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US3133539A - Thermoelectric medical instrument - Google Patents

Thermoelectric medical instrument
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US3133539A
US3133539AUS215145AUS21514562AUS3133539AUS 3133539 AUS3133539 AUS 3133539AUS 215145 AUS215145 AUS 215145AUS 21514562 AUS21514562 AUS 21514562AUS 3133539 AUS3133539 AUS 3133539A
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thermocouple
thermocouple assembly
heat
junctions
headpiece
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Eidus William
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May 19, 1964 w. EIDUS THERMOELECTRIC MEDICAL INSTRUMENT Filed Aug. 6, 1962 INVENTOR.- WILLIAM ElDUs v BY Arron/Veys v United States Patent Olice Patented May 19, 1964 3,133,539 THERMOELECTRIC MEDICAL INSTRUMENT William Eidus, 1 Bonnie Court, Spring Valley, N.Y.
Filed Aug. 6, 1962, Ser. No. 215,145 11 Claims. (Cl. 12S- 399) The present invention relates to a novel and improved thermo-electric device fory the application of localized or spot cooling effects in external and internal medical treatment. Specifically, the invention relates to a portable medicaly instrument having interchangeable headpieces which are cooled by small thermocouple units and which may be applied directly to external or internal body areas as heat transfer surfaces for spot cooling or heating.
The devices of the invention are speciically adapted to utilize the Peltier eliect for producing extreme cooling at the application head thereof. They are thus particularly advantageous for external use as dermatological instrumentsin the freezing treatment of warts, acne, and skin blemishes. Among other external uses, there may be mentioned, for example, the surface application of cold to blood vessels and capillaries for the retardation of bleeding.
The devices of the invention will also lind use in internal surgery for various cerebral, cardiac, abdominal or intestinal operative or remedial procedures. For example, it is required to subject the heart to low temperatures in order to retard the heart-beat during heart surgery. According to present surgical practices, the chest cavity islled with crushed ice for this purpose. During surgery, the ice melts and must be drained out before the chest incision is closed. Furthermore, it is diflicult, if not impossible, to ycontrol the temperature at which the heart is maintained, where crushed ice is employed. f The device of the present invention is particularly adaptable to supply controlled cooling temperatures to the heart during surgery with no slush or water which must be removed from the chest cavity.
In addition to the foregoing advantages, it is an object of the invention to provide a small compact thermo-electric cooling unit for hand-held operation, which cooling unit is adapted'to produce cooling at a headpiece at one end thereof for direct localized cooling of selected body areas.
device of the character described in which ythe headpieces are removable and replaceable so that individual headpieces may be used when required for varying types of direct application.
A further object of the invention is the provision of a device of the character described in which the body of the portable unit, serving as a handle, is hollow and is filled with water 01' other suitable liquid, theliquid serving as an extremely eflicientheat sink for the thermoelectric units, thus providing cooling at very low temperatures.
Additional objects and advantages of the invention will become apparent during the course of the following specilication when taken in connection with the accompanying drawings, in which: j
FIG. l is an elevational` view, with portions broken away and shown in section, of a thermo-electric medical instrument made in accordance with the present invention;
FIG. 2 is a transverse section taken along line 2-2 of FIG. 1;
FIG. 3 is a transverse section taken along line '3-3 of FIG. l.;
FIGS. 4 and 5 are respective side elevational views of replaceable headpieces for the instrument, with portions thereof broken` away to reveal internal construction;
FIG. 6 is an elevational view, on a smaller scale, of the Another object of the invention is the provision of a thermo-electric instrument with a modified form of head-k piece attached thereto, the headpiece being partially broken away; y
FIG. 7 is a schematic view of the thermocouple assembly of the device and the electrical energizing circuit therefor; and
FIG. 8 is a partial sectional View showing a modiiied form of thermocouple arrangement for the device.
