Acceleration overload protection mechanism for sensor devices

US 5,275,048 A
Filed: 01/21/1992
Issued: 01/04/1994
Est. Priority Date: 01/21/1992
Status: Expired due to Term

First Claim

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1. An acceleration overload protection mechanism for protecting a sensor unit, said sensor unit having at least one sensor element coupled to a sensor frame, said sensor element being movable with respect to said sensor frame upon the occurrence of an acceleration force along a sensitive axis of said sensor unit, said protection mechanism comprising:

an arresting element;

projections extending from said arresting element;

said sensor element having channels that accept said projections to protect said sensor element from damage due to cross-axis accelerations;

means connected to said arresting element for allowing said arresting element to move relative to said sensor element of said sensor unit to a position proximate said sensor element when said sensor unit is subject to an acceleration overload thereby causing said arresting element to limit the range of movement of said sensor element.

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Abstract

An acceleration overload protection mechanism for use with a sensor unit. The sensor unit is generally defined by a sensor element or elements (i.e., proof mass, flexures, etc.) that are movable in relation to a sensor frame. The overload protection mechanism includes at least one arresting plate. The arresting plate includes a plate frame and an arresting element that are elastically coupled to one another to permit relative movement therebetween. The plate frame of the overload protection mechanism is placed in fixed alignment with the sensor frame to place the arresting element in spaced relation with the sensor element of the sensor unit. The arresting element and sensor element may move relative to one another to allow the arresting element to move to a position proximate the sensor element to limit the range of motion of the sensor element when the sensor unit is subject to an acceleration overload. Projections extend between the arresting element and sensor unit to engage corresponding channels thereby protecting the sensor unit from damage due to cross-axis accelerations.

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36 Claims

1. An acceleration overload protection mechanism for protecting a sensor unit, said sensor unit having at least one sensor element coupled to a sensor frame, said sensor element being movable with respect to said sensor frame upon the occurrence of an acceleration force along a sensitive axis of said sensor unit, said protection mechanism comprising:
- an arresting element;
  
  projections extending from said arresting element;
  
  said sensor element having channels that accept said projections to protect said sensor element from damage due to cross-axis accelerations;
  
  means connected to said arresting element for allowing said arresting element to move relative to said sensor element of said sensor unit to a position proximate said sensor element when said sensor unit is subject to an acceleration overload thereby causing said arresting element to limit the range of movement of said sensor element.
- View Dependent Claims (2, 3, 4, 5)
- - 2. An acceleration overload protection mechanism as claimed in claim 1, wherein said means for allowing said arresting element to move relative to said sensor element comprises at least one flexure connecting said arresting element to a plate frame, said plate frame being in substantially fixed alignment with said sensor frame.
  - 3. An acceleration overload protection mechanism as claimed in claim 1, wherein said means for allowing said arresting element to move relative to said sensor unit comprises:
    - a frame bounding said arresting element having an outer periphery distal said arresting element and an inner periphery proximate said arresting element, said arresting element disposed inside said inner periphery of said frame and having an outer periphery proximate said inner periphery of said frame; and
      
      an elastic diaphragm extending about the outer periphery of said arresting element and connecting said arresting element to the inner periphery of said frame.
  - 4. An acceleration overload protection mechanism as claimed in claim 1 and further comprising at least one separation pad connected to said arresting element.
  - 5. An acceleration overload protection mechanism as claimed in claim 1 and further comprising at least one separation pad connected to said sensor element.

6. A sensor device assembly comprising:
- a sensor unit having a sensor frame and sensor elements connected to said sensor frame, at least one of said sensor elements being a movable sensor element that is movable with respect to said sensor frame upon the occurrence of an acceleration force along a sensitive axis of said sensor unit; and
  
  an arresting plate having a plate frame in substantially fixed alignment with said sensor frame, an arresting element, and connecting means for elastically connecting said plate frame to said arresting element to allow said arresting element to move relative to said sensor elements to a position proximate said movable sensor element of said sensor unit when said sensor unit is subject to an acceleration overload in a first direction thereby causing said arresting element to limit the range of movement of said movable sensor element, said arresting element having projections extending therefrom, at least one of said sensor elements having channels disposed therein that accept said projections to protect said sensor elements from damage due to cross-axis accelerations.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13)
- - 7. A sensor device assembly as claimed in claim 6 wherein said plate frame includes an outer periphery distal said arresting element and an inner periphery proximate said arresting element, said arresting element disposed inside said inner periphery of said frame and having an outer periphery proximate said inner periphery of said frame, said connecting means comprising an elastic diaphragm extending about the outer periphery of said arresting element and connecting said arresting element to the inner periphery of said plate frame.
  - 8. A sensor device assembly as claimed in claim 6 wherein said sensor elements of said sensor unit form at least one accelerometer.
  - 9. A sensor device assembly as claimed in claim 6 wherein said sensor unit is formed as a substantially planar structure having first and second substantially parallel sides, said arresting plate being disposed on said first side.
  - 10. A sensor device assembly as claimed in claim 9 and further comprising a second arresting plate disposed on said second side, said second arresting plate having a plate frame connected to said sensor frame, an arresting element, and connecting means for elastically connecting said plate frame to said arresting element to allow said arresting element to move to a position proximate said movable sensor element of said sensor unit thereby to limit the range of movement of said movable sensor element when said sensor unit is subject to an acceleration overload in a second direction opposite to said first direction.
  - 11. A sensor device assembly as claimed in claim 6 wherein said sensor elements of said sensor unit form a plurality of co-planar accelerometers.
  - 12. As sensor device assembly as claimed in claim 6 and further comprising at least one separation pad connected to said arresting element.
  - 13. A sensor device assembly as claimed in claim 6 and further comprising at least one separation pad connected to at least one of said sensor elements.

