Pump and control unit for a solar heating installation for a water tank, and particularly for a swimming pool
First Claim
1. A pump and control unit for a solar heating installation for a water tank, such as for a swimming pool, said installation having at least one solar collector for converting the energy from solar radiation into heat, a hydraulic circuit containing an outward-flow pipe connecting the tank to the inlet of the collector and a return-flow pipe connecting the outlet of the collector to the tank, a pump which circulates the water from the tank through said hydraulic circuit, and a derivative-action control unit which is electrically connected to the pump and to two sensors mounted on the outward-flow pipe and on the return-flow pipe, respectively;
- said unit comprising said pump, derivative-action control unit and two sensors all contained in a single opaque case which is traversed by a section of said outward-flow pipe and a section of said return-flow pipe and which is provided in its top wall with a transparent opening through which said sensor on the section of return-flow pipe can be insolated, said section of return-flow pipe which carries the return-flow sensor being in the form of an arch or of an inverted U, the sensor being mounted on the central portion of said arch and extending just below said opening.
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Accused Products
Abstract
The invention relates to a pump and control unit for a solar heating installation system for a water tank, particularly for a swimming pool. The system contains a solar collector, a hydraulic circuit which includes an outward-flow pipe, a return-flow pipe, a pump, a derivative-action control unit and two sensors mounted on the outward-flow pipe and on the return-flow pipe, respectively. The pump, the control unit and the two sensors are integrated into a single case. The case is provided in its top wall with a transparent opening which faces the return-flow sensor and through which said sensor can be exposed to solar radiation, such that the pump may be automatically activated during periods of sunshine, i.e., when the solar collector is heating the water returning to the tank, and stopped due to lack of sunshine.
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Citations
9 Claims
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1. A pump and control unit for a solar heating installation for a water tank, such as for a swimming pool, said installation having at least one solar collector for converting the energy from solar radiation into heat, a hydraulic circuit containing an outward-flow pipe connecting the tank to the inlet of the collector and a return-flow pipe connecting the outlet of the collector to the tank, a pump which circulates the water from the tank through said hydraulic circuit, and a derivative-action control unit which is electrically connected to the pump and to two sensors mounted on the outward-flow pipe and on the return-flow pipe, respectively;
- said unit comprising said pump, derivative-action control unit and two sensors all contained in a single opaque case which is traversed by a section of said outward-flow pipe and a section of said return-flow pipe and which is provided in its top wall with a transparent opening through which said sensor on the section of return-flow pipe can be insolated, said section of return-flow pipe which carries the return-flow sensor being in the form of an arch or of an inverted U, the sensor being mounted on the central portion of said arch and extending just below said opening.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of conserving heat in the pipes of a solar heating installation for a water tank such as a swimming pool, said installation having at least one solar collector for converting the energy from solar radiation into heat, a hydraulic circuit containing an outward-flow pipe connecting the tank to the inlet of the collector and a return-flow pipe connecting the outlet of the collector to the tank, a pump which circulates the water from the tank through said hydraulic circuit, and a derivative-action control unit which is electrically connected to the pump and to two sensors mounted on the outward-flow pipe and on the return-flow pipe, respectively;
- said unit containing said pump, derivative-action control unit and two sensors all contained in a single opaque case which is traversed by a section of said outward-flow pipe and a section of said return-flow pipe and which is provided in its top with a transparent opening through which said sensor on the section of return-flow pipe can be insolated;
which method comprises using in said unit a return-flow pipe having the form of an arch such that heated hydraulic flow in the circuit is blocked when the pump is stopped.
- said unit containing said pump, derivative-action control unit and two sensors all contained in a single opaque case which is traversed by a section of said outward-flow pipe and a section of said return-flow pipe and which is provided in its top with a transparent opening through which said sensor on the section of return-flow pipe can be insolated;
Specification
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- Resources
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Current AssigneeCompagnie Francaise De Raffinage
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Original AssigneeCompagnie Francaise De Raffinage
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InventorsCannaux, Guy, Calvet, Gerard
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Primary Examiner(s)Focarino, Margaret A.
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Application NumberUS06/597,069Time in Patent Office558 DaysField of Search126/416, 126/419, 126/422, 126/432, 126/437, 126/434, 165/18, 165/40, 236/91 FUS Class Current126/563CPC Class CodesE04H 4/129 Systems for heating the wat...F24S 20/02 for swimming poolsY02E 10/40 Solar thermal energy, e.g. ...