Referring in detail to the drawings, it will be seen that the thermo-electric device 10 comprises yin general ahollow body portion 12, serving both as a handle and as a liquid reservoir, athermocouple assembly 14 secured to oneend of the body.portion 12,*and ahead member 16, 18, 20 or 22 removably attached to the thermocouple assembly. i
The body y12, made of a heat-conductive material such as aluminum, is elongated and preferably of tubular cylindrical shape, itsperipheral body Wall 24 being provided with spaced radial ribs or varies 26 for the dissipation of internal heat. T he'hollowbody 12 is closed oif at one end byatop wall 28 and at its iother end by abottom wall 30. Thewalls 2S and 30, together with the body wall 24y completely enclose the hollow interior of thebody 12,
the passage of anelectrical cable 40, consisting of insuj lated leads 42 and 44, from the top to the bottom of thebody 12.
The upper end of thepipe 34 projects above thetop wall 28 and thecable 40 is held against movement therein j by arubbernipple 46 which is mounted on the projecting end of pipe -34`and embraces the adjacent portion of thecable 40. v f
Thetop Wall 28 ofbody member 12 has a iiuid inlet opening 48, bordered by a threadedneck 50. The inlet opening is closed off by an internally-threaded closure cap 52 removably mounted on theneck 50.
The lower .end of thepipe 34. terminates flush with the under surface ofbottom wall 30 to permit thethermocouple assembly 14 to be mounted flat against the bottom wall 3i) in heat-exchange relationship therewith. Then thermocouple assembly 14 comprises a suitable number (herein shown as eight)`of individual thermocouple units connected in series, as best shown in FIGS. 1, 3 and 7.
Specifically, thethermocouple assembly 22 is composed of a series ofsemiconductor elements 54 of the p-type,
alternating withsemiconductor elements 56 of the n-type.
Bothelements 54 and S6 are preferably made of barium telluride; the p-type differingL fromthe n-type in physical propertiesof the semiconductor employed. Barium telluride thermocouples of this type are well known and are commercially available.
Each individual pair ofsemiconductor elements 54 and 56 are connected at their upper ends bythin plates 58 0f electrically-conductive metal such as copper, while adjacent pairs ofelements 54 and 56 are connectedr at their lower ends bysimilar copper plates 60. Theplates 58 and 60 are thus arranged to connect theelements 54 and 56 in series, as best shown vin FIG. 7. When electrical current is passed through the thermocouple series in one direction,`thelower plates 60 will serve as cold junctions and theupper plates 58 as hot junctions. If the direction of the electrical current is then reversed, the lower plates `60 will become the hot vjunctions and theupper plates 58 the cold junctions.
The thermocouple units are embedded in aiiller 62 of polyurethane foam which acts as heat insulating means to prevent the heat generated at the hot junctions from overtaking the cold prevailing at the cold junctions. The outer surfaces of thejunction plates 58 and 60 are, however, exposed at the respective top and bottom edges of thefoam ler 62, as shown in FIGS. l and 3, in order to be intimately associated with the metal pieces to which the thermocouple assembly is attached.
Thethermocouple assembly 14 is mounted flat against the under surface ofbottom wall 30 by a plurality of anchor elements in the form ofchannel members 64. Thesechannel members 64 are secured to thebottom wall 30 and are embedded within theplastic foam iiller 62. The top copper plates 53 of the thermocouple assembly are electrically insulated from thebottom wall 30 by athin layer 66 of paint, epoxy resin, or other suitable material having insulating properties.
Anend plate 70 is secured flat against the outer surface of the Ithermocoupleassembly 14 by similar channel shapedanchor elements 72 which are secured toend plate 70 and embedded in thefoam ller 62. Theend plate 70 is made yof a heat conductive metal and is insulated from thethermocouple plates 60 by aninsulating layer 76.
The end plate '70 has a rigidly-secured orl integral threadedstud 74 depending from the center thereof and permitting the removable mounting of theindividual headpieces 16, 18, and 22. For this purpose, each of said headpieces is formedV with an internally-threadedsocket 78 sized to receive thestud 74.
