[특허]Dehumidifying apparatus with electronic refrigeration unit

Dehumidifying apparatus with electronic refrigeration unit 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	F25B-021/02
출원번호	US-0784231 (1991-10-30)
우선권정보	JP-0290836 (1990-10-30); JP-0132868 (1991-06-04); JP-0241464 (1991-09-20)
발명자 / 주소	Tomatsu Yoshitaka (Nagoya JPX) Yamada Kenji (Chiryu JPX) Oike Tatsuya (Okazaki JPX) Nishizawa Kazutoshi (Toyoake JPX) Itou Satoshi (Kariya JPX)
출원인 / 주소	Nippondenso Co., Ltd. (Kariya JPX 03)
인용정보	피인용 횟수 : 40 인용 특허 : 0

초록 ▼

A dehumidifying apparatus with an electronic refrigeration unit includes a thermoelectric unit, a DC power source, and absorbing and liberating heat exchangers. The thermoelectric unit includes a plurality of N-type thermoelectric elements, heat absorbing electrodes, P-type thermoelectric elements, and heat liberating electrodes electrically connected in series. The DC power source supplies DC current to the N-type and P-type thermoelectric elements serially connected through the heat absorbing and heat liberating electrodes. The absorbing and liberating heat exchanger are integrated with the heat absorbing and liberating electrodes, respectively. A heat liberating surface of the liberating heat exchanger is formed at a position different from the absorbing heat exchanger. The absorbing and liberating heat exchangers include heat absorbing and liberating fins, respectively. A notch is formed in one side of each of the heat liberating fins so that a part of a heat absorbing fin fits the notch. The heat absorbing fins are set in a position corresponding to a notch of a corresponding heat liberating fin so that a part of the heat absorbing fin overlaps a part of the heat liberating fin. The overlapped portions are used for the heat absorbing and heat liberating electrodes.

대표청구항 ▼

A dehumidifying apparatus with an electronic refrigeration unit comprising: a thermoelectric unit including a plurality of N-type thermoelectric elements, heat absorbing electrodes, P-type thermoelectric elements, and heat liberating electrodes electrically connected in series; a DC power source for supplying DC current to said N-type and P-type thermoelectric elements serially connected through said heat absorbing and heat liberating electrodes so that a temperature of the heat absorbing electrode for supplying current from the N-type to P-type thermoelectric elements is decreased and a temperature of the heat liberating electrode for supplying current from the N-type to P-type thermoelectric elements is increased; an absorbing heat exchanger integrated with the heat absorbing electrodes which constitutes said thermoelectric conversion unit and whose temperature is decreased so that heat can be transmitted, said heat absorbing exchanger including a plurality of heat absorbing fins; a liberating heat exchanger integrated with the heat liberating electrodes so that heat can be transmitted, a heat liberating surface of said liberating heat exchanger being formed at a position different from said absorbing heat exchanger, said liberating heat exchanger including a plurality of heat liberating fins; an air channel formed so that the air passing through said absorbing heat exchanger is exhausted through said liberating heat exchanger; and wherein a notch is formed in one side of each of said heat liberating fins so that a part of said heat absorbing fin fits the notch, said heat absorbing fins are set in a position corresponding to the notch of a corresponding heat liberating fin so that a part of the heat liberating fin overlaps with a part of said heat absorbing fin, and the overlapped portions of said heat absorbing fins and said heat liberating fins are used for used heat absorbing and heat liberating electrodes, respectively.

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