners of the recess 1c, and a through-hole 1e provided in the center of the recess 1c.
[0035]
The through-hole 1e is formed to have a cross-shaped rectangle, and an arcuate and hemispherical receiving portion 1f is provided on the outer surface of the through-hole 1e.
A rectangular protruding recess 1g is provided at the center of each of the four sides of the substantially rectangular recess 1c.
[0036]
In addition, a partition plate 1h extending vertically from the upper wall 1a into the case 1 is provided in the case 1, and the first storage portion 1i and the second storage are provided in the case 1 by the partition plate 1h. The portion 1j is provided adjacent to each other, and a through hole 1k is provided in the upper wall 1a located on the second storage portion 1j.
[0037]
The operation member 5 made of a synthetic resin material is substantially circular, and includes an operation part 5a, a peripheral part 5b extending substantially perpendicularly from the outer peripheral part of the operation part 5a, and the vicinity of the outer peripheral part of the operation part 5a. Projecting downward from the first projection 5c provided at four positions in the cross shape and four second projections 5h provided at the center between the first projections 5c. And a quadrangular columnar drive portion 5d that protrudes downward from the central portion of the operation portion 5a. In addition, a pair of concave portions 5e are provided on the opposing surfaces of the intermediate portion of the quadrangular columnar drive portion 5d, and a support portion 5f having a hemispherical concave portion is provided at the base portion of the drive portion 5d.
[0038]
The drive portion 5 d of the operation member 5 is inserted into the through hole 1 e of the case 1 and is held in a state where the support portion 5 f of the operation member 5 is placed on the receiving portion 1 f of the case 1.
The operation member 5 has four directions (cross-shaped multi-directions) on a first straight line X1 passing through the center of the operation member 5 and on a second straight line Y1 passing through the center and orthogonal to the first straight line X1. It is configured to be able to tilt in each direction.
In addition, the first protrusions 5c of the operation member 5 are disposed at positions sandwiched by the first and second straight lines X1 and Y1, respectively, and the second protrusions 5h are respectively the first and second straight lines X1. , Y1 is disposed at a position.
[0039]
The substantially rectangular elastic spring member 2 made of an elastic rubber material is disposed at a central position between each of the four first rubber domes 3 provided in the cross-shaped squares and the adjacent first rubber domes 2a. The four second rubber domes 4, the circular through hole 2a provided in the center, the first base 2b for holding the first rubber dome 3, and the second base for holding the second rubber dome 4. 2c. Moreover, the 1st base part 2b and the 2nd base part 2c are located alternately, are mutually connected around the through-hole 2a, and are arrange | positioned on the same periphery.
[0040]
The first rubber dome 3 includes a substantially cylindrical pressing portion 3a and a conical portion 3b that holds the pressing portion 3a. The second rubber dome 4 includes a substantially cylindrical pressing portion 4a and a pressing portion. And a conical portion 4b for holding 4a. Moreover, the lower surface of each pressing part 3a, 4a is protruded and arrange | positioned in each conical part 3b, 4b, and the distance of the lower surface of the pressing part 3a of the 1st rubber dome 3 and the lower surface of the conical part 3b is distance The distance between the lower surface of the pressing portion 4a of the second rubber dome 4 and the lower surface of the conical portion 4b is formed at a distance L2 (L1 <L2) that is longer than the distance L1.
[0041]
That is, the movable distance L2 of the second rubber dome 4 due to the tilting operation of the operation member 5 is formed to be longer than the movable distance L1 of the first rubber dome 3, and the first and second rubber domes 3, 4 are formed. When a pressing force is applied to the pressing portions 3a and 4a, the pressing portions 3a and 4a are pressed downward by the pressing force, and the conical portions 3b and 4b are buckled.
[0042]
Here, by forming the distance L2 of the second rubber dome 4 to be longer than the distance L1 of the first rubber dome 3, the stroke of the second rubber dome 4 is long, which is better than the click feeling of the first rubber dome 3. It is formed so that a click feeling can be obtained.
[0043]
Further, the four first rubber domes 3 and the four second rubber domes 4 are alternately arranged at positions on the same circumference while being close to each other, and four four second rubber domes 4 are provided. Each of the first rubber domes 3 is disposed at a middle position.
[0044]
The first base portion 2b is formed with a protruding portion 2c that protrudes downward from the outer peripheral edge of the first base portion 2b.
Further, the elastic spring member 2 is disposed in the recess 1c of the case 1, and in this state, the protruding portion 2c of the elastic spring member 2 is inserted and disposed in the groove 1d of the case 1, thereby elastically The spring member 2 is positioned on the case 1.
