Load sensing system including RFID tagged fasteners

US 7,412,898 B1
Filed: 07/28/2006
Issued: 08/19/2008
Est. Priority Date: 07/28/2006
Status: Active Grant

First Claim

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1. An apparatus for wireless sensing of applied load, comprising:

an elongate body with first and second ends;

a bore extending within the body from the first end;

a grounding pin positioned within the bore and rigidly attached to the body within the bore at a point distal to the first end of the body, wherein the grounding pin moves with the body when the body is elongated while the grounding pin remains substantially constant in length; and

a wireless transponder mounted proximate the first end of the body and exposed to the bore, the wireless transponder responding to a radio frequency signal from a transmitter by generating a response signal, wherein the grounding pin contacts and grounds the wireless transponder to stop the generating of the response signal when a tensile load that is less than a preset minimum tensile load is applied to the apparatus and wherein the body has a length when the applied tensile load is at least about the minimum tensile load value such that the grounding pin is spaced apart from the wireless transponder.

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Abstract

A fastener or other structural component for wireless sensing of applied tensile load. The fastener includes an elongate body with a bore that extends within the body. A grounding pin is positioned within the bore and attached to the body within the bore. The fastener includes a wireless transponder, such as a radio frequency identification (RFID) transponder or tag, that is mounted on a head provided at the end of the body and exposed to the bore, such as by positioning the RFID tag in a recessed surface of the head or extending the bore through the head. The transponder generates a response signal with a unique identifier in response to a radio frequency signal from a transmitter. The grounding pin contacts and grounds the transponder to block transmittal of the response signal when a tensile load applied to the fastener is less than a minimum tensile load value.

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17 Claims

1. An apparatus for wireless sensing of applied load, comprising:
- an elongate body with first and second ends;
  
  a bore extending within the body from the first end;
  
  a grounding pin positioned within the bore and rigidly attached to the body within the bore at a point distal to the first end of the body, wherein the grounding pin moves with the body when the body is elongated while the grounding pin remains substantially constant in length; and
  
  a wireless transponder mounted proximate the first end of the body and exposed to the bore, the wireless transponder responding to a radio frequency signal from a transmitter by generating a response signal, wherein the grounding pin contacts and grounds the wireless transponder to stop the generating of the response signal when a tensile load that is less than a preset minimum tensile load is applied to the apparatus and wherein the body has a length when the applied tensile load is at least about the minimum tensile load value such that the grounding pin is spaced apart from the wireless transponder.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The apparatus of claim 1, wherein the wireless transponder comprises a radio frequency identification (RFID) transponder with an antenna and circuitry triggered by the radio frequency signal to generate the response signal, the response signal comprising data stored in the circuitry including an identifier of the fastener.
  - 3. The apparatus of claim 1, further comprising a head affixed to the first end of the body, wherein the wireless transponder is positioned on the head proximate to an opening to the bore allowing the grounding pin to contact the wireless transponder when the applied tensile load is less then the minimum tensile load value.
  - 4. The apparatus of claim 3, wherein transponder comprises an antenna and wherein the contact between the grounding pin and the antenna creates a grounding path across the antenna.
  - 5. The apparatus of claim 4, wherein the grounding path comprises a connection between the antenna and the body, the grounding pin, and a connection between the grounding pin and the body.
  - 6. The apparatus of claim 1, wherein the apparatus comprises a fastener and wherein the body of the fastener is formed of a deformable material and a tensile load is applied so as to apply a tensile force along the elongate body and wherein grounding pin is attached at one end to the body and spaced apart from a sidewall of the bore, whereby the grounding pin is not deformed with the body due to the applied tensile force.

7. A fastener adapted for wireless monitoring of an applied tensile load, comprising:
- a body;
  
  a head at one end of the body with a face distal to the body, wherein a hole is provided in the body and the head that extends from the face of the head to an end in the body;
  
  an RFID transponder comprising an antenna and an RFID chip positioned on the face of the had;
  
  an electrical grounding pin attached to the body at the end of the hole, the grounding pin being spaced apart from the RFID transponder when at least a minimum tensile load is applied to the fastener and contacting the RFID transponder to disrupt operation of the RFID transponder when the fastener is tightened to less than the minimum tensile load; and
  
  a mounting bore of smaller diameter than the hole provided in the body at the end of the hole and wherein the grounding pin has a first end inserted into the mounting bore to attach the grounding pin to the body and a second end proximate to head that is unattached to the body, whereby the grounding pin remains substantially constant in length and the second end is positioned relative to the RFID transponder based on deformation of the body.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. The fastener of claim 7, wherein the antenna is exposed to the hole and the contacting of the RFID transponder by the grounding pin comprises the grounding pin contacting and grounding the antenna.
  - 9. The fastener of claim 8, wherein the grounding pin comprises a split end and the contacting of the antenna comprises the split end contacting two portions of the antenna, whereby the grounding pin provides a grounding path across the antenna.
  - 10. The fastener of claim 7, wherein the face comprises a recessed surface the RFID transponder is positioned within the recessed surface.
  - 11. The fastener of claim 7, wherein the RFID chip stores a unique identifier and is operable in response to a radio frequency signal from a transmitter to transmit a response signal comprising the unique identifier when the grounding pin is in the spaced apart position.
  - 12. The fastener of claim 7, wherein the body is formed of an elastic material that is deformable under tensile forces applied along the length of the body corresponding to tensile load being applied to the fastener.

