Controllable electronic switch with interposable non-conductive element to break circuit path

US 6,825,750 B2
Filed: 11/27/2002
Issued: 11/30/2004
Est. Priority Date: 07/10/2001
Status: Expired due to Term

First Claim

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1. A controllable electronic switch, comprising:

a pair of electrical contacts, one of said electrical contacts connected to an incoming power wire and the other connected to an electrical conductor;

a bimetal arm;

a wedge-shaped member proximate to said pair of electrical contacts, said wedge-shaped member attached to one end of said bimetal arm;

a heating element coupled to the bimetal arm; and

a switch control signal controlling said heating element, whereby said heating element is caused to heat to a point sufficient to bend said bimetal arm and thereby cause said wedge-shaped member to force open said pair of electronic contacts or allow them to close, thus breaking or making contact between the incoming power wire and the electrical conductor.

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Abstract

A controllable electronic switch for, e.g., controlling power distribution comprises a deformable member such as a bimetal arm that can be deformed to break an electrical path. The deformable member may be anchored at one end and in controllable contact with an electrical conductor at the other end. A heating element, such as a coil, can be used to selectively heat the deformable member. The controllable electronic switch can alternatively comprise a deformable member that is terminated in a wedge-shaped member. When the deformable member bends in response to being heated, the wedge-shaped member forces apart a pair of contacts thus breaking an electrical path. The wedge-shaped member and/or associated structures may be configured as a cam mechanism with multiple latching positions.

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22 Claims

1. A controllable electronic switch, comprising:
- a pair of electrical contacts, one of said electrical contacts connected to an incoming power wire and the other connected to an electrical conductor;
  
  a bimetal arm;
  
  a wedge-shaped member proximate to said pair of electrical contacts, said wedge-shaped member attached to one end of said bimetal arm;
  
  a heating element coupled to the bimetal arm; and
  
  a switch control signal controlling said heating element, whereby said heating element is caused to heat to a point sufficient to bend said bimetal arm and thereby cause said wedge-shaped member to force open said pair of electronic contacts or allow them to close, thus breaking or making contact between the incoming power wire and the electrical conductor.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 13, 14, 15)
- - 2. The controllable electronic switch of claim 1, wherein said wedge-shaped member acts as a mechanical cam having multiple latching states.
  - 3. The controllable electronic switch of claim 2, wherein said wedge-shaped member comprises a front wedge section, a central socket, and a rear wedge section, and wherein the controllable electronic switch further comprises a locking member adapted to be received by the central socket and thereby place the wedge-shaped member in a latching position.
  - 4. The controllable electronic switch of claim 2, wherein the heating of said heating element switches the wedge-shaped member among the multiple latching states.
  - 5. The controllable electronic switch of claim 1, wherein said wedge-shaped member is attached to a pivoting arm, said pivoting arm being caused to rotate about a pivot point when said bimetal arm bends.
  - 6. The controllable electronic switch of claim 1, wherein power is conveyed from the incoming power wire to a remote load through the electrical conductor when said pair of electrical contacts are in contact with one another, and wherein no power is conveyed to the remote load when said pair of electrical contacts are separated from one another.
  - 7. The controllable electronic switch of claim 1, wherein said heating element comprises a resistive coil.
  - 8. The controllable electronic switch of claim 1, wherein said switch control signal is generated via manual activation.
  - 9. The controllable electronic switch of claim 1, wherein said switch control signal is generated via an electronic command signal received from a remote source.
  - 10. The controllable electronic switch of claim 1, wherein said bimetal arm has a top side comprised of a first metallic substance and a bottom side comprised of a second metallic substance having different thermal properties than the first metallic substance.
  - 13. The method of claim 2, wherein said wedge-shaped member acts as a mechanical cam having multiple latching states.
  - 14. The method of claim 13, wherein said wedge-shaped member comprises a front wedge section, a central socket, and a rear wedge section, and wherein the method further comprises the step of placing the wedge-shaped member in a latching position by receiving a locking member in the central socket.
  - 15. The method of claim 13, further comprising the step of heating said heating element to switch the wedge-shaped member among the multiple latching states.

