Air conditioning apparatus, heat exchanger for use in the apparatus and apparatus control method
First Claim
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1. An air conditioning apparatus comprising a compressor;
- a condenser connected to the discharge side of said compressor, said condenser being comprised of a pair of headers disposed parallel to each other and having refrigerant passages formed therein, a plurality of heat transfer pipes arranged between said headers to form refrigerant passages, a number of fins disposed in respective air passage spaces between adjacent pairs of said heat transfer pipes, and a refrigerant flow rate control valve for opening and closing the refrigerant passage in at least one of said headers;
an expansion valve connected to the outlet side of said condenser;
an evaporator connected between the outlet side of said expansion valve and the suction side of said compressor; and
control means for controlling an opening and closing operation of said refrigerant flow rate control valve, wherein said refrigerant flow rate control valve is controlled by said control means to be opened and closed for changing the effective heat transfer area of said condenser.
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Abstract
The present invention provides an air conditioning apparatus for automobiles equipped with a heat exchanger and a control method for the apparatus, by which the heat transfer area of the heat exchanger can be properly controlled to permit a stable cycle operation, even when the capacity of a condenser is relatively overly enhanced under a condition of the low atmospheric temperature. The apparatus and the control method are achieved with such an arrangement that either one or both of headers of a heat exchanger is provided with at least one refrigerant flow rate control valve capable of opening and closing refrigerant passages in each header, the heat exchanger has a refrigerant inlet provided in one header and a refrigerant outlet provided in the other header, and the control valve is opened and closed to change the number of the passages allowing the refrigerant to pass therethrough, for thereby changing the effective heat transfer area for heat exchange dependent on the atmospheric temperature.
49 Citations
12 Claims
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1. An air conditioning apparatus comprising a compressor;
- a condenser connected to the discharge side of said compressor, said condenser being comprised of a pair of headers disposed parallel to each other and having refrigerant passages formed therein, a plurality of heat transfer pipes arranged between said headers to form refrigerant passages, a number of fins disposed in respective air passage spaces between adjacent pairs of said heat transfer pipes, and a refrigerant flow rate control valve for opening and closing the refrigerant passage in at least one of said headers;
an expansion valve connected to the outlet side of said condenser;
an evaporator connected between the outlet side of said expansion valve and the suction side of said compressor; and
control means for controlling an opening and closing operation of said refrigerant flow rate control valve, wherein said refrigerant flow rate control valve is controlled by said control means to be opened and closed for changing the effective heat transfer area of said condenser. - View Dependent Claims (3, 4)
- a condenser connected to the discharge side of said compressor, said condenser being comprised of a pair of headers disposed parallel to each other and having refrigerant passages formed therein, a plurality of heat transfer pipes arranged between said headers to form refrigerant passages, a number of fins disposed in respective air passage spaces between adjacent pairs of said heat transfer pipes, and a refrigerant flow rate control valve for opening and closing the refrigerant passage in at least one of said headers;
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2. An air conditioning apparatus comprising a compressor of variable displacement type;
- a condenser connected to the discharge side of said compressor, said condenser being comprised of a pair of headers disposed parallel to each other and having refrigerant passages formed therein, a plurality of heat transfer pipes arranged between said headers to form refrigerant passages, a number of fins disposed in respective air passage spaces between adjacent pairs of said heat transfer pipes, and a refrigerant flow rate control valve for opening and closing the refrigerant passage in at least one of said headers;
an expansion valve connected to the outlet side of said condenser;
an evaporator connected between the outlet side of said expansion valve and the suction side of said compressor;
control means for controlling an opening and closing operation of said refrigerant flow rate control valve; and
a temperature sensor for detecting an atmospheric temperature, wherein said refrigerant flow rate control valve is controlled by said control means to be opened and closed for reducing the effective heat transfer area of said condenser, when the atmospheric temperature detected by said temperature sensor is determined to be low.
- a condenser connected to the discharge side of said compressor, said condenser being comprised of a pair of headers disposed parallel to each other and having refrigerant passages formed therein, a plurality of heat transfer pipes arranged between said headers to form refrigerant passages, a number of fins disposed in respective air passage spaces between adjacent pairs of said heat transfer pipes, and a refrigerant flow rate control valve for opening and closing the refrigerant passage in at least one of said headers;
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5. A control method for an air conditioning apparatus comprising a compressor;
- a condenser connected to the discharge side of said compressor, said condenser being comprised of a pair of headers disposed parallel to each other and having refrigerant passages formed therein, a plurality of heat transfer pipes arranged between said headers to form refrigerant passages, a number of fins disposed in respective air passage spaces between adjacent pairs of said heat transfer pipes, and a refrigerant flow rate control valve for opening and closing the refrigerant passage in at least one of said headers;
an expansion valve connected to the outlet side of said condenser;
an evaporator connected between the outlet side of said expansion valve and the suction side of said compressor;
control means for controlling an opening and closing operation of said refrigerant flow rate control valve; and
sensor means for detecting a refrigerant pressure or temperature on the outlet side of said condenser, wherein said refrigerant flow rate control valve is controlled by said control means to be opened and closed dependent on a signal value for changing the effective heat transfer area of said condenser. - View Dependent Claims (6, 7)
- a condenser connected to the discharge side of said compressor, said condenser being comprised of a pair of headers disposed parallel to each other and having refrigerant passages formed therein, a plurality of heat transfer pipes arranged between said headers to form refrigerant passages, a number of fins disposed in respective air passage spaces between adjacent pairs of said heat transfer pipes, and a refrigerant flow rate control valve for opening and closing the refrigerant passage in at least one of said headers;
- 8. A heat exchanger comprising a pair of headers disposed parallel to each other, a plurality of heat transfer pipes each having opposite ends inserted to said headers, respectively, and arranged to form refrigerant passages between said headers, and a number of fins disposed in respective air passage spaces between adjacent pairs of said heat transfer pipes, wherein either one or both of said headers is provided with at least one refrigerant flow rate control valve for opening and closing a refrigerant passage in the corresponding header, a refrigerant inlet of said heat exchanger is provided in one header, and a refrigerant outlet of said heat exchanger is provided in the other header.
Specification
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Current AssigneeHitachi, Ltd.
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Original AssigneeHitachi, Ltd.
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InventorsYamamoto, Takatoshi, Umeda, Tomomi, Musoh, Masanori, Miyamoto, Seigo, Fukushima, Toshihiko
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Primary Examiner(s)Tanner, Harry B.
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Assistant Examiner(s)SOLLECITO, JOHN M
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Application NumberUS07/620,205Time in Patent Office494 DaysField of Search62/196.4, 62/DIG. 17, 62/117, 62/506, 62/507, 165/101US Class Current62/196.4CPC Class CodesF25B 2339/044 Condensers with an integrat...F25B 2339/0444 where the flow of refrigera...F25B 2400/0403 for the condenserF25B 49/027 Condenser control arrangementsF28D 1/0408 Multi-circuit heat exchange...F28D 1/05366 Assemblies of conduits conn...F28D 1/05375 with particular pattern of ...F28D 2021/0084 CondensersF28F 27/02 for controlling the distrib...F28F 9/0212 the partitions being separa...Y10S 62/17 Condenser pressure control
