CN104848410A - Intelligent control device used for building heat supply - Google Patents
Intelligent control device used for building heat supply Download PDFInfo
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- CN104848410A CN104848410A CN201410667016.8A CN201410667016A CN104848410A CN 104848410 A CN104848410 A CN 104848410A CN 201410667016 A CN201410667016 A CN 201410667016A CN 104848410 A CN104848410 A CN 104848410A
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- heat supply
- temperature sensor
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- building
- control device
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Abstract
The invention discloses an intelligent control device used for building heat supply. The intelligent control device comprises a control box, an indoor temperature sensor, an outdoor temperature sensor, a flow regulating valve, an ultrasonic flowmeter and a heat energy integrating instrument. The control box is internally provided with a controller, a displayer, a GPRS transmit-receive module and a time module. The displayer, the GPRS transmit-receive module and the time module are respectively connected with the controller. The indoor temperature sensor is installed in a construction building which is respectively connected with a heat supply water inlet pipe and a heat supply back water pipe. An inlet water pressure sensor and an inlet water temperature sensor are installed on the heat supply water supply pipe. A filter, a back water temperature sensor, the ultrasonic flowmeter, the flow regulating valve and a back water pressure sensor are installed on the heat supply back water pipe. The beneficial effects of the intelligent control device are that the intelligent control device has advantages of being great in timeliness, complete in function and high in intellectualization. Besides, the intelligent control device is energy-saving, reliable, great in use effect, low in cost and convenient for popularization and application.
Description
Technical field
The present invention relates to heat supply process field, specifically a kind of intelligent controlling device for a building heat supply.
Background technology
A building heat supply is relevant with the time, and as daytime and the evening of residential building, day temperature height can stop heating energy-saving, and for example office building, office building, teaching building etc., is on duty, needs heat supply when having learnt people, but under enter, festivals or holidays or evening, nobody was then without the need to heat supply.At present, a lot of building heat supply people evening on daytime, having that people is unmanned, working is come off duty or festivals or holidays are all heat according to unified set model, obviously there is very large irrationality and thermal waste phenomenon in this; Certainly, the heat supply of some building is in order to energy-conservation, and without the need to manual-lock heat supply valve artificial during heat supply, although this can play certain energy-saving effect, manual adjustments bothers and wastes time and energy, but also has very large relation with the sense of responsibility of operating personnel.
Summary of the invention
The object of the present invention is to provide and a kind ofly can conveniently realize automatic regulating and control and the good intelligent controlling device for a building heat supply of result of use.
The technical solution adopted for the present invention to solve the technical problems is: a kind of intelligent controlling device for a building heat supply comprises controller is housed, display, the control cabinet of GPRS transceiver module and time module, be contained in the indoor temperature transmitter in building building, be contained in outdoor outdoor temperature sensor, be contained in the intake pressure sensor on heat supply water inlet pipe and inflow temperature sensor, and the pressure of return water sensor be contained on heat supply return pipe, flow control valve, ultrasonic flowmeter and return water temperature sensor, and building building is connected with heat supply water inlet pipe and heat supply return pipe respectively, and heat supply return pipe is equipped with filter, and heat supply return pipe is equiped with return water temperature sensor successively along water (flow) direction after the filters, ultrasonic flowmeter, flow control valve and pressure of return water sensor, described intake pressure sensor, inflow temperature sensor, pressure of return water sensor, flow control valve, return water temperature sensor, indoor temperature transmitter and outdoor temperature sensor are connected with described control cabinet wiring respectively, and the display in control cabinet, GPRS transceiver module is connected with controller respectively with time module, described ultrasonic flowmeter, return water temperature sensor and inflow temperature sensor are also connected with the heat energy integrating instrument wiring arranged respectively, described heat energy integrating instrument for measure by build building the heat of confession, heat energy integrating instrument is also connected with control cabinet.Described display is mainly used in the coherent signal of display controller, and described GPRS transceiver module is used for real-time transmission and the reception of wireless signal, and described time module is used for controller timing and the time sets.
