Self-detaching anti-theft device for retail environment

US 10,121,338 B2
Filed: 03/04/2015
Issued: 11/06/2018
Est. Priority Date: 03/04/2015
Status: Active Grant

First Claim

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1. A method for operating a security tag, comprising:

converting rotational motion of a pinion gear in a first direction into linear motion of a rack gear disposed on a pin in a second direction so as to mechanically transition the pin from an unengaged state to an engaged state,the unengaged state is a state in which the pin is retracted into a first portion of a single enclosure, andthe engaged state is a state in which (a) an elongate body of the pin passes through a gap provided between the first portion and a second portion of the single enclosure and (b) an end of the pin resides within an aperture formed in the second portion of the single enclosure spaced apart from the first portion of the single enclosure by the gap, the first and second portion of the single enclosure having static positions relative to each other at all times of the security tag'"'"'s use;

mechanically retaining the pin in the engaged position using a pawl that prevents movement of the pinion gear in a third direction opposed to the first direction;

automatically releasing the pawl in response to a reception of a wireless signal at the security tag sent from a remote external device;

resiliently biasing the pin towards the first portion of the single enclosure whereby the pin transitions from the engaged state to the unengaged state when the pawl is released without any human assistance or mechanical assistance by a device external to the security tag.

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Abstract

Systems (100) and methods (1500) for operating a security tag. The methods involve: converting rotational motion of a pinion gear in a first direction into linear motion of a rack gear in a second direction so as to cause a pin to transition from an unengaged state in which the pin is retracted into a first portion of an enclosure to an engaged state in which an end of the pin resides within an aperture formed in a second portion spaced apart from the first portion of the enclosure; mechanically retaining the pin in the engaged position using a pawl that prevents movement of the pinion gear in a third direction opposed to the first direction; and automatically releasing the pawl in response to a reception of a wireless signal at the security tag, whereby the pin is returns to the unengaged state.

27 Citations

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19 Claims

1. A method for operating a security tag, comprising:
- converting rotational motion of a pinion gear in a first direction into linear motion of a rack gear disposed on a pin in a second direction so as to mechanically transition the pin from an unengaged state to an engaged state,the unengaged state is a state in which the pin is retracted into a first portion of a single enclosure, andthe engaged state is a state in which (a) an elongate body of the pin passes through a gap provided between the first portion and a second portion of the single enclosure and (b) an end of the pin resides within an aperture formed in the second portion of the single enclosure spaced apart from the first portion of the single enclosure by the gap, the first and second portion of the single enclosure having static positions relative to each other at all times of the security tag'"'"'s use;
  
  mechanically retaining the pin in the engaged position using a pawl that prevents movement of the pinion gear in a third direction opposed to the first direction;
  
  automatically releasing the pawl in response to a reception of a wireless signal at the security tag sent from a remote external device;
  
  resiliently biasing the pin towards the first portion of the single enclosure whereby the pin transitions from the engaged state to the unengaged state when the pawl is released without any human assistance or mechanical assistance by a device external to the security tag.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The method according to claim 1, wherein the rotational motion of the pinion gear is user controlled via a knob disposed on an exterior surface of the single enclosure and coupled to the pinion gear.
  - 3. The method according to claim 1, wherein the rack gear is securely coupled to the pin.
  - 4. The method according to claim 3, wherein the pin returns to the unengaged state as a result of the spring'"'"'s automatic decompression immediately following the pawl'"'"'s release.
  - 5. The method according to claim 1, wherein a spring disposed on the pin is in an at least partially uncompressed state when the pin is in the unengaged state and is in a compressed state when the pin is in the engaged state.
  - 6. The method according to claim 1, wherein the pawl is automatically released by an application of a pushing force to a first end of the pawl by a post traveling towards the pawl which causes rotation of the pawl about a pivot member.
  - 7. The method according to claim 6, wherein the pushing force has a magnitude great enough to overcome a pushing force being simultaneously applied to a second end opposed from the first end of the pawl by a leaf spring.
  - 8. The method according to claim 6, wherein the post is driven by an electric solenoid or gear motor.

