The invention relates to a tilt switch, more particularly to a multi-directional tilt switch that uses angular changes to effect ON/OFF switching.
Referring to
However, the ON/OFF switching of the rolling-ball switch 1 can be achieved through a single direction only, but not multiple directions. Further, although the connecting portions 122, 132 can utilize bottom and lateral sides thereof as connecting surfaces having large areas and different orientations, they only increase the overall height of the rolling-ball switch 1 and occupy a large space.
Referring to
With reference to
However, with the advancement of technology, the design of electronic components tends to progress toward precision and miniaturization. Therefore, to miniaturize the rolling-ball switch 1, 2 and to avoid excessive glue that is caused by large contact areas and that can affect the aesthetics and deformation before welding, the size of the mortise must be reduced. Thus, in the case where there is only one mortise, because of the defects during injection molding or insufficient welding area, the consolidation strength and the sealing effect between the base 111, 211 and the cover 112, 212 are easily and adversely affected. Relatively speaking, the waterproof requirement cannot also be met.
Therefore, an object of the present invention is to provide a multi-directional tilt switch that can occupy a minimum space and that has a minimum overall height.
According to this invention, a multi-directional tilt switch comprises a housing, a plurality of conductive terminals and a conductive ball. The housing has a housing inner surface defining a chamber, a housing outer surface opposite to the housing inner surface, and a plurality of slots extending through the housing inner and outer surfaces. Each of the conductive terminals includes an insert portion inserted in a corresponding one of the slots and elongated along a first direction, a contact portion extending from one end of the insert portion into the chamber along a second direction that is transverse to the first direction, and a first connecting surface that is formed on another end of the insert portion oppositely of the contact portion, that extends along the first direction, and that is exposed from the corresponding slot and from the housing outer surface. The contact portions of the conductive terminals are arranged in an array. The conductive body is accommodated in the chamber, and is movable in the chamber between a first position, where the conductive body contacts and bridges two of the contact portions, and a second position, where the conductive body does not contact and bridge any two of the contact portions.
Other features and advantages of the present invention will become apparent in the following detailed description of the preferred embodiment with reference to the accompanying drawings, of which:
The above-mentioned and other technical contents, features, and effects of this invention will be clearly presented from the following detailed description of one embodiment in coordination with the reference drawings.
Referring to
The housing 3 has a housing inner surface defining a chamber 30, a housing outer surface opposite to the housing inner surface, and a plurality of slots 315 extending through the housing inner and outer surfaces. Preferably, the housing 3 includes a base 31 and a cover 32 that are bonded to each other to define the chamber 30. The base 31 includes a base wall 301 opposite to the cover 32, and a surrounding wall 302 extending transversely from the base wall 301 to the cover 32. The base wall 301 has an indentation 312 formed in an inner surface thereof and communicating with the chamber 30. The surrounding wall 302 has a wall end face 314 facing the cover 32, and a wall inner surface that forms a portion of the housing inner surface and that is stepped to form a wall shoulder 311 surrounding the chamber 30. Four spaced-apart welding parts 313 are formed on the wall shoulder 311. The cover 32 has an annular protrusion 321 projecting from an inner surface thereof toward the base 31, and an annular flange 324 surrounding the annular protrusion 321. The annular protrusion 321 projects farther away from the inner surface of the cover 32 than the annular flange 324, and has a protrusion outer surface 322, and a protrusion end face 323 facing the wall shoulder 311.
In this embodiment, the housing 3 has four spaced-apart slots 315 disposed around the indentation 312. Two of the slots 315 extend through the base wall 301, and are lengthened to extend to a juncture of the base wall 301 and one wall portion 316 of the surrounding wall 302 and to extend further to the wall portion 316 from the juncture. The other two slots 315 extend through the base wall 301, and are lengthened to extend to a juncture of the base wall 301 and the other opposite wall portion 316′ of the surrounding wall 302 and to extend further to the wall portion 316′ from the juncture. That is, each of the slots 315 has a length that extends along a first direction, and a depth that extends along a second direction that is transverse to the first direction. The base 31 and the cover 32 are coupled to each other along the second direction. Although the four slots 315 are spaced apart from each other in this embodiment, in an alternative embodiment, each two of the slots 315 that are aligned along the first direction may be integrally and spatially connected to each other.
Each of the conductive terminals 4 has a thin plate shape, and includes an insert portion 41 inserted in a respective one of the slots 315 and elongated along the first direction, a contact portion 42 extending from one end of the insert portion 41 into the chamber 30 along the second direction, a first connecting surface 43 that is formed on another end of the insert portion 41 oppositely of the contact portion 42, that extends along the first direction, and that is exposed from the respective slot 315 and from an outer surface of the base wall 301, a second connecting surface 44 that is formed from a second another end of the insert portion 41 oppositely of the contact portion 42, that extends along the second direction from the first connecting surface 43, and that is exposed from the respective slot 315 and from an outer surface of the surrounding wall 302, two groove patterns 45 respectively formed on two opposite lateral surfaces of the insert portion 41, and a notch 46 formed in the first connecting surface 43. The contact portions 42 of the conductive terminals 4 are arranged in an array. The contact portions 42 of each two adjacent ones of the conductive terminals 4 are spaced apart from each other by a distance (d) (see
Referring to
In this embodiment, the conductive body 5 is configured as a ball that is accommodated in the chamber 30 and that has a largest diameter (D) (see
Referring to
Referring again to
Referring to
From the aforesaid description, the advantages and effects of the multi-directional tilt switch 100 of this invention can be summarized as follows:
1. By using the limiting relationship among the surfaces and the different dispositions of the first welded joint portion (A′), the second welded joint portion (B′) and the third welded joint portion (C′), welding areas can be significantly increased, thereby enhancing the bonding strength and the sealing effect of this invention.
2. By arranging the conductive terminals 4 in an array, the conductive body or ball 5 can move within the chamber 30 between the first position that closes the circuit of the tilt switch 100 and the second position that opens the circuit of the tilt switch 100 according to the direction of the external force applied to the tilt switch 100. As such, the present invention can generate ON/OFF switching in different angles.
3. Because the housing 3 is formed with the slots 315 that can hide and receive the insert portions 41 of the conductive terminals 4, respectively, and the conductive terminals 4 are configured as thin plates, a soldering area of the tilt switch 100 may be increased through the first connecting surfaces 43 of the conductive terminals 4 which are exposed from the corresponding slots 315 along the first direction or through the second connecting surfaces 44 of the conductive terminals 4 which are exposed from the corresponding slots 315 along the second direction. As such, the overall height of and the space occupied by the tilt switch 100 is significantly reduced.
While the present invention has been described in connection with what is considered the most practical and preferred embodiment, it is understood that this invention is not limited to the disclosed embodiment but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
Number | Name | Date | Kind |
---|---|---|---|
6180873 | Bitko | Jan 2001 | B1 |
7045724 | Chou | May 2006 | B1 |
7319200 | Chou et al. | Jan 2008 | B2 |
7446272 | Chou | Nov 2008 | B2 |
Number | Date | Country |
---|---|---|
I239025 | Sep 2005 | TW |
I310951 | Jun 2009 | TW |
Number | Date | Country | |
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20140034460 A1 | Feb 2014 | US |