Tire sensor and method of assembly

US 20050120801A1
Filed: 12/05/2003
Published: 06/09/2005
Est. Priority Date: 12/05/2003
Status: Active Grant

First Claim

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1. A sensor for detecting stress within a material of the type comprising first and second capacitor plates spaced apart by a variably dimensioned air gap, the improvement comprising:

a connector block situated between the capacitor plates and holding the capacitor plates together in a predetermined mutual orientation, the connector block including a plurality of rod members protruding from opposite connector block sides and extending into a respective capacitor plate to attach peripheral portions of each capacitor plate to the connector block.

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Abstract

A stress sensor includes two capacitor plates held in a spaced-apart relationship by a connector block situated therebetween. The connector block includes a plurality of rods protruding from opposite connector block sides and extending into a respective capacitor plate to attach peripheral portions of each capacitor plate to the connector block. A small air gap is maintained between peripheral portions of the capacitor plates by the inclusion of a spacer member. Terminal end portions of the protruding rods are deformed such as by the application of heat over an outer surface of the capacitor plates to retain the capacitor plates in a fixed mutual relationship. The terminal end portions of the rods further serve to prevent horizontal or vertical slippage between the capacitor plates when the sensor is vulcanized into rubber compounds such as in a tire. Once embedded within the rubber compound, the gap between the capacitor plates varies responsively to stress within the rubber compound whereby varying proportionately the capacitance of the device. A signal is directed into the sensor device and an antenna positioned proximate to the device detects the capacitance value between the capacitor plates. As the capacitance varies proportionately with stress within the material, the antenna detects the changes and transmits data to a remote reader that interprets the data to ascertain measured stress within the rubber compound.

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20 Claims

1. A sensor for detecting stress within a material of the type comprising first and second capacitor plates spaced apart by a variably dimensioned air gap, the improvement comprising:
- a connector block situated between the capacitor plates and holding the capacitor plates together in a predetermined mutual orientation, the connector block including a plurality of rod members protruding from opposite connector block sides and extending into a respective capacitor plate to attach peripheral portions of each capacitor plate to the connector block.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. A sensor according to claim 1, wherein further comprising a spacer member situated between the capacitor plates, the spacer member including opposite spacer member sides held against a respective inward facing surface of the capacitor plates along peripheral portions of the air gap whereby the air gap is calibrated along the peripheral portions to the thickness of the spacer member.
  - 3. A sensor according to claim 2, wherein the spacer member is composed of MYLAR.
  - 4. A sensor according to claim 1, wherein the connector block rod members extend axially through the capacitor plates to an outer plate side and include terminal rod portions formed at an angle over the capacitor plate along the capacitor plate outer side.
  - 5. A sensor according to claim 4, wherein each respective terminal rod portion of a rod member extends at approximately a ninety degree angle to a longitudinal axis of the rod member.
  - 6. A sensor according to claim 5, wherein the connector block rod members are composed of a heat deformable plastics material.
  - 7. A sensor according to claim 1, wherein the connector block is unitarily formed and composed of a heat deformable plastics material.
  - 8. A sensor according to claim 1, wherein the connector block is disposed between peripheral portions of the capacitor plates and the connector block rods extend into the peripheral capacitor plate portions to attach the peripheral plate portions to the connector block.
  - 9. A sensor according to claim 8, wherein the capacitor plates are substantially circular and the connector block comprises a unitarily formed circular ring disposed between the peripheral portions of the capacitor plates.
  - 10. A sensor according to claim 9, wherein further comprising a spacer ring member situated between the capacitor plates concentrically inward of the connector block, the spacer member including opposite spacer member sides held against a respective inward facing surface of the capacitor plates along peripheral portions of the air gap whereby the air gap is calibrated along the peripheral portions to the thickness of the spacer member.
  - 11. A sensor according to claim 10, wherein the connector block rod members extend axially through the capacitor plates to an outer plate side and include terminal rod portions formed at an angle over the capacitor plate along the capacitor plate outer side.
  - 12. A sensor according to claim 11, wherein the connector block is composed of a heat deformable thermoplastic material.

13. A tire and sensor assembly for detecting stress within a tire rubber material, comprising:
- a tire having a target region at least partially composed of rubber;
  
  a sensor embedded within the target region and comprising;
  
  first and second capacitor plates spaced apart by a variably dimensioned air gap;
  
  a connector block situated between the capacitor plates and holding the capacitor plates together in a predetermined mutual orientation, the connector block including a plurality of rod members protruding from opposite connector block sides and extending into a respective capacitor plate to attach peripheral portions of each capacitor plate to the connector block; and
  
  the connector block rod members extend axially through the capacitor plates to an outer plate side and include terminal rod portions formed to extend over the capacitor plate along the capacitor plate outer side.
- View Dependent Claims (14, 15, 16)
- - 14. An assembly as set forth in claim 13, wherein the terminal rod portion of a rod member extends at approximately a ninety-degree angle to a longitudinal axis of the rod member.
  - 15. An assembly as set forth in claim 14, wherein the connector block rod members are composed of a heat deformable plastics material.
  - 16. An assembly as set forth in claim 14, further comprising a spacer member situated between the capacitor plates, the spacer member including opposite spacer member sides held against an inward facing surface of each capacitor plate along peripheral portions of the air gap whereby the air gap is calibrated along the peripheral portions to the thickness of the spacer member.

17. A method of assembly for a sensor for detecting stress within a material of the sensor type comprising first and second capacitor plates spaced apart by a variably dimensioned air gap, the method comprising the steps:
- a. forming a plurality of through-holes through peripheral portions of each capacitor plate;
  
  b. positioning a connector block between the capacitor plates, the connector block including a plurality of rod members protruding from opposite connector block sides;
  
  c. extending the rod members through respective through-holes in the capacitor plates to attach the peripheral portions of each capacitor plate to the connector block; and
  
  d. forming terminal rod portions of the rod members over an outer side of a respective capacitor plate.
- View Dependent Claims (18, 19, 20)
- - 18. A method of assembly as set forth in claim 17, further comprising the steps:
    - forming the connector block of heat deformable plastics material;
      
      extending the terminal portions of the connector rod members a distance beyond the outer side of a respective capacitor plate; and
      
      applying heat to the terminal portions of the connector rod members while deforming the terminal portions over the outer side of the respective capacitor plate.
  - 19. A method of assembly as set forth in claim 17, further comprising the steps:
    - positioning a spacer member between the capacitor plates with opposite spacer member sides against an inward facing surface of the capacitor plates along peripheral portions of the air gap; and
      
      calibrating the air gap along the peripheral portions to the thickness of the spacer member.
  - 20. A method of assembly as set forth in claim 17, further comprising the step of forming the external peripheral shapes of the connector block and the capacitor plates to be complementary in external geometric configuration and dimension.

Specification

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Current Assignee
Goodyear Tire & Rubber Company
Original Assignee
Goodyear Tire & Rubber Company
Inventors
Felix Boes, Claude Ernest, Georges, Damian, Zimmer, Rene Jean, Roch, Peter Phelps, Reuter, Rene Francois

Granted Patent

US 6,951,139 B2
Time in Patent Office

Days
Field of Search
US Class Current

73/780
CPC Class Codes

G01L 1/142 using capacitors

Tire sensor and method of assembly

First Claim

1 Assignment

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Abstract

Citations

20 Claims

Specification

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Tire sensor and method of assembly

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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