11. A controllable electronic switch, comprising:
- a pair of electrical contacts, one of said electrical contacts connected to an incoming power wire and the other connected to an electrical conductor;
  
  a bimetal arm;
  
  a wedge-shaped member proximate to said pair of electrical contacts;
  
  a heating element coupled to the bimetal arm; and
  
  a switch control signal controlling said heating element, whereby said heating element is caused to heat to a point sufficient to bend said bimetal arm and thereby cause said wedge-shaped member to force open said pair of electronic contacts or allow them to close, thus breaking or making contact between the incoming power wire and the electrical conductor;
  
  wherein power is conveyed from the incoming power wire to a remote toad through the electrical conductor when said pair of electrical contacts are in contact with one another, and wherein no power is conveyed to the remote load when said pair of electrical contacts are separated from one another.

12. A method, comprising the steps of:
- connecting a first one of a pair of electrical contacts to an incoming power wire and the second one of said pair of electrical contacts to an electrical conductor;
  
  coupling a heating element coupled to a bimetal arm;
  
  positioning a wedge-shaped member proximate to said pair of electrical contacts, said wedge-shaped member attached to one end of said bimetal arm; and
  
  controlling said heating element with a switch control signal, whereby said heating element controllably bends said bimetal arm thereby causing said wedge-shaped member to open or close said pair of electronic contacts, thus breaking or making contact between the incoming power wire and the electrical conductor.
- View Dependent Claims (16, 17, 18, 19, 20, 21)
- - 16. The method of claim 12, further comprising the steps of:
17. The method of claim 12, further comprising the steps of conveying power from the incoming power wire to a remote load through the electrical conductor when said pair of electrical contacts are in contact with one another, and preventing power from being conveyed to the remote load when said pair of electrical contacts are separated from one another.
18. The method of claim 12, wherein said heating element comprises a resistive coil.
19. The method of claim 12, further comprising the step of manually activating said switch control signal.
20. The method of claim 12, further comprising the step of activating said switch control signal by an electronic command signal received from a remote source.
21. The method of claim 12, wherein said bimetal arm has a top side comprised of a first metallic substance and a bottom side comprised of a second metallic substance having different thermal properties than the first metallic substance.

22. A method, comprising the steps of:
- connecting a first one of a pair of electrical contacts to an incoming power wire and the second one of said pair of electrical contacts to an electrical conductor;
  
  coupling a heating element coupled to a bimetal arm;
  
  positioning a wedge-shaped member proximate to said pair of electrical contacts;
  
  controlling said heating element with a switch control signal, whereby said heating element controllably bends said bimetal arm thereby causing said wedge-shaped member to open or close said pair of electronic contacts, thus breaking or making contact between the incoming power wire and the electrical conductor; and
  
  conveying power from the incoming power wire to a remote load through the electrical conductor when said pair of electrical contacts are in contact with one another, and preventing power from being conveyed to the remote load when said pair of electrical contacts are separated from one another.

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Current Assignee
I/O Controls Corporation
Original Assignee
Yingco Electronic Incorporated
Inventors
Ying, Jeffrey
Primary Examiner(s)
Vortman, Anatoly

Application Number

US10/307,222
Publication Number

US 20040004533A1
Time in Patent Office

734 Days
Field of Search

337/14, 337/16, 337/36, 337/85, 337/86, 337/102, 337/105, 337/107, 337/113, 337/333, 337/362, 337/377
US Class Current

337/105
CPC Class Codes

H01H 61/02   wherein the thermally-sensi...

H01H 9/32   Insulating body insertable ...

H02J 13/00022   using wireless data transmi...

H02J 13/00036   the elements or equipment b...

Y02B 90/20   Smart grids as enabling tec...

Y04S 40/126   using wireless data transmi...

Controllable electronic switch with interposable non-conductive element to break circuit path

First Claim

3 Assignments

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Abstract

Citations

22 Claims

Specification

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Controllable electronic switch with interposable non-conductive element to break circuit path

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

22 Claims

Specification

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Solutions

Use Cases

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