14. An acceleration overload protection mechanism for protecting a sensor unit, said sensor unit having at least one sensor element coupled to a sensor frame, said sensor element being movable with respect to said sensor frame upon the occurrence of an acceleration force along a sensitive axis of said sensor unit, said protection mechanism comprising;
- projections extending from said sensor element;
  
  an arresting element having channels disposed therein that accept said projections to protect said sensor element from damage due to cross-axis accelerations;
  
  means connected to said arresting element for allowing said arresting element to move relative to said sensor element of said sensor unit to a position proximate said sensor element when said sensor unit is subject to an acceleration overload thereby causing said arresting element to limit the range of movement of said sensor element.
- View Dependent Claims (15, 16, 17, 18)
- - 15. An acceleration overload protection mechanism as claimed in claim 14, wherein said means for allowing said arresting element to move relative to said sensor element comprises at least one flexure connecting said arresting element to a plate frame, said plate frame being in substantially fixed alignment with said sensor frame.
  - 16. An acceleration overload protection mechanism as claimed in claim 14, wherein said means for allowing said arresting element to move relative to said sensor unit comprises:
    - a frame having an outer periphery distal said arresting element and an inner periphery proximate said arresting element, said arresting element disposed inside said inner periphery of said frame and having an outer periphery proximate said inner periphery of said frame; and
      
      an elastic diaphragm extending about the outer periphery of said arresting element and connecting said arresting element to the inner periphery of said frame.
  - 17. An acceleration overload protection mechanism as claimed in claim 14 and further comprising at least one separation pad connected to said arresting element.
  - 18. An acceleration overload protection mechanism as claimed din claim 14 and further comprising at least one separation pad connected to said sensor element.

19. A sensor device assembly comprising:
- a sensor unit having a sensor frame and sensor elements connected to said sensor frame, at least one said sensor elements being a movable sensor element that is movable with respect to said sensor frame upon the occurrence of an acceleration force along a sensitive axis of said sensor unit; and
  
  an arresting plate having a plate frame in substantially fixed alignment with said sensor frame, an arresting element, and connecting means for elastically connecting said plate frame to said arresting element to allow said arresting element to move relative to said sensor elements to a position proximate said movable sensor element when said sensor unit is subject to an acceleration overload in a first direction thereby causing said arresting element to limit the range of movement of said movable sensor element, at least one of said sensor elements having projections extending therefrom, said arresting element having channels disposed therein that accept said projections to protect said sensor elements from damage due to cross-axis accelerations.
- View Dependent Claims (20, 21, 22, 23, 24, 25, 26)
- - 20. A sensor device assembly as claimed in claim 19 wherein said plate frame includes an outer periphery distal said arresting element and an inner periphery proximate said arresting element, said arresting element disposed inside said inner periphery of said frame and having an outer periphery proximate said inner periphery of said frame, said connecting means comprising an elastic diaphragm extending about the outer periphery of said arresting element and connecting said arresting element to the inner periphery of said plate frame.
  - 21. A sensor device assembly as claimed in claim 19 wherein said sensor elements of said sensor unit form at least one accelerometer.
  - 22. A sensor device assembly as claimed in claim 19 wherein said sensor unit is formed as a substantially planar structure having first and second substantially parallel sides, said arresting plate being disposed on said first side.
  - 23. A sensor device assembly as claimed in claim 22 and further comprising a second arresting plate disposed on said second side, said second arresting plate having a plate frame connected to said sensor frame, an arresting element, and connecting means for elastically connecting said plate frame to said arresting element to allow said arresting element to move to a position proximate said movable sensor element of said sensor unit thereby to limit the range of movement of said movable sensor element when said sensor unit is subject to an acceleration overload in a second direction opposite to said first direction.
  - 24. A sensor device assembly as claimed in claim 19 wherein said sensor elements of said sensor unit form a plurality of co-planar accelerometers.
  - 25. A sensor device assembly as claimed in claim 19 and further comprising at least one separation pad connected to said arresting element.
  - 26. A sensor device assembly as claimed in claim 19 and further comprising at least one separation pad connected to at least one of said sensor elements.