13. A system for wireless monitoring of fasteners, comprising:
- a plurality of fasteners joining components in a structural assembly, wherein the fasteners comprise;
  
  a body;
  
  a head at one end of the body with a face distal to the body, wherein a hole is provided in the body and the head that extends from the face of the head to an end in the body;
  
  an RFID transponder comprising an antenna positioned on the face of the head; and
  
  an electrical grounding pin attached to the body at an end of a bore hole extending through the head and into the body, the grounding pin being spaced apart from the RFID transponder when the fasteners are tightened to at least a minimum tensile load and contacting the RFID transponder to ground the antenna when the fastener is tightened to less than the minimum tensile load; and
  
  RFID readers transmitting read signals to the RFID transponders of the fasteners, wherein each of the RFID transponders is powered by one of the read signals and transmits a response signal comprising identification data when the grounding pin is in the spaced apart position and wherein the RFID readers are positioned relative to the structural assembly such that each of the RFID transponders on the fasteners can receive at least one of the read signals from the RFID readers.
- View Dependent Claims (14, 15, 16)
- - 14. The system of claim 13, further comprising a monitoring station in communication with the RFID reader, wherein the RFID reader transmits the identification data received from the RFID transponders on the fasteners to the monitoring station and the monitoring station runs a tensile load monitoring module to identify the fasteners that transmitted the response signals by comparing the identification data to a set of identification data for the fasteners in the structural assembly.
  - 15. The system of claim 14, wherein the tensile load monitoring module further operates to determine a set of the fasteners that are tightened to less than the minimum tensile load based on the comparing of the identification data and to generate a report comprising the set of the fasteners.
  - 16. The system of claim 13, wherein the fasteners each further comprises a mounting bore of smaller diameter than the hole provided in the body at the end of the hole and wherein the grounding pin has a first end inserted into the mounting bore to attach the grounding pin to the body and a second end proximate to head that is unattached to the body, whereby the grounding pin remains substantially constant in length and the second end is positioned relative to the RFID transponder antenna based on deformation of the body.

17. A system for wireless monitoring of fasteners, comprising:
- a plurality of fasteners joining components in a structural assembly, wherein the fasteners comprise;
  
  a body;
  
  a head at one end of the body with a face distal to the body, wherein a hole is provided in the body and the head that extends from the face of the head to an end in the body;
  
  an RFID transponder comprising an antenna positioned on the face of the head; and
  
  an electrical grounding pin attached to the body at an end of a bore hole extending through the head and into the body, the grounding pin being spaced apart from the RFID transponder when the fasteners are tightened to at least a minimum tensile load and contacting the RFID transponder to ground the antenna when the fastener is tightened to less than the minimum tensile load; and
  
  at least one RFID reader transmitting read signals to the RFID transponders of the fasteners, wherein each of the RFID transponders is powered by one of the read signals and transmits a response signal comprising identification data when the grounding pin is in the spaced apart position;
  
  wherein the fasteners each further comprises a mounting bore of smaller diameter than the hole provided in the body at the end of the hole and wherein the grounding pin has a first end inserted into the mounting bore to attach the grounding pin to the body and a second end proximate to head that is unattached to the body, whereby the grounding pin remains substantially constant in length and the second end is positioned relative to the RFID transponder antenna based on deformation of the body.

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Current Assignee
Disney Enterprises Incorporated (The Walt Disney Company)
Original Assignee
Disney Enterprises Incorporated (The Walt Disney Company)
Inventors
Smith, J. Douglas, Pothier, Stephen G.
Primary Examiner(s)
Lefkowitz; Edward
Assistant Examiner(s)
Kirkland, III; Freddie

Application Number

US11/460,819
Time in Patent Office

753 Days
Field of Search

737/61, 738/49
US Class Current

73/761
CPC Class Codes

F16B 31/025 with a gauge pin in a longi...

G01L 5/24 for determining value of to...

Load sensing system including RFID tagged fasteners

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

Citations

17 Claims

Specification

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Load sensing system including RFID tagged fasteners

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

17 Claims

Specification

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Solutions

Use Cases

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