Operation principle of the present invention is, controller in control cabinet detects heat supply water inlet pipe pressure and heat supply return pipe pressure respectively by intake pressure sensor and pressure of return water sensor, controller also detects outdoor environment temperature and indoor environment temperature respectively by outdoor temperature sensor and indoor temperature transmitter, then the flow control valve opening amount signal not only adapting to outdoor environment temperature change but also ensure least favorable indoor environment temperature is provided, the working time that the operation module also preset according to time module with Time Controller is corresponding, shut-in time provides start signal and the shutdown signal of flow control valve, flow control valve is again according to the opening amount signal that controller provides, start signal and shutdown signal are regulated or are closed heat supply return pipe flow, realize the present invention comfortable, energy-conservation Automatic adjusument effect, and controller also will provide the antifreeze opening amount signal of flow control valve relative to return water temperature sensor according to during the antifreeze low-temperature values of systemic presupposition within the time period that flow control valve cuts out, described return water temperature sensor detects heat supply return pipe temperature, when the antifreeze low-temperature values of heat supply return pipe temperature lower than systemic presupposition being detected, controller is opened by flow control valve according to the antifreeze opening amount signal provided, heat supply water inlet pipe and heat supply return pipe are formed circulate, heat supply return pipe temperature raises, when detecting that heat supply return pipe temperature opens valve temperature value higher than systemic presupposition antifreeze, flow control valve cuts out, adjustment like this, realize the present invention without the need to automatically completing low temperature antifreeze function in the shut-in time section of normal heat supply, meanwhile, the heat supply return pipe flow signal that heat energy integrating instrument is detected by ultrasonic flowmeter, the heat supply return pipe temperature signal that the heat supply water inlet pipe temperature signal that inflow temperature sensor detects and return water temperature sensor detect calculates the heat in this building building, and the heat signal calculated is sent to controller, controller passes through the pressure signal that GPRS transceiver module will be correlated with again, temperature signal, flow signal, heat signal, time signal, the various types of signal of Flow-rate adjustment valve opening and keying signal etc. is packed in real time, and send to corresponding centralized control center to realize remote wireless monitoring and management.
The invention has the beneficial effects as follows, the present invention has ageing good, the multiple functional and intelligent advantage such as by force, and energy-conservation, reliable, and result of use is good, and cost is low, easy to utilize.
Accompanying drawing explanation
Accompanying drawing 1 is structural representation of the present invention.
In figure, 1, heat supply water inlet pipe, 2, intake pressure sensor, 3, inflow temperature sensor, 4, heat supply return pipe, 5, pressure of return water sensor, 6, flow control valve, 7, heat energy integrating instrument, 8, ultrasonic flowmeter, 9, return water temperature sensor, 10, filter, 11, building building, 12, indoor temperature transmitter, 13, outdoor temperature sensor, 14, control cabinet, 15, display, 16, controller, 17, GPRS transceiver module, 18, time module.
Detailed description of the invention
With regard to accompanying drawing 1, a kind of intelligent controlling device for a building heat supply of the present invention is described in detail below below.
As shown in Figure 1, a kind of intelligent controlling device for a building heat supply of the present invention comprises controller 16 is housed, display 15, the control cabinet 14 of GPRS transceiver module 17 and time module 18, be contained in the indoor temperature transmitter 12 in building building 11, be contained in outdoor outdoor temperature sensor 13, be contained in the intake pressure sensor 2 on heat supply water inlet pipe 1 and inflow temperature sensor 3, and the pressure of return water sensor 5 be contained on heat supply return pipe 4, flow control valve 6, ultrasonic flowmeter 8 and return water temperature sensor 9, and building building 11 is connected with heat supply water inlet pipe 1 and heat supply return pipe 4 respectively, heat supply return pipe 4 is equipped with filter 10, and heat supply return pipe 4 is equiped with return water temperature sensor 9 successively along water (flow) direction after filter 10, ultrasonic flowmeter 8, flow control valve 6 and pressure of return water sensor 5, described intake pressure sensor 2, inflow temperature sensor 3, pressure of return water sensor 5, flow control valve 6, return water temperature sensor 9, indoor temperature transmitter 12 and outdoor temperature sensor 13 are connected with described control cabinet 14 wiring respectively, and the display 15 in control cabinet 14, GPRS transceiver module 17 is connected with controller 16 respectively with time module 18, described ultrasonic flowmeter 8, return water temperature sensor 9 and inflow temperature sensor 3 are also connected with heat energy integrating instrument 7 wiring arranged respectively, and described heat energy integrating instrument 7 is for measuring the heat for building building 11 confessions, and heat energy integrating instrument 7 is also connected with control cabinet 14.Described display 15 is mainly used in the coherent signal of display controller 16, and described GPRS transceiver module 17 is for the real-time transmission of wireless signal and reception, and described time module 18 sets for controller timing and time.