9. A security tag, comprising:
- a single enclosure having a first portion spaced apart from a second portion by a gap;
  
  a pinion gear pivotally disposed within the first portion of the single enclosure;
  
  a rack gear disposed within the first portion of the single enclosure which converts rotational motion of the pinion gear in a first direction into linear motion in a second direction;
  
  a pin coupled to the rack gear and mechanically transitioned from an unengaged state to an engaged state via linear movement of the rack gear,the unengaged state is a state in which the pin is retracted into the first portion of the single enclosure, andthe engaged state is a state in which (a) an elongate body of the pin passes through the gap and (b) an end of the pin resides within an aperture formed in the second portion of the single enclosure, the first and second portions of the single enclosure having static positions relative to each other at all times of the security tag'"'"'s use;
  
  a pawl configured to mechanically retain the pin in the engaged position by preventing movement of the pinion gear in a third direction opposed to the first direction;
  
  an electronic circuit disposed with the single enclosure operative to cause an automatic release of the pawl in response to a reception of a wireless signal thereat; and
  
  a resilient member resiliently biasing the pin toward the first portion of the single enclosure so that the pin transitions from the engaged state to the unengaged state when the pawl is released without any human assistance or mechanical assistance by a device external to the security tag.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 10. The security tag according to claim 9, wherein the rotational motion of the pinion gear is user controlled via a knob disposed on an exterior surface of the single enclosure and coupled to the pinion gear.
  - 11. The security tag according to claim 9, wherein the resilient member comprises a spring disposed on the pin that is in an at least partially uncompressed state when the pin is in the unengaged state and is in a compressed state when the pin is in the engaged state.
  - 12. The security tag according to claim 11, wherein the pin returns to the unengaged state as a result of the spring'"'"'s automatic decompression immediately following the pawl'"'"'s release.
  - 13. The security tag according to claim 9, wherein the pawl is automatically released by an application of a pushing force to a first end of the pawl by a post traveling towards the pawl which causes rotation of the pawl about a pivot member.
  - 14. The security tag according to claim 13, wherein the pushing force has a magnitude great enough to overcome a pushing force being simultaneously applied to a second end opposed from the first end of the pawl by a leaf spring.
  - 15. The security tag according to claim 13, wherein the post is driven by an electric solenoid or gear motor.
  - 16. The security tag according to claim 9, wherein the electronic circuit authenticates a command contained in the wireless signal prior to causing the automatic release of the pawl.
  - 17. The security tag according to claim 9, wherein the automatic release of the pawl is facilitated by a supply of power to an electric solenoid or gear motor.
  - 18. The security tag according to claim 9, wherein the electronic circuit is a Near Field Communication (“
    - NFC”
      
      ) enabled device.
  - 19. The security tag according to claim 9, wherein an Electronic Article Surveillance (“
    - EAS”
      
      ) label or a Radio Frequency Identification (“
      
      RFID”
      
      ) label is disposed within the single enclosure.

Specification

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Current Assignee
Sensormatic Electronics LLC (Johnson Controls International plc)
Original Assignee
Tyco Fire & Security GmbH (Johnson Controls International plc)
Inventors
Ellers, Edward P., Strulovitch, Tsahi Z., Loureiro, Melissa A., Ardley, Wesley D.
Primary Examiner(s)
Sherwin, Ryan

Application Number

US14/638,489
Publication Number

US 20160260302A1
Time in Patent Office

1,343 Days
Field of Search
US Class Current
CPC Class Codes

E05B 2047/0094   Mechanical aspects of remot...

E05B 47/0607   the detent moving pivotally...

E05B 73/0017   Anti-theft devices, e.g. ta...

G08B 13/2434   Tag housing and attachment ...

Self-detaching anti-theft device for retail environment

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

27 Citations

19 Claims

Specification

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Self-detaching anti-theft device for retail environment

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

27 Citations

19 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others