27. A sensor device comprising;
- a first accelerometer having an accelerometer frame, a proof mass, and at least one flexure connecting said proof mass to said accelerometer frame so that said proof mass is movable with respect to said accelerometer frame along a sensitive axis;
  
  a second accelerometer having an accelerometer frame, a proof mass, and at least one flexure connecting said proof mass to said accelerometer frame so that said proof mass is movable with respect to said accelerometer frame along said sensitive axis;
  
  a sensor frame bounding said first and second accelerometers, said accelerometer frame of said first accelerometer and said accelerometer frame of said second accelerometer each being connected to said sensor frame by at least one flexure;
  
  an arresting plate having a plate frame connected in a substantially fixed relationship with said sensor frame, an arresting element, and connecting means for elastically connecting said plate frame to said arresting element to allow said arresting element to move to a position proximate said first and second accelerometers to limit the range of motion of at least said proof masses of said first and second accelerometers when said first and second accelerometers are subject to an acceleration overload in a first direction, said arresting element having projections, at least one of said accelerometers having channels adapted to accept said projections to protect said at least one accelerometer from damage due to cross-axis accelerations.
- View Dependent Claims (28, 29, 30, 31)
- - 28. A sensor device as claimed in claim 27 wherein said first and second accelerometers and said sensor frame are formed as a substantially planar structure having first and second substantially parallel sides, said arresting plate being disposed on said first side.
  - 29. A sensor device assembly as claimed in claim 28 and further comprising a further arresting plate disposed on said second side for protecting said first and second accelerometers from an acceleration overload in a second direction opposite to said first direction.
  - 30. A sensor device assembly as claimed in claim 27 and further comprising at least one separation pad connected to each of said first and second accelerometers.
  - 31. A sensor device assembly as claimed in claim 30 and further comprising at least one separation pad connected to said arresting element of said arresting plate.

32. A sensor device comprising;
- a first accelerometer having an accelerometer frame, a proof mass, and at least one flexure connecting said proof mass to said accelerometer frame so that said proof mass is movable with respect to said accelerometer frame along a sensitive axis;
  
  a second accelerometer having an accelerometer frame, a proof mass, and at least one flexure connecting said proof mass to said accelerometer frame so that said proof mass is movable with respect to said accelerometer frame along said sensitive axis;
  
  a sensor frame bounding said first and second accelerometers, said accelerometer frame of said first accelerometer and said accelerometer frame of said second accelerometer each being connected to said sensor frame by at least one flexure;
  
  an arresting plate having a plate frame connected in a substantially fixed relationship with said sensor frame, an arresting element, and connecting means for elastically connecting said plate frame to said arresting element to allow said arresting element to move to a position proximate said first and second accelerometers to limit the range of motion of a least said proof masses of said first and second accelerometers when said first and second accelerometers are subject to an acceleration overload in a first direction, at least one of said first and second accelerometer having projections, said arresting element having channels that accept said projections to protect said at least one accelerometer from damage due to cross-axis accelerations.
- View Dependent Claims (33, 34, 35, 36)
- - 33. A sensor device as claimed in claim 32 wherein said first and second accelerometers and said sensor frame are formed in a substantially planar structure having first and second substantially parallel sides, said arresting plate being disposed on said first side.
  - 34. A sensor device as claimed in claim 32 and further comprising a further arresting plate disposed on said second side for protecting said first and second accelerometers from an acceleration overload in a second direction opposite to said first direction.
  - 35. A sensor device as claimed in claim 32 and further comprising at least one separation pad connected to each of said first and second accelerometers.
  - 36. A sensor device as claimed in claim 32 and further comprising at least one separation pad connected to said arresting element of said arresting plate.

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Current Assignee
Alliedsignal Inc.
Original Assignee
Sundstrand Corporation (Raytheon Technologies Corporation d/b/a RTX)
Inventors
Hulsing, Rand H. II, Woodruff, James R., Norling, Brian L.
Primary Examiner(s)
Williams, Hezron E.
Assistant Examiner(s)
BROCK, MICHAEL J

Application Number

US07/822,778
Time in Patent Office

714 Days
Field of Search

73/514, 73/517 R, 73/517 AV, 73/517 B, 73/526
US Class Current

73/514.01
CPC Class Codes

G01P 15/02 by making use of inertia fo...

Acceleration overload protection mechanism for sensor devices

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

20 Citations

36 Claims

Specification

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Acceleration overload protection mechanism for sensor devices

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

20 Citations

36 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links