[0045]
In this state, each of the four second rubber domes 4 is disposed at a position opposed to the first straight line X1 and the second straight line Y1, and each of the four second rubber domes 4 is disposed. The one rubber dome 3 is disposed at each intermediate position between the first straight line X1 and the second straight line Y1, which is the direction in which the operation member 5 is tilted.
[0046]
Then, the first and second rubber domes 3 and 4 of the elastic spring member 2 are arranged so that the conical portions 3b and 4b are tilted in the four directions of the cross shape on the first and second straight lines X1 and Y1 of the operation member 5, respectively. 4b is buckled, and a click feeling due to this buckling is generated in the operator.
In addition, the buckling causes the operator to feel a click by buckling the two first rubber domes 3 and the second rubber dome 4 having one long stroke.
[0047]
A sheet member 6 made of a synthetic resin material such as a polyethylene terephthalate (PET) material is flat and formed in an annular shape, and has a circular hole 6a at the center. The sheet member 6 is formed to have a thickness dimension of about 0.1 mm and a surface roughness of about 5 μm to 120 μm. Due to this surface roughness, the surface of the sheet member 6 is formed to be a rough surface for preventing adhesion.
[0048]
In the sheet member 6, the circular hole 6 a is press-fitted into the annular attachment portion 5 f of the operation member 5, and the sheet member 6 is attached to the operation member 5.
The sheet member 6 is positioned between the first and second protrusions 5c and 5h of the operation member 5 and the pressing portions 3a and 4a of the first and second rubber domes 3 and 4, and the operation member 5 and the first and second rubber domes 3 and 4 and are pressed against each other.
[0049]
More specifically, the sheet member 6 includes the front end surfaces of the first and second protrusions 5c and 5h of the operation member 5 and the surfaces of the pressing portions 3a and 4a of the first and second rubber domes 3 and 4, respectively. The surface of the sheet member 6 is rough between the surfaces of the pressing portions 3a, 4a of the first and second rubber domes 3, 4 and the surface of the sheet member 6. Therefore, it is possible to prevent adhesion, and therefore, the sliding operation is performed. From this, when the operation member 5 presses each pressing part 3a, 4a via the sheet member 6, a sliding operation is performed between the surface of each pressing part 3a, 4a and the surface of the sheet member 6. Thus, the pressing members 3a and 4a can be pressed downward in the vertical direction by the sheet member 6, and the conical portions 3b and 4b are smoothly buckled, thereby causing a good click feeling due to the buckling. .
[0050]
The holder 7 made of a synthetic resin material has a substantially hemispherical base portion 7a, a rectangular through hole 7b provided in the central portion of the base portion 7a, and a pair of elastic claws 7c facing the central portion of the base portion 7a. is doing.
The drive portion 5d of the operation member 5 is inserted into the through hole 7b of the holder 7, and the elastic claw portion 7c is snap-engaged with the recess 5e of the drive portion 5d. The upper wall 1a is prevented from coming off, positioned, and disposed.
[0051]
In this state, the operation member 5 is attached to the upper wall 1a of the case 1 so as to be tilted on the first straight line X1 and the second straight line Y1, which are four cross-shaped directions. Yes.
[0052]
The slide-type switch 8 includes a substantially rectangular slider 9 made of a synthetic resin material, a plurality of sets of movable contacts 10 attached to the lower surface of the slider 9, and a printed wiring board 11 provided at a position facing the movable contacts 10. And a plurality of sets of fixed contacts 12 which are formed on the printed wiring board 11 and to which the movable contact 10 contacts and separates.
[0053]
The slider 9 of the switch 8 has a rectangular through hole 9a at the center and a recess 9b that accommodates the movable contact 10 and the coil spring 17, and the operation member 5 is driven in the through hole 9a. The part 5 d is inserted, and the printed wiring board 11 is attached so as to cover the open part at the bottom of the case 1. Then, the drive unit 5d is operated by the operation of tilting the operation member 5 in the four directions of the cross shape, and the slider 9 is horizontal with respect to the printed wiring board 11 by the operation of the drive unit 5d and the four directions of the cross shape. When the slider 9 is driven, the movable contact 10 is brought into and out of contact with the fixed contact 12 and the switch 8 is switched.
The switch 8 is housed and arranged in the first housing portion 1 i of the case 1.
[0054]
The second slide-type switch 14 includes a substantially rectangular slider 14a made of a synthetic resin material, a plurality of sets of movable contacts 14b attached to the lower surface of the slider 14a, and a print provided at a position facing the movable contacts 14b. The wiring board 11 is composed of a plurality of sets of fixed contacts 14c formed on the printed wiring board 11 and having movable contacts 14b contacting and separating.
