The present invention relates to a switch, and particularly relates to a switch that is operable in multiple directions.
As a switch that is operable in multiple directions, for example, there have been a multi-directional switch assembly and a switch module (see Patent Document 1). As illustrated in
Patent Document 1: U.S. Pat. No. 6,787,716
However, in the multi-directional switch assembly and the switch module, the actuator 102 is assembled with an internal control unit 102a and an external control unit 102b by a universal joint around a guide pin 102c. Hence the multi-directional switch assembly has large numbers of parts and assembling steps, thus taking time and labor, and thus has low productivity, which has been problematic.
In view of the above problem, it is an object of the present invention to provide a switch with small numbers of parts and assembling steps and high productivity.
According to one aspect of the present invention, in order to solve the problems, there is provided a switch including: a base on which a bearing body having a bearing part at an upper end is provided in a protruding manner; an operating lever having an operating shaft with a lower end surface (with a curved surface shape, for example, a curved concave shape, a spherical convex shape, or a spherical concave shape) rotatably supported by the bearing part, and at least one operating leg extending from the operating shaft toward the base; and at least one contact mechanism having a fixed contact and a movable contact capable of moving by the operating leg during rotation of the operating shaft, the contact mechanism being disposed on an upper surface of the base, with the movable contact opened and closed by the operating leg with respect to the fixed contact.
According to the aspect of the present invention, by rotating an operating shaft of an operating lever, a contact mechanism can be directly driven by an operating leg extending from the operating shaft. It is thereby possible to obtain a switch with small numbers of parts and production steps and high productivity.
These and other objects and features of the present invention will become apparent from the following description in conjunction with the embodiments with reference to the accompanying drawings. In this drawing,
Before continuing with the description of the present invention, the same reference numerals are provided to the same parts in the accompanying drawings.
Switches according to embodiments of the present invention will be described in accordance with the accompanied drawings of
In the following description, in describing configurations represented in the drawings, terms illustrating directions such as “up”, “down”, “left”, and “right”, and other terms including those, will be used. It is noted that the purpose for using those terms is to facilitate understanding of the embodiments through the drawings. Accordingly, those terms do not necessarily indicate directions used at the time of actually using the embodiments of the present invention. A technical scope of the invention recited in the claims shall not be restrictively interpreted by using those terms.
As illustrated in
The switch includes at least a base 10, a pair of contact mechanisms 20, and an operating lever 30. That is, this switch includes: the base 10 in which a bearing body 11 having a bearing part 12 at an upper end is provided in a protruding manner; the operating lever 30 having an operating shaft 31 with a lower end surface rotatably supported by the bearing part 12, and at least one operating leg 35 extending from the operating shaft 31 toward the base 10; and at least the one contact mechanism 20 having a normally closed fixed contact 24 and a movable contact 28 movable by the operating leg 35 during rotation of the operating shaft 31, the contact mechanism 20 being disposed on an upper surface of the base 10, with the movable contact 28 opened and closed by the operating leg 35 with respect to the normally closed fixed contact 24.
As a more specific example, as illustrated in
The base 10 is a planar square plate-shaped body, and the bearing body 11 is provided in a protruding manner at the center of the upper surface of the base 10. The bearing body 11 is provided with the bearing part 12 having a spherical surface shape at the upper end thereof. A guide groove 13 penetrating the base 10 is formed in the base of the bearing part 12 along an axial direction. The guide groove 13 is formed in a place where a core of a molding die for molding the bearing body 11 is disposed. A plurality of support receiving parts 14 having a substantially fan shape in cross section are integrally molded on the outer peripheral surface of the bearing body 11 along the axial direction. Therefore, the guide groove 13 is disposed between the support receiving parts 14, 14.
Further, the base 10 has an annular rib 15 formed along the outer peripheral edge of the upper surface thereof. The annular rib 15 is provided with notches 16a, 16b, 16c for respectively assembling a normally open fixed contact terminal 21, a movable contact terminal 25, and a normally closed fixed contact terminal 23 described later. In particular, a press-fit groove for press-fitting the normally closed fixed contact terminal 23 is formed on the facing counter surface of the notch 16c. A pair of locking protrusions 18, 18 provided in a protruding manner on the facing outer surfaces of the base 10. A positioning protrusion 19 (
As illustrated in
The normally open fixed contact terminal 21 has a normally open fixed contact 22 fixed to the central part thereof, for example, caulked and fixed. The normally open fixed contact terminal 21 is bent at one end thereof to form a press-fit part 21a, while the other end thereof is bent to serve as a terminal part 21b.