The headpieces may be made in a variety of sizes and shapes for direct application to selected skin and body areas. For purposes of illustration, theheadpiece 16 is shown as having a atouter application surface 80 of circular shape, conforming in size to the diameter of thebody portion 12. Thesurface 80 provides a relatively large area of cooling for the treatment of surface blood vessels, reduction of bruise swelling, etc. Theheadpiece 18, on the other hand, is formed with acentral cavity 82 sized to receive warts or small tumors. Theheadpiece 20 is provided with apointed extension 84 for concentrated application of cold, while theheadpiece 22 terminates in a spoon-shaped or cup-shaped extension 86, sized to receive a human heart during surgery.
Thethermocouple assembly 14 is bordered by anannular metal ring 68 which is secured to theend plate 70. Thisring 68 surrounds theplastic foam filler 62 and protects it from contamination during treating. Thering 68 is, however, slightly spaced from thebottom Wall 30 to prevent the exchange of heat between the hot and cold junctions of the thermocouple assembly.
Theelectrical cable 40 extends entirely through thepipe 34, and itsleads 42 and 44 are connected to respective terminal strips 88 and 90 at the ends of the thermocouple series, as best shown in FIG. 7. When direct current is fed to the thermocouple assembly through theleads 42 and 44 in one direction, theupper thermocouple plates 58 Will be heated, such heat being dissipated by the heat sink provided by the liquid-filledbody member 12. At the same time, thelower thermocouple plates 60 will be cooled, the cooling eifect being distributed over the headpiece attached to thestud 74, and through the headpiece application surface to the body area being treated.
FIG; 7 shows schematically apower source unit 92 which may be employed for supplying electric current to `theleads 42 and 44. Theunit 92 may be adapted to be connected to a source of live D.C. current, or may be a self-contained unit including nickel-cadmium or other dry cells as the power source. In either event, the terminals of thepower source 94 are connected byleads 96 and 98 through aswitch 100, a variable resistor 102 and a polarity-reversingswitch 104 to theleads 42 and 44 connected to thethermocouple assembly 14. Theswitch 100 is of the usual single-pole, single throw typey and may be 4 manually operated to open and close the circuit, or may be associated with a timer (not shown) to automatically open the circuit after a designated heating or cooling period. The polarity-reversingswitch 104 may be employed to change the polarity of the current at theterminals 8S and 90 so that either heating or cooling will be produced at the headpiece. The variable resistor 102 may be employed to regulate the power supplied and therefore the degree of heating or cooling produced.
In one commercial embodiment of the device, eight thermocouple units, each consisting of a pair of barium telluride rods of 4 mm. diameter and 1/3 inch length were assembled in series and operated at 1.25 volts at 20 amperes. Under these operating conditions, and with the thermocouple assembly wired to produce a cooling eect at the headpiece, a steady state temperature of between -20 C. and 25 C. was produced at the headpiece. This temperature may, of course, be varied by adjustment of the variable resistor 102.
It is to be understood that the instrument is particularly intended to be used to produce cooling at the headpiece, although by use of the polarity-reversingswitch 104 it can be instantly converted to an instrument for providing controlled heat to body areas. When the device is used for cooling applications, for example, the relatively large amount of water or other liquid contained in thebody member 12 renders the latter an extremely ecient heat sink. The heat generated at theupper plates 58` 'passes through thebottom wall 30, 'is absorbed by the contained liquid 32, and is dissipated to the atmosphere through thevanes 26. Because of the high eliiciency of the heat sink, extreme cooling is produced at thelower plates 60, which is transferred through theend plate 70 and distributed over the connected headpiece.
