Non-intrusive ice detector

US 4,553,137 A
Filed: 06/01/1983
Issued: 11/12/1985
Est. Priority Date: 06/01/1983
Status: Expired due to Term

First Claim

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1. An improved ice detector comprising a vibrating element, said vibrating element having a front portion, vibrating means suitably disposed with respect to the vibrating element for exciting the vibrating element into vibration, and means for sensing a shift of the frequency of vibration of said vibrating element resulting from a change of mass of said vibrating element due to ice accumulating thereon, the improvement characterized for the ice detector with respect to a first surface exposed to an air stream, said ice detector having cap means supported on the front portion of the vibrating element for vibrating with said vibrating element, said cap means being independently vibratable with respect to the first surface and having an exterior surface exposed for ice formation thereon and formed to be substantially conformal to such first surface, and the cap means exterior surface being the only portion of the vibrating element exposed to the air stream.

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Abstract

An improved ice detector has a vibrating element which has a front portion and vibrating means suitably disposed with respect to the vibrating element for exciting the vibrating element into vibration and means for sensing a shift of the frequency of vibration of the vibrating element resulting from a change of mass of the vibrating element due to ice accumulating thereon. The improvement is characterized in that the ice detector is supported with respect to a surface exposed to an air stream such that a cap on which ice forms and which is disposed on the front portion of the vibrating element, is exposed to the air stream and is formed to be substantially conformal to such surface.

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19 Claims

1. An improved ice detector comprising a vibrating element, said vibrating element having a front portion, vibrating means suitably disposed with respect to the vibrating element for exciting the vibrating element into vibration, and means for sensing a shift of the frequency of vibration of said vibrating element resulting from a change of mass of said vibrating element due to ice accumulating thereon, the improvement characterized for the ice detector with respect to a first surface exposed to an air stream, said ice detector having cap means supported on the front portion of the vibrating element for vibrating with said vibrating element, said cap means being independently vibratable with respect to the first surface and having an exterior surface exposed for ice formation thereon and formed to be substantially conformal to such first surface, and the cap means exterior surface being the only portion of the vibrating element exposed to the air stream.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. An improved ice detector according to claim 1 for an air vehicle or a housing having a surface exposed to air stream further characterized in that the cap means is formed of a substantial non-compliant material rigidly affixed to the front portion of the vibrating element.
  - 3. An improved ice detector according to claim 2 further characterized in that the ice detector is disposed such that it is substantially non-intrusive to the air stream with respect to such surface.
  - 4. An improved ice detector as claimed in claim 3 further characterized in that the vibrating element has a heater disposed in a heat conductive relationship with the front portion thereof, the cap means having thermal conductivity properties such that heat is conducted from the heater to de-ice the cap means.
  - 5. An improved ice detector as claimed in claim 3 further characterized in that the ice detector is enclosed in a case, the case having an aperture, the cap means projecting therethrough, isolation means disposed between the aperture and the cap means for substantially water sealing the case and substantially vibrationally isolating the cap means from the case.
  - 6. An improved ice detector according to claim 3 further characterized in that the cap means is formed from a material selected from the group consisting of polycarbonate, boron epoxy composite and glass fiber reinforced plastic laminate materials.
  - 7. An improved ice detector according to claim 3 further characterized in that the cap means is formed from a metal material.

8. An improved ice detector comprising a nodal support forming a dividing surface, a vibrating element having a node of vibration when it is resonately vibrated, the nodal support being attached to said vibrating element substantially at said node of vibration and forming at least substantially the entire support of said vibrating element, said vibrating element having rear and front portions, each portion extending away from said nodal support, said element being capable of being located by said support with at least a part of the front portion positioned in a zone where ice may accumulate thereon, vibrating means mounted adjacent the rear portion for exciting the vibrating element into resonant vibration, and means for sensing a shift of the resonant frequency of vibration of said vibrating element resulting from a change of mass of said vibrating element due to ice accumulating thereon the improvement characterized in that the ice detector is supported with respect to a surface exposed to an air stream and has cap means for ice formation thereon disposed on the front portion of the vibrating element, said cap means being exposed to the air stream and formed to be substantially conformal to such surface.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
- - 9. An improved ice detector according to claim 8 for an air vehicle or a housing having a surface exposed to air stream further characterized in that the cap means is formed of a substantial non-compliant material rigidly affixed to the front portion of the vibrating element.
  - 10. An improved ice detector according to claim 9 further characterized in that the ice detector is disposed such that it is substantially non-intrusive to the air stream with respect to such surface.
  - 11. An improved ice detector as claimed in claim 10 further characterized in that the vibrating element has a heater disposed in a heat conductive relationship with the front portion thereof, the cap means having thermal conductivity properties such that heat is conducted from the heater to de-ice the cap means.
  - 12. An improved ice detector as claimed in claim 10 further characterized in that the ice detector is enclosed in a case, the case having an aperture, the cap means projecting therethrough, isolation means disposed between the aperture and the cap means for substantially water sealing the case and substantially vibrationally isolating the cap means from the case.
  - 13. An improved ice detector according to claim 12 further characterized in that the isolation means is comprised of a material forming flexible elastomeric bond between the cap means and the case which bond is characterized by very low shear force.
  - 14. An improved ice detector according to claim 13 further characterized in that the isolation means is comprised of a room temperature vulcanizing material.
  - 15. An improved ice detector according to claim 10 further characterized in that the cap means is formed from a material selected from the group consisting of polycarbonate, boron epoxy composite and glass fiber reinforced plastic laminate material.
  - 16. An improved ice detector according to claim 10 further characterized in that the cap means is formed from a metal material.

17. In an ice detector comprising a vibrating element, said vibrating element having a front portion, vibrating means suitably disposed with respect to the vibrating element for exciting the vibrating element into vibration, and means for sensing a shift of the frequency of vibration of said vibrating element resulting from a change of mass of said vibrating element due to accumulating thereon, the improvement comprising a case enclosing and supporting the ice detector, an aperture in said case, cap means rigidly affixed to the front portion of the vibrating element, said cap means being exposed to the air stream through said aperture and formed to be substantially conformal to such surface, the cap means being made of substantially non-compliant material and disposed to be substantially non-intrusive to the air stream with respect to such surface, and isolation means disposed between the aperture and the cap means for substantially water sealing the case interior and substantially vibrationally isolating the cap means from the case.
- View Dependent Claims (18, 19)
- - 18. An improved ice detector according to claim 17 further characterized in that the the isolation means is comprised of a material forming a flexible elastomeric bond between the cap means and the case, which bond is characterized by very low shear force.
  - 19. An improved ice detector according to claim 18 further characterized in that the the isolation means is comprised of a room temperature vulcanizing material.

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Current Assignee
Rosemount Incorporated (Emerson Electric Company)
Original Assignee
Rosemount Incorporated (Emerson Electric Company)
Inventors
Marxer, John E., Kowles, John W.
Primary Examiner(s)
Rowland, James L.
Assistant Examiner(s)
Hofsass, Jeffery A.

Application Number

US06/499,819
Time in Patent Office

895 Days
Field of Search

340/582, 340/581, 340/583, 340/580, 340/962, 73/599, 73/590, 73/583, 244/134 R, 244/134 A, 244/134 D, 244/134 E, 244/134 F
US Class Current

340/582
CPC Class Codes

B64D 15/20 Means for detecting icing o...

G08B 19/02 Alarm responsive to formati...

Non-intrusive ice detector

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

42 Citations

19 Claims

Specification

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Non-intrusive ice detector

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

42 Citations

19 Claims

Specification

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Solutions

Use Cases

Quick Links