Press-fit protrusions 23a are provided in a protruding manner on both side end surfaces of the center part of the normally closed fixed contact terminal 23. Further, the normally closed fixed contact terminal 23 is bent at one end thereof, and the normally closed fixed contact 24 is fixed, for example, caulked and fixed, while the other end thereof is bent to serve as a terminal part 23b.
The movable contact terminal 25 is bent and raised at both side edges of the center part thereof so as to face each other, thereby forming a pair of rising pieces 26, 26. The rising pieces 26, 26 have locking grooves 26a, 26b formed on the facing outer surfaces. Moreover, the movable contact terminal 25 is bent at the one end thereof to form a press-fit part 25a, and is bent at the other end to form a terminal part 25b.
The movable touch piece 27 is a conductive thin plate material having a planar rectangular shape, and the movable contact 28 is fixed, for example, caulked and fixed to one end thereof, and an inversion spring 29 is cut out from the one end thereof. The inversion spring 29 has a substantially barrel side surface shape and is curved in a plate thickness direction. Further, the movable touch piece 27 is provided with an engaging hole 27a at the other end thereof.
Then, as illustrated in
Further, the press-fit protrusion 23a of the normally closed fixed contact terminal 23 is press-fitted into the press-fit groove provided in the notch 16c of the base 10 and assembled. Thereby, the movable contact 28 and the normally closed fixed contact 24 contactably and separably face each other.
In the first embodiment, the four pairs of contact mechanisms 20 are arranged point-symmetrically about the bearing body 11 of the base 10. Further, all of the components of the contact mechanism 20 can be assembled from above the base 10. Therefore, by rotating the base 10 around the bearing body 11, the contact mechanism 20 can be continuously assembled to the base 10 by an automatic assembling machine.
As illustrated in
Further, as illustrated in
As illustrated in
As illustrated in
Then, as illustrated in
The partition wall 55 of the cover 50 is disposed at a position that partitions the normally closed fixed contact 24 and the movable contact 28, which contactably and separably face each other, away from the internal space. Hence it is possible to prevent adverse effects due to an arc generated at the time of switching the contacts, dust accompanying the arc, and the like.
For example, as illustrated in
Next, a method for operating the switch will be described.
First, as illustrated in
When the operating lever 30 is rotated and inclined to the front side in
Subsequently, when the load on the operating lever 30 is eliminated, the operating leg 35 is pushed back by the spring force of the movable touch piece 27. Therefore, when the operating point of the operating protrusion 36 exceeds the reference line connecting the locking groove 26a and the locking groove 26b, the movable touch piece 27 returns to its original shape by the spring force of the inversion spring 29. As a result, the movable contact 28 is separated from the normally open fixed contact 22 and comes into contact with the normally closed fixed contact 24, whereby the original state is restored.
Note that the position regulating ribs 38 provided between the adjacent operating legs 35, 35 comes into contact with the support receiving part 14 of the bearing body 11 and faces the support receiving part 14 so as to regulate its position. Thus, when the operating lever 30 is rotated in a direction other than the predetermined direction, the position regulating rib 38 comes into contact with the support receiving part 14 and the position thereof is regulated. Since the operating lever 30 can no longer be rotated in the direction other than the predetermined direction, erroneous operation of the operating lever 30 can be prevented.
Further, in the switch, the retaining rib 37 provided on the lower surface base of the operating leg 35 is fitted in the guide groove 13 of the bearing body 11 and guided (
A second embodiment is a case where, as illustrated in
In the second embodiment, in order to prevent erroneous operation of an operating lever 30, a position regulating rib 38, having an arcuate shape, of the operating lever 30 comes into contact with a support receiving part 14 having an arcuate shape in cross section of a bearing body 11 and faces the support receiving part 14 so as to regulate its position. Therefore, when the operating lever 30 is rotated in a direction other than the predetermined direction, the position regulating rib 38 comes into contact with the support receiving part 14 for positional regulation, whereby it is possible to prevent erroneous operation of the operating lever 30.
Further, a retaining rib 37 provided on the lower surface base of an operating leg 35 is fitted in a guide groove 13 of the bearing body 11 and guided (
The other parts of the second embodiment are substantially the same as those of the first embodiment described above, and hence the same reference numerals are provided to the same parts, and the description thereof is omitted.
A third embodiment is a case where, as illustrated in
The other parts of the third embodiment are substantially the same as those of the first embodiment described above, and hence the same reference numerals are provided to the same parts, and the description thereof is omitted.
A fourth embodiment is a case (
In the fourth embodiment, an operating hole 51 having a planar circular shape is provided on the ceiling surface of the cover 50 (
According to the fourth embodiment, as illustrated in
The other parts of the fourth embodiment are substantially the same as those of the first embodiment described above, and hence the same reference numerals are provided to the same parts, and the description thereof is omitted.
