Thermoelectric device with recuperative heat exchangers

US 5,232,516 A
Filed: 06/04/1991
Issued: 08/03/1993
Est. Priority Date: 06/04/1991
Status: Expired due to Fees

First Claim

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1. A thermoelectric device operating as a heat pump comprising:

(i) a vessel forming a liquid-tight container and having a cold end portion thereof adapted to be in thermal contact with an external heat source from which heat is to be withdrawn;

(ii) a plurality of thermocouples joined into a continuous plate having a first side and a second side opposite thereto, said plate being positioned in the vessel;

(iii) each thermocouple comprising a leg of p-semiconductive material and a leg of n-semiconductive material, each leg having two ends and each thermocouple having an intra-couple electrical connection means to electrically connect one leg to the other leg of its thermocouple at one end thereof;

said intra-couple means being adjacent the first side of the plate;

(iv) a group of inter-couple connection means to electrically connect adjacent couples, said intercouple means being adjacent to the second side of the plate;

(v) a DC power source connected to each thermocouple adapted to thereby create a thermal gradient from the first side of the plate to the second side of the plate;

(vi) said plate dividing said vessel into a warm space on the first side of the plate and a cold space on the second side of the plate; and

(vii) means to flow liquid within the vessel over both sides of the plate from the cold space to the warm space in a continuous and recirculating closed-loop liquid flow path to cool the liquid by contact with the first side of the plate and warm the liquid by contact with the opposite second side of the plate and to flow the cooled liquid into thermal contact with the cold end portion.

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Abstract

Thermoelectric heat pumps using recuperative heat exchange are described. These devices use sets of thermocouples (thermoelectric couples) arranged side-by-side to form a plate. The plate is positioned in a fluid-containing vessel and heat exchanging fluid is flowed down one side of the plate and up the other side. In these devices the heat flow, and thus the driving thermal gradient on each thermoelectric couple in the device, is in a direction from one side of the plate to the other side, i.e., other than the direction of the device'"'"'s working thermal gradient, which is the direction of the flow of fluid. Generally these two directions (driving gradient on the thermoelectric couples and fluid flow-working thermal gradient) are essentially orthogonal to each other.

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9 Claims

1. A thermoelectric device operating as a heat pump comprising:
- (i) a vessel forming a liquid-tight container and having a cold end portion thereof adapted to be in thermal contact with an external heat source from which heat is to be withdrawn;
  
  (ii) a plurality of thermocouples joined into a continuous plate having a first side and a second side opposite thereto, said plate being positioned in the vessel;
  
  (iii) each thermocouple comprising a leg of p-semiconductive material and a leg of n-semiconductive material, each leg having two ends and each thermocouple having an intra-couple electrical connection means to electrically connect one leg to the other leg of its thermocouple at one end thereof;
  
  said intra-couple means being adjacent the first side of the plate;
  
  (iv) a group of inter-couple connection means to electrically connect adjacent couples, said intercouple means being adjacent to the second side of the plate;
  
  (v) a DC power source connected to each thermocouple adapted to thereby create a thermal gradient from the first side of the plate to the second side of the plate;
  
  (vi) said plate dividing said vessel into a warm space on the first side of the plate and a cold space on the second side of the plate; and
  
  (vii) means to flow liquid within the vessel over both sides of the plate from the cold space to the warm space in a continuous and recirculating closed-loop liquid flow path to cool the liquid by contact with the first side of the plate and warm the liquid by contact with the opposite second side of the plate and to flow the cooled liquid into thermal contact with the cold end portion.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A thermoelectric device as set forth in claim 1 wherein said flow means includes pump means to flow a stream of liquid over said sides of the plate.
  - 3. A thermoelectric device as in claim 1 wherein the thermocouples are connected together in subsets and the subsets of thermocouples within the plate are connected in series.
  - 4. A thermoelectric device as in claim 3 comprising a plurality of said thermocouple subsets within the plate arranged side-by-side.
  - 5. A thermoelectric device as in claim 1 wherein the thermocouples within the plate are electrically and physically equivalent.

6. A thermoelectric refrigerator comprising:
- (i) a plurality of thermoelectric plates each plate having a plurality of thermocouples positioned in the plate with opposite first and second sides;
  
  (ii) each thermocouple comprising a leg of p-semiconductive material and a leg of n-semiconductive material, each leg having two ends adapted to have its heat flow directed from said plate first side to said plate second side, each leg being in thermal contact with the plate first side at one of its ends and being electrically connected to the other leg of its thermocouple at its opposite end and adjacent the plate second side, the thermocouples being electrically connected into subsets and subsets of thermocouples within each plate being connected in series;
  
  (iii) DC power source means connected to each thermocouple to furnish DC power thereto;
  
  (iv) vessel means to contain said plates and adapted to contain a liquid which flows in a continuous closed-loop recirculating liquid path over said first side of each plate and over said second side of each plate, wherein said vessel means has at least one closed end in thermal contact with an external heat source from which heat is to be withdrawn; and
  
  (v) flow means to flow said liquid over each of said plates, the flow being in a direction about orthogonal to said direction of thermocouple heat flow, said flow being over one side of each plate toward said closed end and then over the opposite side of each plate in the reverse direction, thereby withdrawing heat form the heat source.
- View Dependent Claims (7, 8, 9)
- - 7. A thermoelectric device as set forth in claim 6 wherein said flow means includes pump means to pump said liquid over said sides of each plate.
  - 8. A thermoelectric cell as in claim 6 wherein the thermocouples within each plate are connected in series.
  - 9. A thermoelectric device as in claim 6 comprising a plurality of thermocouples within each plate arranged side-by-side and wherein the thermocouples within each plate are electrically and physically equivalent.

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Current Assignee
Medtronic CryoCath LP (Medtronic Plc)
Original Assignee
Implemed, Inc.
Inventors
Hed, Aharon Z.
Primary Examiner(s)
Walsh, Donald P.
Assistant Examiner(s)
CARROLL, CHRISMAN DION

Application Number

US07/710,100
Time in Patent Office

791 Days
Field of Search

136/203, 136/204, 136/205, 136/208, 136/209, 136/210, 136/211, 136/212, 136/224, 136/225, 62/3.2, 62/3.3, 62/3.6
US Class Current

136/204
CPC Class Codes

H10N 10/13 characterised by the heat-e...

Thermoelectric device with recuperative heat exchangers

First Claim

6 Assignments

0 Petitions

Accused Products

Abstract

241 Citations

9 Claims

Specification

Solutions

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Thermoelectric device with recuperative heat exchangers

First Claim

6 Assignments

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0 Petitions

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Accused Products

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Abstract

241 Citations

9 Claims

Specification

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Solutions

Use Cases

Quick Links