FIG. 8 illustrates a modified thermocouple arrangement in which two thermocouple lassemblies are mounted in tandem to produce an even greater degree of cooling at the headpiece. In this embodiment, onethermocouple assembly 106 is mounted in tlush abutment with thebottom wall 30 ofbody member 12, while asecond thermocouple assembly 108 is mounted in ilush abutment with theend plate 70. The opposite surfaces of thethermocouple assemblies 106 and 108 rest ilush against each other, being electrically insulated from each other by a layer of Mylar lm 110 or other suitable insulating material.
Thethermocouple assemblies 106 and 108 are connected in parallel to the electrical cable leads 42 and 44 in such a manner that theupper plates 58 of the thermocouple assemblies are the hot sides while thelower plates 60 of the assemblies are the cold sides. Consequently, the hot side of thelower thermocouple unit 108 is in flush, heatexchange relationship with the cold side of theupper thermocouple unit 106. The heat generated at thetop plates 58 of thelower thermocouple assembly 108 is immediately absorbed by the cold bottom plates of theupper thermocouple assembly 106, so that the top plates of thelower thermocouple assembly 108 are kept cool and intense cold is produced at theend plate 70 and the attached headpiece. In other Words, 4theupper thermocouple assembly 106 serves as a refrigerated heat sink for thelower thermocouple assembly 108.
In utilizing theheadpiece 22, shown in FIG. 6, the entire instrument may be inserted into the chest cavity of a patient during heart surgery The spoon-shapedheadpiece extension 86 is sized and shaped to receive enough of the heart area to retard the heart-beat when cooling is applied. The degree of cooling is uniform over the headpiece and may be selectively regulated by adjustment of the variable resistor 102 to control the condition of the heart during the course of surgery, an advantage which cannot be obtained with the use of crushed ice in conventional surgery techniques.
While preferred embodiments of the invention have been shown and described herein, it is obvious that numerous additions, changes and omissions may be made in such embodiments without departing from the spirit and scope of the invention.
What I claim is:
1. A medical instrument for use with a liquid comprising an elongated handle member having a hollow interior forming a reservoir for said liquid and having a bottom Wall in heat-exchanging communication with the liquid within said reservoir, said reservoir and the liquid contained therein serving as a heat sink, a thermocouple assembly having hot junctions and cold junctions, means mounting said thermocouple assembly ush against said bottom wall with one of said junctions in heat-exchanging relationship therewith, a headpiece mounted adjacent the opposite junctions of said thermocouple assembly in heatexchanging relationship therewith, and means for connecting said thermocouple assembly to a power source.
2. A medical instrument comprising an elongated handle member having a bottom wall, a thermocouple assembly having hot junctions and cold junctions, means mounting said thermocouple assembly flush against said bottom wall with one of said junctions in heat-exchanging relationship therewith, a heat-conductive end member mounted adjacent the opposite junctions of said thermocouple assembly and having mounting means, a removable headpiece connected to said mounting means in heat-exchanging relationship with said end member, and means for connecting said thermocouple assembly to a power source.
3. A medical instrument according toclaim 2 in which said end member and headpiece have cooperating screw means for the removable connection of said headpiece and said end member.
4. A medical instrument according toclaim 2 in which said end member is mounted adjacent the cold junctions of said thermocouple assembly.
, 5. A medical instrument for use with a contained liquid, said instrument comprising an elongated, heat-conductive handle member having a main body Wall and top for said liquid and bottom walls forming a hollow liquid reservoir containing saidk liquid, a thermocouple assembly having hot junctions and cold junctions, means mounting said thermocouple assembly flush against said bottom wall of the handle member with its hot junctions in heatexchanging relationship therewith and said liquid reservoir and the liquid contained therein, said reservoir and the liquid contained therein serving yas a heat sink, a heatconductive end member mounted ush against the cold junctions of said thermocouple assembly and having mounting means, a removable headpiec/e connected to said mounting means in heat-exchanging relationship with said end member, said headpiece being heat-conductive and being sized for direct application to a small area of the body, and circuit means for connecting said thermocouple assembly to a power source.
