A control system and method for a thermal circuit that includes a control unit (1) and a valvular device which regulate the passage of a heat transfer fluid (6) through the inside of a thermal circuit, and a thermoelectric element (3) powering the control unit (1) from the heat of the heat transfer
A control system and method for a thermal circuit that includes a control unit (1) and a valvular device which regulate the passage of a heat transfer fluid (6) through the inside of a thermal circuit, and a thermoelectric element (3) powering the control unit (1) from the heat of the heat transfer fluid (6). The control unit (1) and/or the valvular device are configured to regulate the circulation of the heat transfer fluid (6) through the inside of the thermal circuit, in order to always maintain a sufficient minimum flow to assure, at all times, the electric power supply of the control unit (1). The method includes using a control system to carry out regulation of the circulation of the heat transfer fluid which assures the electric power supply of part or the entire control system.
대표청구항▼
1. A control system for a thermal circuit, comprising: a valvular device in connection with said thermal circuit, such that said valvular device and at least one hollow radiating body of the thermal circuit are in fluidic communication with each other, said valvular device and said thermal circuit c
1. A control system for a thermal circuit, comprising: a valvular device in connection with said thermal circuit, such that said valvular device and at least one hollow radiating body of the thermal circuit are in fluidic communication with each other, said valvular device and said thermal circuit cooperate in the regulation of the passage of a heat transfer fluid through the inside of said at least one hollow radiating body,at least one control unit arranged for controlling the opening/closing of said valvular device through corresponding electric command signals,at least one thermoelectric element arranged in thermal contact with the heat transfer fluid to generate electricity from the heat of said heat transfer fluid, and electrically connected with said control unit to electrically power supply at least part of said control unit from the generated electricity, wherein said control unit and said valvular device are configured to regulate the circulation of said heat transfer fluid through the inside of said at least one hollow radiating body, by making the valvular device adopt a partially closed position which allows only a sufficient minimum flow of the heat transfer fluid to pass therethrough and through the at least one hollow radiating body, in order to always maintain the sufficient minimum flow of heat transfer fluid for said thermoelectric element to always generate electricity, from which the electric power supply of at least said part of the control unit electrically power supplied by the at least one thermoelectric element is assured at all times. 2. The control system according to claim 1, wherein said thermoelectric element comprises at least one Seebeck cell with a first face arranged to reach or come close to the temperature of the heat transfer fluid and a second face arranged to reach or come close to the ambient temperature in order to generate an electric current proportional to the temperature difference between the faces thereof. 3. The control system according to claim 2, wherein said first face of said at least one Seebeck cell is in contact with an area of the outer face of an inlet pipe for heat transfer fluid, of said hollow radiating body. 4. The control system according to claim 3, wherein said area of the outer face of said inlet pipe is adjacent to an inlet valve of said hollow radiating body. 5. The control system according to claim 2, wherein said first face of said at least one Seebeck cell is in contact with the body of at least one valve comprised by said valvular device. 6. The control system according to claim 1, further comprising a drive servomotor in electrical connection with said control unit and in mechanical connection with a servovalve comprised by said valvular device, to operate said servovalve under the command of said control unit through the sending, by said control unit, of an electric command signal to said drive servomotor which makes said servovalve adopt said partially closed position which allows only said minimum flow of heat transfer fluid (6) to pass therethrough. 7. The control system according to claim 6, wherein said servovalve is configured to adopt a partially closed position which only allows said minimum flow of heat transfer fluid to pass therethrough, when said drive servomotor receives a partial closing signal by said control unit, wherein said control unit is configured to send a corresponding partial closing signal to said drive servomotor to make said servovalve adopt and remain in said partially closed position which allows only said minimum flow of heat transfer fluid to pass therethrough. 8. The control system according to claim 6, wherein said servovalve is configured to adopt a partially closed position which only allows said minimum flow of heat transfer fluid to pass therethrough, when said drive servomotor receives a complete closing signal by said control unit, wherein said control unit is configured to send said complete closing signal to said drive servomotor to make said servovalve adopt said partially closed position. 9. The control system according to claim 8, wherein said servovalve comprises a stop element which prevents it from closing beyond said partially closed position. 10. The control system according to claim 1, further comprising a voltage boosting circuit with its input in connection with the output of said at least one thermoelectric element, to raise the voltage with which to power the control unit. 11. The control system according to claim 1, further comprising at least one electric energy storage element arranged to store the electric energy generated by said at least one thermoelectric element. 12. The control system according to claim 1, wherein the thermal circuit includes heating circuits, said hollow radiating body being a heating radiator. 13. The control system according to claim 12, wherein the heating circuits are part of a central heating system, the control unit controlling the circulation of the heat transfer fluid circulating through several heating radiators of said central heating system, maintaining said minimum flow of heat transfer fluid to pass through each of said heating radiators. 14. The control system according to claim 6, wherein the control unit is electrically and bidirectionally connected with the drive servomotor through: an input for receiving information about the actual opening position of the servovalve, acquired by means of corresponding detection means associated with the servomotor, andan output for sending to the servomotor the corresponding electric control signals for regulating the opening/closing of the servovalve. 15. The control system according to claim 1, comprising said thermal circuit. 16. A control method for a thermal circuit, comprising: electrically power supplying, at least partly, at least part of a control unit by means of electric energy thermoelectrically generated from heat energy of a heat transfer fluid circulating through the inside of at least one hollow radiating body of said thermal circuit,regulating circulation of said heat transfer fluid through the inside of said thermal circuit, in order to always maintain a sufficient minimum flow of said heat transfer fluid through the inside of said hollow radiating body of said thermal circuit, for thermoelectrically generating sufficient electric energy to assure, at all times, the electric power supply of said at least part of the control unit,wherein said regulating is performed by controlling, by means of said control unit, a valvular device in fluidic communication with said at least one hollow radiating body to make the valvular device adopt a partially closed position which allows only said sufficient minimum flow of the heat transfer fluid to pass therethrough and through the at least one hollow radiating body, in order to always maintain said sufficient minimum flow of heat transfer fluid. 17. The method according to claim 16, further comprising controlling heating circuits of said thermal circuit, which are formed by at least one heating radiator. 18. The method according to claim 17, further comprising controlling heating circuits of a central heating system, and controlling circulation of the heat transfer fluid circulating through several heating radiators of said central heating system, always maintaining said minimum flow through the inside of all of them to assure, at all times, the electric power supply of at least part of said at least one control unit.
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이 특허에 인용된 특허 (7)
Lampert Heinz (Buchs CHX) Scheiwiller Bruno (Winterthur CHX), Arrangement for measuring the quantity of heat given off by a heating body and for controlling fluid stream passing thro.
Tae-hoon Kim KR; Byung-chul Kim KR; Young-woo Lee KR; Tae-ryong Kim KR, Thermoelectric-cooling temperature control apparatus for semiconductor device fabrication facility.
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