Further, the slider 14 a of the switch 14 includes a protruding portion 14 d that protrudes outward from the upper surface, and a concave portion 14 e that accommodates the movable contact 14 b and the coil spring 18.
[0055]
The operation knob 16 made of a synthetic resin material is attached by appropriate means while being inserted into the through hole 1k of the upper wall 1a of the case 1, and the switch 14 is stored in the second storage portion 1j. The second slide type switch 14 is configured to be operated by this operation.
[0056]
The bottom wall member 13 made of a synthetic resin material has a bottom wall 13a and a side wall 13b extending vertically from a predetermined portion on the outer peripheral edge of the bottom wall 13a. The bottom wall 13a of the bottom wall member 13 is placed under the printed circuit board 11, and the bottom wall member 13 is used as appropriate means such as snap-in engagement with the open end of the side wall 1b of the case 1. Attached.
[0057]
The connector 15 has an insulating holding body 15a and a terminal portion 15b held by the holding body 15a. The terminal portion 15b is electrically connected to the fixed contact 12a of the printed wiring board 11, The switching operation of the contacts of the switches 8 and 14 is output to an external electric device via the connector 15.
[0058]
Next, the drawings of the operation of the multi-directional switch of the present invention will be described. FIG. 6 is a cross-sectional view showing the tilting operation of the operation member related to the multi-directional switch device of the present invention.
First, when the operation member 5 is tilted in the left direction by pressing the position in the left direction (point A) on the second straight line Y1 of the operation member 5 shown in FIG. The two protruding portions 5h press the pressing portion 4a of the second rubber dome 4 through the sheet member 6, and the pressing portions 3a of the two first rubber domes 3 and 3 positioned on both sides across the point A, 3a is pressed by the first protrusions 5c of the operation member 5 via the sheet member 6, and the respective pressing portions 4a, 3a, 3a are pressed, whereby the respective conical portions 4b, 3b, 3b are pressed. Buckles, is strong to the operator, and produces a good click feeling.
In addition, this buckling causes the operator to have a good click feeling by buckling the two first rubber domes 3 and the second rubber dome 4 having one long stroke.
[0059]
In this operation, the surface of the sheet member 6 is formed to be a rough surface for preventing adhesion, and therefore the surface of the sheet member 6 and the surfaces of the pressing portions 3a and 4a perform a sliding operation. By the member 6, each press part 3a, 4a can be pressed to the orthogonal | vertical direction below, and an even better click feeling is produced to an operator.
Next, when the pressing of the operating member 5 to the point A is released, the operating member 5 is brought into contact with the upper wall 1a of the original case 1 by the self-returning force of the three buckled first and second rubber domes 3 and 4. Self-reset to a parallel position.
[0060]
Next, the operation when pressing the position in the right direction (point B) on the second straight line Y1 of the operation member 5 shown in FIG. 2 and the up / down direction (point C / D) on the first straight line X1, Since the operation at the time of releasing the pressure is the same as the above-described pressing / releasing operation at the position in the left direction (point A), the description is omitted.
[0061]
Next, the operation of the second slide type switch 14 is as follows. The slider 14a of the switch 14 slides on the printed wiring board 11 by the operation of the operation knob 16, and the contact of the switch 14 is switched by the slide of the slider 14a. An action is performed.
[0062]
The switch 14 is used for switching the left and right window mirrors of the electric window mirror device, and the switch 8 is used for the angle switching operation of the left or right window mirror in the vertical and horizontal directions.
[0063]
In the embodiment of the present invention, it is configured to be tiltable in the four directions of the cross shape, but is not limited to the four directions, and may be tilted in multiple directions.
In the embodiment of the present invention, four slide-type switches and four first and second rubber domes are used. However, the number of switches is not limited to four.
[0064]
Further, in the embodiment of the present invention, the four first rubber domes and the four second rubber domes are arranged at the same circumferential position. However, the present invention is not limited to this, and the four second rubber domes are respectively provided. You may arrange | position on the straight line which ties the adjacent 1st rubber dome.
[0065]
Further, in the embodiment of the present invention, the four second rubber domes are arranged at the positions of the middle portions of the four first rubber domes, but the present invention is not limited to this. You may arrange | position in the position close to 1 rubber dome.
[0066]
【The invention's effect】
As described above, the multidirectional switch device of the present invention has a distance that the second rubber dome can be moved by the tilting operation of the operating member longer than the movable distance of the first rubber dome. 1. By making the second rubber dome buckle, the click feeling due to the buckling of the second rubber dome is better than the click feeling due to the buckling of the first rubber dome. A multidirectional switch device having a good click feeling due to buckling can be provided.
