Puncture probe for measuring heat transfer or blood circulation of living tissues

US 4,108,163 A
Filed: 11/04/1976
Issued: 08/22/1978
Est. Priority Date: 11/05/1975
Status: Expired due to Term

First Claim

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1. A puncture probe for measuring heat transfer or blood circulation of living tissues, particularly in man, comprising a probe support having a tip, first and second oppositely connected thermocouples each formed of an outwardly extending layer of a thermoelectric material and of a common connecting layer of a different thermoelectric material, one of said thermocouples being heated and arranged in the range of said probe tip, the other of said thermocouples being unheated and arranged at a spaced location on said probe support, said first thermocouple having an outwardly extending layer arranged in the vicinity of said tip and a connecting layer comprising a plurality of superposed thin conductor films separated by insulating thin films except in an area forming a contact zone between said conductive films on the surface of said support probe, said second thermocouple having an outwardly extending layer comprising a thin conductive film contacting said connecting layer.

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Abstract

A puncture probe, comprises a probe support having an end with a probe surface with a plurality of alternately arranged layers of thermoelectric conductive material and insulation formed around said probe support adjacent the probe surface or covering a portion or all of it. At least two pairs of the conductive material layers are in contact at locations which are distinct from each other and they are made of thermoelectric conductive material and form thermocouples, one of these thermocouples being heated either by electric energy of by light energy. The probe surface may be planar at the end and a central portion may be covered by a layer of the insulation. In addition, a conductor film forming an inside covering layer on the probe support may be arranged to join or contact a separate conductive layer which extends downwardly on the outside of an insulation layer into contact with the probe surface. Additional outside layers applied over the first two insulation separated layers are advantageously formed with an inward depression at the location of the probe surface. The probe support surface may include a shaft tube with an inorganic fiber tip.

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11 Claims

1. A puncture probe for measuring heat transfer or blood circulation of living tissues, particularly in man, comprising a probe support having a tip, first and second oppositely connected thermocouples each formed of an outwardly extending layer of a thermoelectric material and of a common connecting layer of a different thermoelectric material, one of said thermocouples being heated and arranged in the range of said probe tip, the other of said thermocouples being unheated and arranged at a spaced location on said probe support, said first thermocouple having an outwardly extending layer arranged in the vicinity of said tip and a connecting layer comprising a plurality of superposed thin conductor films separated by insulating thin films except in an area forming a contact zone between said conductive films on the surface of said support probe, said second thermocouple having an outwardly extending layer comprising a thin conductive film contacting said connecting layer.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. A puncture probe, according to claim 1, including a thin resistance film for heating the heated thermocouple extending over said films on said probe and separated from said thermocouple by an insulating film.
  - 3. A puncture probe, according to claim 2, including a thin conductor heating current supply film in contact with said resistance film on an extrememly small area within the circular shaped and heated thermocouple and heating current conductor insulating films separating said conductor film from the other conductive layers.
  - 4. A puncture probe, according to claim 1, including two additional thin films of different thermoelectric materials insulated by insulating thin films contacted in a mutual type thermocouple with said heated thermocouple.
  - 5. A puncture probe, according to claim 1, wherein said probe support comprises a radiant heating photoconductor having a surface which forms a reflector at said probe with the exception of a window portion arranged in the zone to be heated.
  - 6. A puncture probe, according to claim 5, including a layered structure absorbing radiant energy arranged above said window.
  - 7. A puncture probe, according to claim 5, wherein said window provides a free passage of the radiation to the absorbent tissue.
  - 8. A puncture probe, according to claim 1, wherein the tissue is heated, comprising two electrodes, one comprising a small electrode arranged in the zone to be heated characterized in that the small electrode is provided with an exposed panel of a conductor thin film arranged on the probe and covered with insulation on its exterior, while the other larger electrode is arranged on the outer surface of said shaft portion of said support.
  - 9. A puncture probe, according to claim 1, wherein said support comprises a fiber.
  - 10. A puncture probe, according to claim 1, wherein at least the heated zone of the probe is coated with a film of low thermal conductivity.

11. A puncture probe for measuring heat transfer or blood circulation of living tissues, particularly in man, comprising an electrically and thermally insulating pointed probe support having an end tip, first and second oppositely connected thermocouples, each comprising a layer of thermoelectric material forming an outwardly extending leg and a common connecting leg of a different thermoelectric material, one thermocouple being heated and disposed on said probe adjacent said tip and the other thermocouple being unheated and spaced from said end tip, said first thermocouple having an extending leg arranged adjacent said end tip and a connecting leg composed of a plurality of superposed thin conductive films separated by insulating films on an area forming a contact zone on the surface of said probe support, said second thermocouple having an outwardly extending leg of a thin film, and a common leg contacting said first thermocouple common leg and being composed of a plurality of superposed thin conductor films separated by insulation films.

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Current Assignee
Wolfgang Fleckenstein
Original Assignee
Dragerwerk AG
Inventors
Fleckenstein, Wolfgang, Thiemann, Volker
Primary Examiner(s)
Howell, Kyle L.

Application Number

US05/738,826
Time in Patent Office

656 Days
Field of Search

128/2 H, 128/2.05 F, 128/2.05 V, 73/359, 73/361
US Class Current

600/504
CPC Class Codes

A61B 5/01 Measuring temperature of bo...

Puncture probe for measuring heat transfer or blood circulation of living tissues

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

9 Citations

11 Claims

Specification

Solutions

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Puncture probe for measuring heat transfer or blood circulation of living tissues

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

9 Citations

11 Claims

Specification

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Solutions

Use Cases

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