A fifth embodiment illustrates a switch that is operable in four directions as illustrated in
That is, as illustrated in
As illustrated in
In particular, storage parts 16d are provided at both side corners of the notches 16a, 16b, respectively. When the normally open fixed contact terminal 21 and the movable contact terminal 25, described later, are assembled to the base 10, the storage part 16d can store resin scraps cut out by press-fit protrusions 21c, 25c (
As illustrated in
In particular, the press-fit protrusions 21c and 25c are respectively provided in a protruding manner on both side end surfaces of the normally open fixed contact terminal 21 and the movable contact terminal 25.
The press-fit protrusions 23a and locking protrusions 23c are provided in a protruding manner on both side end surfaces of the center part of the normally closed fixed contact terminal 23. As illustrated in
As illustrated in
As illustrated in
Further, the operating shaft 31 is integrally molded with a connecting part 39 having a substantially disc shape at the lower end thereof. Four operating legs 35 extend laterally at equal pitches from the outer peripheral surface of the connecting part 39. An operating protrusion 36 is provided in a protruding manner on the lower surface of the free end of the operating leg 35.
Further, the connecting part 39 is provided for the four operating legs 35, and fitting holes 39a each having a substantially square shape are formed at equal pitches in the base of the operating shaft 31. The fitting hole 39a has such a size that the retaining rib 11a of the base 10 can be fitted. Further, in the fitting hole 39a, an engaging protrusion 39b is provided at a corner adjacent to the lower end of the operating shaft 31 in the corner part of the inner peripheral surface. The engaging protrusion 39b is continuous with the spherical convex part 34b and forms the same spherical surface.
A guide groove 39c is formed along the axial direction between the pair of engaging protrusions 39b, 39b provided in the same fitting hole 39a. The guide groove 39c is formed in a place where a core of a molding die for molding the engaging claw part 33 is disposed.
As illustrated in
As illustrated in
The other parts of the fifth embodiment are substantially the same as those of the first embodiment described above, and hence the same reference numerals are provided to the same parts, and the description thereof is omitted.
As illustrated in
As illustrated in
As illustrated in
As illustrated in
As illustrated in
Then, as illustrated in
A seventh embodiment illustrates a switch that is operable in two directions as illustrated in
The other parts of the seventh embodiment are substantially the same as those of the sixth embodiment described above, and hence the same reference numerals are provided to the same parts, and the description thereof is omitted.
According to the seventh embodiment, there is an advantage that an elongated switch can be obtained.
As a modification of the seventh embodiment, for example, only one contact mechanism 20 may be assembled to a base 10.
A variety of embodiments of the present invention have been described in detail with reference to the drawings, and lastly, a variety of aspects of the present invention will be described.
According to the above one aspect of the present invention, even when the mounting position of the base is limited, by extending the operating leg of the operating lever in a desired direction, it is possible to arbitrarily select the operating direction. Hence a versatile switch with high design flexibility can be obtained.
In the aspect of the present invention, the contact surface on which the bearing part and the lower end surface of the operating shaft come into contact may be formed in a curved surface shape. For example, other than making the bearing part and the lower end surface of the operating shaft the combination of the curved convex surface and the curved concave surface, it is possible to make them a combination of a spherical convex surface and a spherical concave surface.
As one aspect of the present invention, in the above aspect, the contact surface on which the bearing part and the lower end surface of the operating shaft come into contact may have a spherical surface shape.
As another aspect of the present invention, in the above aspect, the bearing part may have a spherical convex shape, and a spherical concave part that comes into surface contact with the bearing part of the spherical convex shape may be provided on the lower end surface of the operating shaft.
According to this aspect, the spherical concave part of the operating shaft comes into surface contact with the bearing part having a spherical convex shape. For this reason, the operating shaft can be rotated in multiple directions while ensuring a stable contact state, and hence a large number of contact mechanisms can be operated.
As another aspect of the present invention, in the above aspect, a retaining rib that is elastically engaged with the annular base of the bearing part having the spherical convex shape may be provided on the outer peripheral edge of the spherical concave part.
According to this aspect, it is possible to assemble the operating lever to the bearing body in a single operation. Hence it is possible to obtain a switch with good assemblability and higher productivity.
As a different aspect of the present invention, in the above aspect, when the operating shaft is rotated in a direction other than a predetermined direction (e.g., an operable direction), a position regulating rib that comes into contact with the support receiving part for positional regulation may be provided on the operating shaft, the support receiving part being provided on the outer peripheral surface of the bearing body.