[0067]
In the multidirectional switch device of the present invention, each of the first and second rubber domes has a pressing portion and a conical portion that holds the pressing portion, and the pressing is located in the conical portion of the second rubber dome. The distance between the lower surface of the conical portion and the lower surface of the conical portion is longer than the distance between the lower surface of the pressing portion located in the conical portion of the first rubber dome and the lower surface of the conical portion, Since each structure of the second rubber dome can be simplified, the cost can be reduced and an inexpensive multi-directional switch device can be provided.
[0068]
In the multi-directional switch device of the present invention, each of the four second rubber domes is disposed at the middle position of each of the four first rubber domes so that the buckling positions of the first and second rubber domes can be determined. Since they are arranged uniformly, a more stable and good click feeling can be obtained.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a multidirectional switch device of the present invention.
FIG. 2 is a plan view showing a multidirectional switch device of the present invention.
3 is a cross-sectional view taken along line 3-3 in FIG.
4 is a cross-sectional view taken along line 4-4 of FIG.
5 is a cross-sectional view taken along line 5-5 of FIG. 2, showing an elastic spring member and a seat member, according to the multidirectional switch device of the present invention.
FIG. 6 is a cross-sectional view showing a tilting operation of an operation member according to the multidirectional switch device of the present invention.
FIG. 7 is a plan view showing a conventional multidirectional switch device.
8 is a cross-sectional view taken along line 8-8 in FIG.
9 is a cross-sectional view taken along line 9-9 of FIG. 7, showing an elastic spring member, according to a conventional multi-directional switch device.
10 is a cross-sectional view taken along line 10-10 of FIG.
[Explanation of symbols]
1 case
2 Elastic spring member
2a Through hole
3 1st rubber dome
3a Pressing part
3b Conical part
4 Second rubber dome
4a Pressing part
4b Conical part
5 Operation members
5d drive unit
6 Sheet material
8 switches
10 Movable contact
11 Printed circuit board
12 Fixed contacts
13 Bottom wall member

Claims (6)

A case, a switch housed in the case, a single operation member that can be tilted in multiple directions, and switches the switch by a tilting operation in each of the multi-directional directions, and each of the operating members A plurality of first rubber domes operated by any two adjacent to each other by a tilting operation in the direction, and a second rubber dome disposed between the adjacent first rubber domes, each direction of the operation member When the two rubber domes are buckled, the two rubber domes positioned between them and the second rubber domes are buckled so that the operation member has a click feeling, and the movable distance of the second rubber domes is further increased. by but it to have a longer distance than the movable distance of the first rubber dome, it presses the operating member, wherein either After the first rubber dome and the second rubber dome are buckled, when the lower surface of the pressing portion of any two of the first rubber dome comes into contact with the bottom surface of the recess provided in the case, the second rubber dome The multi-directional switch device , wherein the lower surface of the pressing portion is not in contact with the bottom surface of the recess . 2. The multidirectional switch device according to claim 1 , wherein, when tilting in each direction, the two first rubber domes and the second rubber dome positioned therebetween are buckled simultaneously . The operation member can be tilted in four directions of a cross shape, and the four first rubber domes arranged in a cross shape are adjacent to the first rubber dome adjacent to the operation member in the middle of the cross-shaped tilting operation direction of the operation member. 1 and a four second rubber dome arranged one by one between each rubber dome, and the first rubber dome and the second rubber dome are arranged at positions on the same circumference, the said operating member cross-shaped two of the first rubber dome and the one of the second rubber dome is characterized in that it is operated according to claim 1 Symbol placement multidirectional switch device by tilting operation in one direction of four directions. The operation member is tilted in four directions of a cross shape, and the first rubber dome adjacent to the four first rubber domes arranged in a cross shape at an intermediate portion of the operation member in the cross-shaped tilting operation direction. The four second rubber domes arranged one by one between each of the rubber domes, and each of the four second rubber domes is arranged on a straight line connecting the adjacent first rubber domes, and the operation member two of the first rubber dome and the one of the second rubber dome, characterized in that is operated claim 1 Symbol placement multidirectional switch device by tilting operation in one direction of the cross-shaped four-direction .   5. The multidirectional switch device according to claim 3, wherein each of the four second rubber domes is disposed at an intermediate position between each of the four first rubber domes. 6. The case is formed in a box shape, the plurality of switches are positioned in the case, and the first and second rubber domes are disposed in a concave portion of the upper wall of the case so as to face the operation member. Item 4. The multidirectional switch device according to Item 1.

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