This application claims priority of Taiwanese Application No. 097146920, filed on Dec. 3, 2008.
1. Field of the Invention
This invention relates to a switch, more particularly to a rolling-ball switch.
2. Description of the Related Art
Referring to
In use, the conductive ball 13 contacts simultaneously the terminals 12 so as to place the conventional switch 10 in an “ON” state. When an external force is applied to the switch 10 so that the conductive ball 13 moves away from one of the terminals 12, the switch 10 is shifted from the “ON” state to an “OFF” state. Hence, the conductive ball 13 quickly produces a highly sensitive switching operation, and ON/OFF control of the conventional ball-vibration switch 10 can be effectively attained.
However, since the conductive ball 13 is small and is lightweight, it is possible that the conductive ball 13 may not contact simultaneously the four terminals 12, so that dependable operation of the switch 10 cannot be ensured. Further, the aforementioned conventional ball-vibration switch 10 is only suitable for use in a vibration-sensing device, and is not suitable for use when tilting of an electronic appliance must be detected. Hence, use of the conventional ball-vibration switch 10 is limited.
Therefore, the object of the present invention is to provide a rolling-ball switch that is capable of overcoming the aforementioned drawbacks of the prior art.
According to this invention, a rolling-ball switch comprises a housing defining at least two receiving sections, at least one separating member provided in the housing between the two receiving sections, at least two conductive balls disposed rollably and respectively in the receiving sections, a pair of first terminals extending into one of the receiving sections to contact one of the conductive balls, and a pair of second terminals extending into the other one of the receiving sections to contact the other one of the conductive balls. The conductive balls are rollable toward the respective pairs of the first and second terminals in a first direction. The separating member prevents movement of the conductive balls from one of the receiving sections to the other one of the receiving sections.
Other features and advantages of the present invention will become apparent in the following detailed description of the preferred embodiments of the invention, with reference to the accompanying drawings, in which:
Before the present invention is described in greater detail, it should be noted that the same reference numerals have been used to denote like elements throughout the specification.
Referring to
The housing 2 is made of plastic, and includes a casing part 22, and a plate part 21 that serves as a bottom wall of the housing 2 and that is connected to and that cooperates with the casing part 22 to define two receiving sections 201, 202. The plate part 21 has an inner surface 210 formed with two holding grooves 23, 23′ disposed respectively in the receiving sections 201, 202, an outer surface 212, and two pairs of spaced-apart through holes 211 extending through the inner and outer surfaces 210, 212 thereof and surrounding the holding groove 23′. Each holding groove 23, 23′ has a groove bottom wall with a slanting surface 230, 230′. The slanting surface 230, 230′ has opposite first and second ends 231, 232, 231′, 232′. The first end 231, 231′ is spaced apart from the inner surface 210 at a distance smaller than a distance between the second end 232, 232′ and the inner surface 210, i.e., the slanting surface 230, 230′ slants downwardly from the first end 231, 231′ to the second end 232, 232′.
The casing part 22 has a top wall 221, and a surrounding wall 222 extending downwardly from the top wall 221 and connected to the casing part 21. In this embodiment, a separating member 24 projects downwardly from the top wall 221 between the receiving sections 201, 202. The conductive balls 3, 3′ are disposed rollably and respectively in the receiving sections 201, 202, and are respectively movable along the slanting surfaces 230, 230′ of the holding grooves 23, 23′.
The first terminals 41 extend into the receiving section 201 through a respective pair of the through holes 211 in the plate part 21, are spaced apart from each other at a distance smaller than a diameter of the conductive ball 3, and are disposed proximate to the first end 231 of the slanting surface 230.
The second terminals 41′ extend into the receiving section 202 through another respective pair of the through holes 211 in the plate part 21, are spaced apart from each other at a distance smaller than a diameter of the conductive ball 3′, and are disposed proximate to the first end 231′ of the slanting surface 230′. The conductive balls 3, 3′ are rollable toward the respective pairs of the first and second terminals 41, 41′ in a first direction (X), and are proximate to the second ends 232, 232′ of the slanting surfaces 230, 230′ of the respective holding grooves 23, 23′ when moving away from the respective pairs of the first and second terminals 41, 41′.
