P
USRE35441EExpiredUtilityPatentIndex 89

Thermoelectric semiconductor having a porous structure deaerated in a vacuum and thermoelectric panel using p-type and n-type thermoelectric semiconductors

Assignee: MATSUSHITA ELECTRIC INDUSTRIAL CO LTDPriority: Apr 20, 1990Filed: Oct 28, 1994Granted: Feb 4, 1997
Est. expiryApr 20, 2010(expired)· nominal 20-yr term from priority
Inventors:YOKOTANI YOUICHIROUKUGIMIYA KOUICHIANDO HAMAE
Y10S257/93H10N 10/851H10N 10/852H10N 10/17H10N 10/85
89
PatentIndex Score
22
Cited by
14
References
1
Claims

Abstract

A thermoelectric semiconductor device having a porous structure and an air-tight sealing structure maintaining it in a deaerated state is disclosed. A refrigeration panel comprising a plurality of p-type and n-type semiconductor elements each having a structure mentioned above, in which the elements are arranged alternatively and electrically connected in series is also disclosed.

Claims

exact text as granted — not AI-modified
What is claimed is: .[.1. A thermoelectric semiconductor device in which p-type and n-type thermoelectric semiconductor elements are electrically connected alternatively in series to form p-n junctions for causing energy conversions between thermal energy and electrical energy characterized in 
     
        material..].   A thermoelectric semiconductor device in which a plurality of p-type and n-type thermoelectric semiconductor elements are arranged in a two-dimensional configuration and electrically connected alternatively in series to form p-n junctions for causing energy conversions between thermal and electrical energy characterized in that spaces existing among said p-type and n-type semiconductor elements   
     
     
        are deaerated into a vacuum. 5. A thermoelectric semiconductor device in which a plurality of p-type and n-type thermoelectric semiconductor elements are arranged in a two-dimensional configuration and electrically connected alternatively in series to form p-n junctions for causing energy conversions between thermal and electrical energy characterized in that spaces existing among said p-type and n-type semiconductor elements are filled with an inorganic insulation material and deaerated into a   
     
     
        vacuum of 1 mmHg or less. 6. The thermoelectric semiconductor device as claimed in claim 5 in which said inorganic insulation material is porous. 
     
     
         . The thermoelectric semiconductor device as claimed in claim 5 in which 
     
     
        said inorganic insulation material is a powder. 8. A thermoelectric semiconductor device in which a plurality or p-type and n-type thermoelectric semiconductor elements are arranged in a two-dimensional configuration and electrically connected alternatively in series to form p-n junctions for causing energy conversions between thermal energy and electrical energy characterized in that each of said p-type and n-type thermoelectric semiconductor elements consists of a porous material;   that spaces existing among said p-type and n-type semiconductor elements are filled with an inorganic insulation material; and that pores in each of said p-type and n-type thermoelectric semiconductor elements are   
     
     
        deaerated into a vacuum of 1 mmHg or less. 9. The thermoelectric semiconductor device as claimed in claim 8 in which said inorganic insulation material is a porous material and pores in said material are 
     
     
        deaerated into a vacuum equal to 1 mmHg or less. 10. The thermoelectric semiconductor device as claimed in claim 8 in which said inorganic 
     
     
        insulation material is a powder. 11. An electronic refrigeration panel in which p-type and n-type semiconductor elements are electrically connected alternatively in series to form p-n junctions for causing energy conversions between thermal energy and electrical energy characterized in that each of said p-type and n-type semiconductor elements is comprised of semiconductor layers formed on surfaces of support particles .Iadd.selected from the group consisting of hollow particles and porous particles, .Iaddend.and   
     
     
       wherein said elements are in contact with each other. 12. The electronic refrigeration panel as claimed in claim 11 in which said semiconductor 
     
     
        layers from a continuous sintered layer. 13. The electronic refrigeration panel as claimed in claim 11 in which said support particles are hollow 
     
     
        particles. 14. The electronic refrigeration panel as claimed in claim 11 
     
     
        in which said support particles are porous particles. 15. A thermoelectric semiconductor device having a semiconductor block consisted of a porous body and electrodes formed on upper and lower end surfaces of said block being characterized in that said electrodes are made of an air-tight metal;   that side surfaces of said block are coated with an air-tight insulation material; and   
     
     
       that said semiconductor block has been deaerated. 16. The thermoelectric semiconductor device as claimed in claim 15 in which said porous body is comprised of gas permeable support particles and a gas permeable thermoelectric semiconductive material supported by said support   
     
