1. Field of the Invention
The present invention relates to variable resistor, especially to a variable resistor that is free of rotation angle limitation and has regular changes in resistance value while turning this variable resistor.
2. Description of the Related Art
A variable resistor is a passive component having three terminals that is commonly used to adjust a level of analog signals, such as a volume control of a radio or a brightness control of a lamp.
With reference to
The casing (60) has a stopper (600) formed inside the casing and extends from an inner bottom of the casing (60).
The substrate (61) is mounted on the casing (60) and has a through hole (610) and multiple copper foils (611). The copper foils (611) are formed on a front surface of the substrate (61) and includes a first copper foil (611a), a second copper foil (611b) and a third copper foil (611c). The first copper foil (611a) has an annular segment surrounding the through hole (610). The second copper foil (611b) and the third copper foil (611c) are respectively formed beside the first copper foil (611a) with a gap.
The resistance element (62) is mounted on the substrate (61), surrounds the annular segment of the first copper foil (611a) and has two ends respectively connecting the second copper foil (611b) and the third copper foil (611c). A maximal and constant resistance value of the conventional variable resistor can be measured between the second and third copper foil (611b, 611c).
The shaft mount (63) is mounted on a back surface of the substrate (61) and has a bushing (630) extending into the through hole (610) of the substrate (61).
The shaft (64) is mounted through the bushing (630) of the shaft mount (63).
The wiper mount (65) is attached to an end of the shaft (64) and rotated by the shaft (64) and has a lip (650) longitudinally protruding from an edge of the wiper mount (65) and abutting against the stopper (600) of the casing (60) to limit the rotating angle of the wiper mount (65).
The wiper (66) is electrically conductive, is mounted on the wiper mount (65), rotates with the wiper mount (65) and has multiple first contacts (660) and multiple second contacts (661). The first contacts (660) contact the resistance element (62). The second contacts (661) contact the annular segment of the first copper foil (611a).
When the wiper (66) rotates with the wiper mount (65), the contacts (660, 661) then slide on the resistance element (62) and the annular segment of the first copper foil (611a) and thereby changes resistance value between the first copper foil (611a) and another copper foil (611b or 611c). The stopper (600) of the casing (60) limits a rotation angle range of the wiper (66) by stopping the lip (650) of the wiper mount (65) to prevent the first contacts (660) of the wiper (66) from contacting the copper foils (611a, 611b, 611c) and causing a short circuit.
However, since the wiper (66) cannot rotate a complete revolution, rotating the shaft (64) with an inappropriate force may easily break the attachment between the shaft (64) and the wiper mount (65).
To overcome the shortcomings, the present invention provides a variable resistor that is free of rotation angle limitation to mitigate or obviate the aforementioned problems.
The main objective of the invention is to provide a variable resistor that is free of rotation angle limitation.
A variable resistor has a substrate, an insulating film, a resistance element, a rotary assembly and a wiper.
The substrate is mounted on a casing and has a through hole, a first terminal, a second terminal and a third terminal. The first terminal has an annular segment surrounding the through hole. The second terminal is separated from the first terminal. The third terminal is separated from the first terminal and the second terminal and has a semi-circular segment disposed adjacent to the annular segment of the first terminal.
The insulating film covers the second terminal and the semi-circular segment of the third terminal, and has a central hole corresponding to the annular segment of the first terminal and has two gaps respectively corresponding to the second terminal and a distal end of the semi-circular segment.
The resistance element is mounted on the insulating film and respectively contacts the second terminal and the distal end of the semi-circular segment of the third terminal through the gaps.
The rotary assembly is mounted on the substrate and attached to the casing.
The wiper is attached to and rotated by the rotary assembly and has multiple first contacts contacting the resistance element and multiple second contacts contacting the annular segment of the first terminal.
A user can rotate the shaft complete revolution without any limitation of rotation angle and avoid easily breaking the rotation structure of the variable resistor.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
With reference to
The casing (10) has an open end and may have multiple clamping tabs.
The substrate (20) is mounted on the open end of the casing (10) and has a front surface, a rear surface, a through hole (21), multiple optional soldering holes and a terminal group (22). The soldering holes are formed through the substrate (20). The terminal group (22) is conductive and formed on the front surface of the substrate (20) and has a first terminal (22a), a second terminal (22b) and a third terminal (22c). The first terminal (22a) has an annular segment surrounding the through hole (21) and a connector extending from the annular segment and connecting to a soldering hole. The second terminal (22b) is separated from the first terminal (22a) and has a connector adjacent to the connector of the first terminal (22a) and connecting a soldering hole. The third terminal (22c) is separated from the first terminal (22a) and the second terminal (22b) and has a semi-circular segment and a connector. The semi-circular segment is disposed adjacent to the annular segment of the first terminal (22a) and has a proximal end and distal end. The connector of the third terminal (22c) extends from the proximal end of the semi-circular segment and adjacent to the connector of the second terminal (22b) and connecting a soldering hole. The terminals (22a, 22b, 22c) may be implemented as copper foil or the like.
With further reference to
The resistance element (24) is annular, is mounted on the insulating film (23) and respectively contacts the second terminal (22b) and the distal end of the semi-circular segment of the third terminal (22c) through the gaps (230) of the insulating film (23). The gaps (230) allow a constant resistance value to be measured between the second and third terminal (22b, 22c). The resistance element (24) may be implemented as carbon film.
The rotary assembly (30) is mounted on the substrate (20) and attached to the casing (10) and may have a shaft mount (31), a shaft (32) and a wiper mount (33). The shaft mount (31) is mounted on the rear surface of the substrate (20), may be clamped by the clamping tabs of the casing (10) and has a pushing (310). The bushing (310) corresponds to and is mounted in the through hole (21) of the substrate (20). The shaft (32) is mounted through the bushing (310) of the shaft mount (31) and has a connecting end (320) extending out from the bushing (310). The wiper mount (33) is attached to the connecting end (320) of the shaft (32) maybe with a mounting slot (330) and is rotated by the shaft (32) and faces the front surface of the substrate (20).
The wiper (40) is attached to and rotated by the rotary assembly (30), has multiple first contacts (41) and multiple second contacts (42) and may be mounted on the wiper mount (33). With further reference to
The pin assembly (50) is mounted on the substrate (20) and has a base and multiple pins (51). The multiple pins (51) are respectively formed through the base, extend through the soldering holes of the substrate (20) and are soldered on the connectors of the terminals (22a, 22b, 22c).
When the shaft (32) is rotated and drives the wiper (40) mounted on the wiper mount (33) rotating, the first contacts (41) and the second contacts (42) of the wiper (40) then respectively slides on the resistance element (23) and the annular segment of the first terminal (22a). Therefore, a resistance value between the first terminal (22a) and another terminal (22b or 22c) is changed. With further reference to
Since the insulating film (23) covers the second terminal (22b) and the third terminal (22c), the wiper (40) can slide with a complete revolution over the resistance element (24) without contacting the second and third terminal (22b, 22c). Therefore, the shaft (32) can be rotated by a complete revolution without any limitation of rotation angle and avoid easy breakage of the rotary assembly (30) of the variable resistor.
Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and features of the invention, the disclosure is illustrative only. Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
Number | Name | Date | Kind |
---|---|---|---|
4521761 | Welch | Jun 1985 | A |
6380841 | Masuda et al. | Apr 2002 | B2 |
6434815 | Onishi et al. | Aug 2002 | B1 |
6469613 | Miura | Oct 2002 | B2 |