6. A medical instrument according to claim 5 in which said circuit means includes a variable resistor for' controlling the temperature of said headpiece.
7. A medical instrument according to claim 5 in which said circuit means includes a polarity reversing switch for reversing the polarity of said power source and thereby cause the cold junctions to become hot junctions.
8. A medical instrument according to claim 5 in which the main body wall of said handle member is provided with a series of outwardly-projecting heat-dissipating tins.
9. A medical instrument for use with a liquid comprising an elongated handle member having a hollow interior forming a reservoir and having a bottom wall in heatexchanging communication with liquid within said reservoir, a thermocouple assembly comprising rows of alternate p-type and n-type semiconductor elements electrically connected at their ends to form hot junctions and cold junctions, means mounting said thermocouple assembly flush against said bottom wall with said hot junctions in heat-exchanging relationship therewith, whereby the liquid reservoir receives the generated heat through said bottom wall and serves as a heat sink, a heat-conductive end plate mounted adjacent the cold junctions of said thermocouple assembly and having mounting means, a removable headpiece connected to said mounting means in heat-exchanging relationship with said end plate, and means for connecting said thermocouple assembly to a power source.
10. A medical instrument according to claim 9 in which said thermocouple assembly comprises a pair of thermocouples mounted i'lat against each other with the hot junction of the upper thermocouple in engagement with said bottom wall of the handle member, the cold junction of the lower therm ocouple in engagement with said end plate, and the cold junction of the upper thermocouple resting ush against the hot junction of the lower thermocouple, the upper thermocouple serving as a heat sink for the lower thermocouple.
ll. A medical instrument according to claim 9 in which said headpiece is spoon shaped and sized to receive and hold a portion of the heart during surgery. v
References Cited in the le of this patent UNITED STATES PATENTS 1,968,867

Claims (1)

1. A MEDICAL INSTRUMENT FOR USE WITH A LIQUID COMPRISING AN ELONGATED HANDLE MEMBER HAVING A HOLLOW INTERIOR FORMING A RESERVOIR FOR SAID LIQUID AND HAVING A BOTTOM WALL IN HEAT-EXCHANGING COMMUNICATION WITH THE LIQUID WITHIN SAID RESERVOIR, SAID RESERVOIR AND THE LIQUID CONTAINED THEREIN SERVIND AS A HEAT SINK, A THERMOCOUPLE ASSEMBLY HAVING HOT JUNCTIONS AND COLD JUNCTIONS, MEANS MOUNTING SAID THERMOCOUPLE ASSEMBLY FLUSH AGAINST SAID BOTTOM WALL WITH ONE OF SAID JUNCTIONS IN HEAT-EXCHANGING RELATIONSHIP THEREWITH, A HEADPIECE MOUNTED ADJACENT THE OPPOSITE JUNCTIONS OF SAID THERMOCOUPLE ASSEMBLY IN HEATEXCHANGING RELATIONSHIP THEREWITH, AND MEANS FOR CONNECTING SAID THERMOCOUPLE ASSEMBLY TO A POWER SOURCE.