According to this aspect, when the operating shaft is rotated in a direction other than the predetermined direction, the position regulating rib of the operating shaft comes into contact with the support receiving part of the bearing body, and the position of the operating shaft is regulated. Therefore, erroneous operation of the operating lever can be prevented, and a switch with high safety can be obtained.
As another aspect of the present invention, in the above aspect, the bearing part may have a curved concave surface shape.
As another aspect of the present invention, in the above aspect, the curved concave surface shape of the bearing part may be a spherical concave surface shape, and a spherical convex part that comes into surface contact with the bearing part having the spherical concave surface shape may be provided on the lower end surface of the operating shaft.
According to this aspect, the spherical convex part of the operating shaft comes into surface contact with the bearing part having the spherical concave surface shape. For this reason, the operating shaft can be rotated in multiple directions while ensuring a stable contact state, and hence a large number of contact mechanisms can be operated.
As another aspect of the present invention, in the above aspect, the curved concave surface shape of the bearing part has a semicircular groove shape in cross section, and a cylindrical convex part that comes into surface contact with the bearing part having the semicircular groove shape in cross section may be provided on the lower end surface of the operating shaft.
According to this aspect, since the cylindrical convex part is provided on the lower end surface of the operating shaft, the contact area is large and stable operation becomes possible.
As a different aspect of the present invention, in the above aspect, a retaining rib, elastically engaged with the annular base of the spherical convex part, may be provided on the outer peripheral edge of the bearing part of the upper end of the bearing body.
According to this aspect, it is possible to assemble the operating lever to the bearing body in a single operation. Hence it is possible to obtain a switch with good assemblability and higher productivity.
As another aspect of the present invention, in the above aspect, a retaining rib, elastically engaged with the linear base of the cylindrical convex part, may be provided on the outer peripheral edge of the bearing part of the upper end of the bearing body.
According to this aspect, it is possible to assemble the operating lever to the bearing body in a single operation. Hence it is possible to obtain a switch with good assemblability and higher productivity.
As a difference aspect of the present invention, in the above aspect, a cover that is fitted to the base may be further provided, an operating hole, from which the operating lever operably protrudes, may be formed in a ceiling surface of the cover, and an opening edge of the operating hole may be provided with a position regulating protrusion that comes into contact with the operating lever for positional regulation when the operating lever is rotated in a direction other than a predetermined direction.
According to this aspect, when the operating lever is operated in a direction other than the predetermined direction, the operating lever comes into contact with the position regulating protrusion provided at the opening edge of the operating hole to regulate the position of the operating lever. Hence there is an advantage of being able to prevent erroneous operation of the operating lever, and obtaining a switch with even higher safety.
It is to be noted that by combining arbitrary aspects, embodiments, or modifications of the variety of aspects, embodiments, or modifications as appropriate, it is possible to achieve the respective effects of those combined. It is also possible to combine aspects or embodiments, combine examples, or combine aspects or embodiments and examples, and it is also possible to combine features in different aspects or embodiments or examples.
While the present invention has been fully described in connection with the foregoing embodiments and the like with reference to the accompanying drawings, a variety of modifications or corrections will be apparent to those skilled in the art. Such modifications or corrections are to be understood as being included in the scope of the invention according to the appended claims so long as not deviating therefrom.
The switch according to the present invention is not limited to the above embodiment, and for example, it is natural that the operating lever may have three, five or seven operating legs.
Number | Date | Country | Kind |
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2015-1710 | Aug 2015 | JP | national |
2016-0251 | Feb 2016 | JP | national |
Number | Name | Date | Kind |
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3598943 | Barrett | Aug 1971 | A |
3679846 | Dillon | Jul 1972 | A |
4784008 | Paquereau | Nov 1988 | A |
6515650 | Arita | Feb 2003 | B2 |
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6852938 | Nakade | Feb 2005 | B2 |
20020190945 | Arita et al. | Dec 2002 | A1 |
Number | Date | Country |
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201498418 | Jun 2010 | CN |
0949555 | Oct 1999 | EP |
59-033640 | Mar 1984 | JP |
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Entry |
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International Search Report issued in PCT/JP2016/073491, dated Nov. 15, 2016 (2 pages). |
Written Opinion issued in PCT/JP2016/073491, dated Nov. 15, 2016 (6 pages). |
Office Action issued in Chinese Application No. 201680028161.9 dated Sep. 19, 2018 (12 pages). |
Number | Date | Country | |
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20180082809 A1 | Mar 2018 | US |
Number | Date | Country | |
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Parent | PCT/JP2016/073491 | Aug 2016 | US |
Child | 15826290 | US |