The present invention relates to a sliding electric component such as a potentiometer or switch provided with a wiper.
Switch circuits each configured to electrically connect or disconnect between terminals via sliding of a wiper on a power collecting portion or an insulator have been widely used. For example, Patent Literature (hereinafter, referred to as “PTL”) 1 and PTL 2 each disclose an example of the switch circuit.
PTL 1 discloses a technique that forms the insulator by cutting a power collecting portion formed on an insulating substrate. In addition, PTL 2 discloses a technique that forms the insulator by forming a comb-shaped power collecting portion on an insulating substrate.
When wiper 6 made of metal is positioned in contact with first and second power collecting portions 3 and 4, the switch is in a closed state where first and second terminals 1 and 2 are in electric conduction. Meanwhile, when wiper 6 is positioned in contact with first power collecting portion 3 and insulator 5, the switch is in an open state where first and second terminals 1 and 2 are not in electric conduction.
When wiper 6 slides on first and second power collecting portions 3 and 4, there may be noise and/or unsmooth sliding due to friction between the metals. Moreover, the life of wiper 6 being slidable may be reduced. For this reason, carbon paste excellent in slidability is often applied to the entire surfaces of first and/or second power collecting portions 3 and 4.
PTL 1
Japanese Utility Model (Registration) Application Laid-Open No. HEI 2-136304
PTL 2
Japanese Utility Model (Registration) Application Laid-Open No. HEI 3-26021
When the carbon paste is applied to the entire surfaces of first and/or second power collecting portions 3 and/or 4, the applied carbon paste generates abrasion powder. The generated abrasion powder easily scatters, and when the abrasion powder scatters to insulator 5, the insulation quality of insulator 5 may degrade.
The present invention has been made in order to solve the problem mentioned above and thus aims to provide a sliding electric component capable of extending the life of a wiper, suppressing noise during sliding, making the wiper slide smoothly, and suppressing the generation of abrasion powder from carbon paste.
The present invention can provide a sliding electric component including: a first power collecting portion; a second power collecting portion; and a wiper configured to slide on the first and the second power collecting portions, in which a plurality of regions each made of carbon paste are formed on the second power collecting portion where the wiper slides, the plurality of regions being intermittently formed in a direction in which the wiper slides.
According to the present invention, it is made possible to extend the life of a wiper, suppress noise during sliding, make the wiper slide smoothly, and suppress the generation of abrasion powder from carbon paste.
Hereinafter, a description will be given of an embodiment of the present invention with reference to the drawings.
When wiper 15 made of metal is positioned in contact with first and second power collecting portions 12 and 13, the switch is in a closed state where first and second terminals 10 and 11 are in electrical conduction. Meanwhile, when wiper 15 is positioned in contact with first power collecting portion 12 and insulator 14, the switch is in an open state where first and second terminals 10 and 11 are not in electrical conduction.
Carbon paste regions 12a and 13a having conductivity are intermittently formed in a direction in which wiper 15 slides. Carbon paste regions 12a are formed on the surface of first power collecting portion 12 to be in contact with wiper 15 while carbon paste regions 13a are formed on the surface of second power collecting portion 13 to be in contact with wiper 15.
The formation of carbon paste regions 12a and 13a excellent in slidability can extend the life of slidability of wiper 15 twice as long as that of the related art. Moreover, it is made possible to suppress the noise that is generated when wiper 15 slides. Furthermore, the frictional coefficient becomes so small that wiper 15 slides smoothly.
Furthermore, forming carbon paste regions 12a and 13a intermittently can suppress the generation of abrasion powder. Thus, an increase in the contact resistance value between wiper 15 and first power collecting portion 12 or second power collecting portion 13 can be suppressed. Furthermore, the amount of abrasion powder that scatters to insulator 14 can be reduced, so that insulator 14 can be prevented from decreasing in insulation quality. Thus, the switch increases in reliability.
Note that, although carbon paste regions 12a and 13a are formed on the surfaces of both first and second power collecting portions 12 and 13 in the example of
When wiper 15 includes four metal brushes as illustrated in
In addition, a dotted pattern in which circular carbon paste regions 12a and 13a are spread may be employed as illustrated in
Moreover, as illustrated in
Furthermore, although first and second power collecting portions 12 and 13 are each formed in a linear shape in
Wipers 15 and 24 are attached to rotating body 30. Rotating body 30 is rotatably supported by insulating substrate 31.
First and second terminals 10 and 11, first and second power collecting portions 12 and 13, insulating body 14, wiper 15, and carbon paste regions 12a and 13a are identical to the elements of the switch circuit described with
In the example of
Meanwhile, third and fourth terminals 20 and 21, resistor 22, third power collecting portion 23 and wiper 24 form a potentiometer. Resistor 22 is formed of a carbon resistor, for example. Moreover, third power collecting portion 23 is formed of an etched metal foil or a metal part or conductive coating material such as silver
In addition, the resistor value between third terminal 20 and fourth terminal 21 can be changed by sliding wiper 24 made of metal while wiper 24 is in contact with both resistor 22 and third power collecting portion 23.
Furthermore, carbon paste regions 23a having conductivity are formed intermittently on third power collecting portion 23 in a direction in which wiper 24 slides. Thus, the same effects as those described in the cases in
Note that, carbon paste regions 12a, 13a and 23a may be formed from the edges of first, second and third power collecting portions 12, 13 and 23 with a predetermined interval.
In the example of
Meanwhile, when carbon paste regions 12a and 13a are formed without the interval mentioned above, first and second power collecting portions 12 and 13 may be electrically connected with each other due to manufacturing variations. For example, as illustrated in
Because of the concern mentioned above, carbon paste regions 12a are formed from a the edge of first power collecting portion 12 in the short-side direction with a predetermined interval while carbon paste regions 13a are formed from the edge of second power collecting portion 13 in the short-side direction with a predetermined interval. Thus, the insulation quality between first and second power collecting portions 12 and 13 can be ensured.
As has been described above, the sliding electric component according to the embodiment is capable of extending the life of the wiper, suppressing noise during sliding, making the wiper slide smoothly, and suppressing the generation of abrasion powder from carbon paste.
The sliding electric component according to the present invention is suitable for use as a sliding electric component such as a potentiometer or switch provided with a wiper.
1, 10 First terminal
2, 11 Second terminal
3, 12 First power collecting portion
4, 13 Second power collecting portion
5, 14 Insulator
6, 15, 24 Wiper
12
a,
13
a,
23
a Carbon paste region
20 Third terminal
21 Fourth terminal
22 Resistor
23 Third power collecting portion
30 Rotating body
31 Insulating substrate
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2013/004698 | 8/2/2013 | WO | 00 |