With reference to
With reference to
In this embodiment, the conductive balls 3, 3′ are described as contacting simultaneously the respective pairs of the first and second terminals 41, 41′ so as to place the switch 100 in the ON state. However, it is to be noted that the switch 100 may be placed in an ON state in this embodiment even if only one of the conductive balls 3, 3′ is in contact with the respective pair of the first and second terminals 41, 41′.
According to the aforesaid description, for example, if the conduction failure rate of one conductive ball and a pair of the terminals for the typical rolling-ball switch is 10%, the conduction failure rate of the present invention with two conductive balls 3, 3′ and two pairs of the first and second terminals 41, 41′ can then be lowered by 1% (0.1×0.1=0.01), with the conduction rate being estimated to reach more than 96%. Hence, the conduction rate of the present invention is effectively enhanced.
It is worth mentioning that by varying the degree of inclination of the slanting surfaces 230, 230′ in the respective holding grooves 23, 23′, the switch 100 according to the first preferred embodiment of the present invention may be used in various appliances that require automatic switching OFF when tilted to a predetermined angle, such as an electric iron, a floor lamp, a stand fan, an electric heater, a humidifier, a mosquito light, etc., so that risk of electrical fire can be avoided.
Referring to
It is worth mentioning that the switch 100 according to the second preferred embodiment of the present invention may be used in various appliances that require detection of horizontal and vertical signals, such as a liquid crystal display (LCD), an electronic compass, etc. In the case of the LCD, for example, when the conductive balls 3, 3′ are disposed in proximity to the second ends 232, 232′ of the respective holding grooves 23, 23′, the screen displays a vertical picture. When the conductive balls 3, 3′ are disposed in proximity to the first ends 231, 231′ of the respective holding grooves 23, 23′, the screen displays a horizontal picture.
Referring to
The rolling-ball switch 100 further comprises a pair of third terminals 42 extending into the receiving section 203 through a respective additional pair of the through holes 211 in the plate part 21 and disposed proximate to the first end 251 of the slanting surface 250, a pair of fourth terminals 42′ extending into the receiving section 204 through another respective additional pair of the through holes 211 in the plate part 21 and disposed proximate to the first end 251′ of the slanting surface 250′, and two additional conductive balls (3a, 3a′) disposed respectively in the receiving sections 203, 204 and rollable toward the respective pairs of the third and fourth terminals 42, 42′ in a second direction (Y) that is transverse from the first direction (X).
In the absence of an external force, the conductive balls 3, 3′, (3a), (3a′) are disposed respectively in proximity to the second ends 232 (see
When an external force is applied to the switch 100 along the first direction (X), the conductive balls 3, 3′ roll from the second ends 232, 232′ toward the first ends 231 (see
Hence, whether the external force applied to the switch 100 is along the first direction (X) or the second direction (Y), or the switch 100 is tilted, the switch 100 according to the third preferred embodiment can be switched between ON and OFF states quickly, that is, in a highly sensitive manner.
Referring to
It is worth mentioning that each of the first terminals 41maybe connected to an adjacent one of the second terminals 41′ through a conductive member 412. The conductive member 412 may be connected between one first terminal 41 and the adjacent second terminal 41′ to form a substantially U-shaped connection, as shown in
Hence, as long as one of the conductive balls 3, 3′ is in contact with one pair of the first and second terminals 41, 41′, the other pair of the first and second terminals 41, 41′ can also conduct electricity through a series connection with the adjacent ones of the first and second terminals 41, 41′. Hence, ON/OFF operation of the switch 100 can be easily controlled.
Referring to
While the present invention has been described in connection with what are considered the most practical and preferred embodiments, it is understood that this invention is not limited to the disclosed embodiments but is intended to cover various arrangements included within the spirit and scope of the broadest interpretations and equivalent arrangements.
Number | Date | Country | Kind |
---|---|---|---|
097146920 | Dec 2008 | TW | national |