Operation principle of the present invention is, controller 16 in control cabinet 14 detects heat supply water inlet pipe 1 pressure and heat supply return pipe 4 pressure respectively by intake pressure sensor 2 and pressure of return water sensor 5, controller 16 also detects outdoor environment temperature and indoor environment temperature respectively by outdoor temperature sensor 13 and indoor temperature transmitter 12, then flow control valve 6 opening amount signal not only adapting to outdoor environment temperature change but also ensure least favorable indoor environment temperature is provided, with Time Controller 16 also according to the working time that the operation module that time module 18 is default is corresponding, shut-in time provides start signal and the shutdown signal of flow control valve 6, flow control valve 6 is again according to the opening amount signal that controller 16 provides, start signal and shutdown signal are regulated or are closed heat supply return pipe 4 flow, realize the present invention comfortable, energy-conservation Automatic adjusument effect, and controller 16 also will provide the antifreeze opening amount signal of flow control valve 6 relative to during the antifreeze low-temperature values of return water temperature sensor 9 according to systemic presupposition within the time period that flow control valve 6 cuts out, described return water temperature sensor 9 detects heat supply return pipe 4 temperature, when the antifreeze low-temperature values of heat supply return pipe 4 temperature lower than systemic presupposition being detected, controller 16 is opened by flow control valve 6 according to the antifreeze opening amount signal provided, heat supply water inlet pipe 1 and heat supply return pipe 4 are formed circulate, heat supply return pipe 4 temperature raises, when detecting that heat supply return pipe 4 temperature opens valve temperature value higher than systemic presupposition antifreeze, flow control valve 6 cuts out, adjustment like this, realize the present invention without the need to automatically completing low temperature antifreeze function in the shut-in time section of normal heat supply, meanwhile, heat supply return pipe 4 flow signal that heat energy integrating instrument 7 is detected by ultrasonic flowmeter 8, heat supply return pipe 4 temperature signal that heat supply water inlet pipe 1 temperature signal that inflow temperature sensor 3 detects and return water temperature sensor 9 detect calculates the heat in this building building 11, and the heat signal calculated is sent to controller 16, controller 16 passes through the pressure signal that GPRS transceiver module 17 will be correlated with again, temperature signal, flow signal, heat signal, time signal, the various types of signal of flow control valve 6 aperture and keying signal etc. is packed in real time, and send to corresponding centralized control center to realize remote wireless monitoring and management.
Claims (1)
1. one kind comprises control cabinet for the intelligent controlling device of a building heat supply, indoor temperature transmitter, outdoor temperature sensor, intake pressure sensor, inflow temperature sensor, and the pressure of return water sensor be contained on heat supply return pipe, flow control valve, ultrasonic flowmeter and return water temperature sensor, it is characterized in that, control cabinet is built with controller, display, GPRS transceiver module and time module, and display, GPRS transceiver module is connected with controller respectively with time module, indoor temperature transmitter is contained in building building, building building is connected with heat supply water inlet pipe and heat supply return pipe respectively, for on hot water supplying pipe, intake pressure sensor and inflow temperature sensor are being housed, heat supply return pipe is equipped with filter, and heat supply return pipe is equiped with return water temperature sensor successively along water (flow) direction after the filters, ultrasonic flowmeter, flow control valve and pressure of return water sensor, described intake pressure sensor, inflow temperature sensor, pressure of return water sensor, flow control valve, return water temperature sensor, indoor temperature transmitter and outdoor temperature sensor are connected with control cabinet wiring respectively, described ultrasonic flowmeter, return water temperature sensor and inflow temperature sensor are also connected with the wiring of heat energy integrating instrument respectively, and heat energy integrating instrument is also connected with control cabinet.
Priority Applications (1)
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CN201410667016.8A CN104848410A (en) | 2014-11-20 | 2014-11-20 | Intelligent control device used for building heat supply |
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CN201410667016.8A CN104848410A (en) | 2014-11-20 | 2014-11-20 | Intelligent control device used for building heat supply |
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CN104848410A true CN104848410A (en) | 2015-08-19 |
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CN201410667016.8A Pending CN104848410A (en) | 2014-11-20 | 2014-11-20 | Intelligent control device used for building heat supply |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105464538A (en) * | 2015-12-10 | 2016-04-06 | 湖北雄华科技有限公司 | Glass window with underground water circulating in hollow cavity |
CN106016445A (en) * | 2016-05-24 | 2016-10-12 | 河北惠沧节能科技有限公司 | Automatic adjusting system for central heating circular water heat energy supply amount |
-
2014
- 2014-11-20 CN CN201410667016.8A patent/CN104848410A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105464538A (en) * | 2015-12-10 | 2016-04-06 | 湖北雄华科技有限公司 | Glass window with underground water circulating in hollow cavity |
CN106016445A (en) * | 2016-05-24 | 2016-10-12 | 河北惠沧节能科技有限公司 | Automatic adjusting system for central heating circular water heat energy supply amount |
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Application publication date: 20150819 |
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