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Cited By (51)

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US3207159A (en)*1962-06-141965-09-21Tateisi Denki KabushikikaishaThermoelectric therapeutic instrument
US3274995A (en)*1963-07-091966-09-27Eidus WilliamThermoelectric dental probe
US3327713A (en)*1964-06-181967-06-27Eidus WilliamPortable thermoelectric hypothermia device
US3397633A (en)*1965-10-151968-08-20Harris RobertHeat sealing device
US3425417A (en)*1965-02-241969-02-04Maurice S KanbarRefillable cryogenic probe for surgical use
US3434477A (en)*1966-11-231969-03-25Univ NorthwesternSurgical instrument
US3502080A (en)*1965-06-281970-03-24Max L HirschhornThermoelectrically cooled surgical instrument
US3618590A (en)*1969-06-271971-11-09Hoffmann La RocheThermal electric dental pulp tester
US3971229A (en)*1972-03-291976-07-27Panoduz-Anstalt Co.Apparatus for producing cold principally for the application of cold by contact on the body of living beings
US4440167A (en)*1980-12-261984-04-03Kabushikikaisha YoshidaAnesthetizer for dental treatment
US4483341A (en)*1982-12-091984-11-20Atlantic Richfield CompanyTherapeutic hypothermia instrument
US4614191A (en)*1983-09-021986-09-30Perler Robert FSkin-cooling probe
US4640284A (en)*1985-07-221987-02-03Ruderian Max JHot and cold direct contact applicator
EP0239048A3 (en)*1986-03-271988-03-30Politechnika WarszawskaLow-temperature destroyer
USD298458S (en)1986-04-031988-11-08Ely MargolinThermoelectric device for heating and cooling the skin
US4846176A (en)*1987-02-241989-07-11Golden Theodore AThermal bandage
US5097828A (en)*1990-09-251992-03-24Richard DeutschThermoelectric therapy device
US5117822A (en)*1991-04-051992-06-02Laghi Aldo ASilicone heart spoon
US5209227A (en)*1990-09-251993-05-11Richard DeutschThermoelectric therapy device and moisturizing device therefor
WO1993016667A1 (en)*1992-02-261993-09-02Implemed, Inc.Cryogenic probe
US5277030A (en)*1993-01-221994-01-11Welch Allyn, Inc.Preconditioning stand for cooling probe
US5343368A (en)*1993-01-221994-08-30Welch Allyn, Inc.Thermally neutral portable power sources
EP0840078A1 (en)1996-11-041998-05-06Luc PiraCryoprobe based on a Peltier module
US5878579A (en)*1997-08-181999-03-09Boyer, Iii; Lynn L.Heat transfer probe
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US9737434B2 (en)2008-12-172017-08-22Zeltiq Aestehtics, Inc.Systems and methods with interrupt/resume capabilities for treating subcutaneous lipid-rich cells
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Cited By (66)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3207159A (en)*1962-06-141965-09-21Tateisi Denki KabushikikaishaThermoelectric therapeutic instrument
US3274995A (en)*1963-07-091966-09-27Eidus WilliamThermoelectric dental probe
US3327713A (en)*1964-06-181967-06-27Eidus WilliamPortable thermoelectric hypothermia device
US3425417A (en)*1965-02-241969-02-04Maurice S KanbarRefillable cryogenic probe for surgical use
US3502080A (en)*1965-06-281970-03-24Max L HirschhornThermoelectrically cooled surgical instrument
US3397633A (en)*1965-10-151968-08-20Harris RobertHeat sealing device
US3434477A (en)*1966-11-231969-03-25Univ NorthwesternSurgical instrument
US3618590A (en)*1969-06-271971-11-09Hoffmann La RocheThermal electric dental pulp tester
US3971229A (en)*1972-03-291976-07-27Panoduz-Anstalt Co.Apparatus for producing cold principally for the application of cold by contact on the body of living beings
US4440167A (en)*1980-12-261984-04-03Kabushikikaisha YoshidaAnesthetizer for dental treatment
US4483341A (en)*1982-12-091984-11-20Atlantic Richfield CompanyTherapeutic hypothermia instrument
US4614191A (en)*1983-09-021986-09-30Perler Robert FSkin-cooling probe
US4640284A (en)*1985-07-221987-02-03Ruderian Max JHot and cold direct contact applicator
EP0239048A3 (en)*1986-03-271988-03-30Politechnika WarszawskaLow-temperature destroyer
USD298458S (en)1986-04-031988-11-08Ely MargolinThermoelectric device for heating and cooling the skin
US4846176A (en)*1987-02-241989-07-11Golden Theodore AThermal bandage
US5209227A (en)*1990-09-251993-05-11Richard DeutschThermoelectric therapy device and moisturizing device therefor
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