     
        particles. 17. A thermoelectric semiconductor device comprising a pair of p-type and n-type semiconductor blocks each consisted of a porous body being characterized in that an insulation sheet material is inserted between said pair of p-type and n-type semiconductor blocks;   that said pair of p-type and n-type semiconductor blocks are electrically connected by a common electrode of an air-tight metal at one end thereof and, at another end thereof, each of said p-type and n-type semiconductor blocks is covered by an electrode of an air-tight metal;   that surfaces of said pair of p-type and n-type semiconductor blocks are covered by an air-tight insulation material; and   that said pair of p-type and n-type semiconductor blocks are kept in a   
     
     
        deaerated state. 18. The thermoelectric semiconductor device as claimed in claim 17 in which said porous body is comprised of gas permeable support particles and a gas permeable thermoelectric semiconductive material supported by said support   
     
     
        particles. 19. The thermoelectric semiconductor device as claimed in claim 
     
     
        17 in which said insulation sheet material is gas-permeable. 20. A thermoelectric semiconductor device comprising: an assembly of p-type and n-type semiconductor blocks arranged alternatively in a two-dimensional configuration, said each semiconductor block being porous and having electrodes of an air-tight metal material formed on both end surfaces thereof and side surfaces thereof being covered with an insulation material;   junction electrodes formed on upper and lower surfaces of said assembly of p-type and n-type semiconductor blocks each of which is made of an air-tight metal material and connects said electrodes of a pair of said p-type and n-type semiconductor blocks at each end surface of said assembly in such a manner that said p-type and n-type semiconductor blocks are electrically connected alternatively in series; and   an air-tight insulation material covering outer surfaces of said assembly not covered by said junction electrodes, said air-tight insulation material and said junction electrodes maintaining said assembly in a   
     
     
        deaerated state. 21. The thermoelectric semiconductor device as claimed in claim 20 in which said each semiconductor block is consisted of gas permeable support particles and a gas permeable thermoelectric semiconductive material   
     
     
        supported by said support particles. 22. The thermoelectric semiconductor device as claimed in claim 20 in which said insulation material covering 
     
     
        side surfaces of said each semiconductor block is gas permeable. 23. A thermoelectric semiconductor device comprising: a support block consisted of a porous material;   a thermoelectric semiconductive layer formed on an outer surface of said support block,   electrodes made of an air-tight metal material and formed on the upper and lower surfaces of said thermoelectric semiconductive layer; and   an air-tight insulation layer formed on side surfaces of said thermoelectric semiconductive layer;   in which said support block is kept in a deaerated state by said electrodes   
     
     
        and said air-tight insulation layer. 24. A thermoelectric semiconductor device comprising a pair of p-type and n-type semiconductor blocks being characterized in that each of said pair of p-type and n-type semiconductor blocks is consisted of a support block made of a porous material and a thermoelectric semiconductive layer formed supported by said support block;   that an insulation sheet material is inserted between said pair of p-type and n-type semiconductor blocks;   that said pair of p-type and n-type semiconductor blocks are electrically connected by a common electrode of an air-tight metal at one end thereof and, at another end thereof, each of said p-type and n-type semiconductor blocks is covered by an electrode of an air-tight metal;   that surfaces of said pair of p-type and n-type semiconductor blocks are covered by an air-tight insulation material; and   that said pair of p-type and n-type semiconductor blocks are kept in a   
     
     
        deaerated state. 25. A thermoelectric semiconductor device comprising an assembly of p-type and n-type semiconductor blocks arranged alternatively in a rectangular configuration, said each semiconductor block being consisted of a support block made of a porous material and a thermoelectric semiconductive layer formed supported on an outer surface of said support block and side surfaces of said each semiconductor block being covered by an air-tight insulation layer; junction electrodes formed of upper and lower surfaces of said assembly of p-type and n-type semiconductor blocks each of which is made of an air-tight metal material and electrically connects each one end of a pair of p-type and n-type semiconductor blocks in such a manner that said p-type and n-type semiconductor blocks are electrically connected alternatively in series; and   an air-tight insulation material covering outer surfaces of said assembly not covered by said junction electrodes: said air-tight insulation material and said junction electrodes maintaining said assembly in a deaerated state.

Cited by (0)

No later patents cite this yet.

References (0)

No backward citations on record.