CN217653949U - Intelligent heat collection control system - Google Patents

Abstract

The application relates to an intelligent heat collection control system, which relates to the field of heat collection systems and comprises a water collecting tank and a heat collection plate, wherein the water collecting tank is used for storing energy in hot water; a water supply pipe communicated with the water collecting tank is arranged at a water inlet of the heat collecting plate, and a water return pipe communicated with the water collecting tank is arranged at a water outlet of the heat collecting plate; the water supply pipe is provided with a water pump for introducing water in the water collecting tank into the heat collecting plate and an exhaust valve for exhausting air and bubbles in the water; the exhaust valve is arranged at the highest position of the water supply pipe. This application has the air that can discharge the aquatic smoothly with the bubble to in just can effectively reducing air and bubble and getting into the thermal-arrest board, reduced the corrosion rate of thermal-arrest board, prolonged the life of thermal-arrest board, played the effect of the protection effect of preferred to the thermal-arrest board.

Description

Intelligent heat collection control system

Technical Field

The application relates to the field of heat collection systems, in particular to an intelligent heat collection control system.

Background

The centralized heating is a mode of supplying heat to the production and heating of a large area through a heat supply network by using hot water or steam generated by a centralized heat source as a heat medium. The centralized heat supply has the advantages of large heat load, large heat source scale, high heat efficiency, fuel and labor saving, small occupied area and the like.

The heat collection control system comprises a water collection tank for storing energy of hot water and a heat collection plate for heating water, wherein water pipes communicated with the water collection tank are arranged at a water inlet and a water outlet of the heat collection plate, a water pump is connected to the water pipes at the water inlet of the heat collection plate, the water pump is used for pumping water in the water collection tank into the heat collection plate during working, and finally the water heated by the heat collection plate flows back into the water collection tank again, so that the cyclic heating of the water is realized.

In view of the above heat collection control system, the applicant finds that when a water pump pumps water into a heat collection plate, external air or bubbles generated in the water are pumped into the heat collection plate together, and the heat collection plate is usually made of a metal material, the pumped air and bubbles will generate cavitation with the heat collection plate, so that the protective film on the inner wall of the heat collection plate can be gradually damaged, the corrosion speed of the heat collection plate is increased, and the service life of the heat collection plate is shortened.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that air and bubble of pump income will take place the cavitation with the heat collection plate, slow down the corrosion rate of heat collection plate, this application provides an intelligence thermal-arrest control system.

The application provides an intelligence thermal-arrest control system adopts following technical scheme:

an intelligent heat collection control system comprises a water collecting tank and a heat collecting plate, wherein the water collecting tank is used for storing energy for hot water, and the heat collecting plate is used for heating the water; a water supply pipe communicated with the water collecting tank is arranged at a water inlet of the heat collecting plate, and a water return pipe communicated with the water collecting tank is arranged at a water outlet of the heat collecting plate; the water supply pipe is provided with a water pump for introducing water in the water collecting tank into the heat collecting plate and an exhaust valve for exhausting air and bubbles in the water; the exhaust valve is arranged at the highest position of the water supply pipe.

Through adopting above-mentioned technical scheme, when the water pump passes through the delivery pipe and leads to water from the water inlet of thermal-arrest board, the air of aquatic and bubble will climb up the final highest point of gathering at the delivery pipe along the delivery pipe, air and bubble will enter into exhaust valve afterwards, can discharge the air and the bubble of aquatic smoothly through exhaust valve to just can effectively reduce in air and the bubble gets into the thermal-arrest board, the corrosion rate of thermal-arrest board has been reduced, the life of thermal-arrest board has been prolonged, the better protection effect has been played to the thermal-arrest board.

Optionally, a check valve is further disposed on the water supply pipe, and the check valve is used for limiting water in the water supply pipe from flowing back to the water collection tank.

By adopting the technical scheme, when the water pump leads water from the water inlet of the heat collecting plate through the water supply pipe, the check valve can not obstruct the water flow; when the water pump stops, the condition that water in the water supply pipe flows back to the water collecting tank can be effectively limited under the action of the check valve.

Optionally, the water temperature sensor is arranged in the water collecting tank and is in signal connection with the intelligent control cabinet, the water temperature sensor is used for transmitting the detected water temperature back to the intelligent control cabinet in real time, and the intelligent control cabinet can display the received water temperature in real time.

Through adopting above-mentioned technical scheme, temperature sensor can realize carrying out real time monitoring to the temperature in the water catch bowl to come specific temperature value to show through the intelligent control cabinet, thereby can make things convenient for the temperature of staff in the more audio-visual understanding water catch bowl.

Optionally, the intelligent control cabinet further comprises an outdoor temperature sensor for detecting the outdoor temperature, the outdoor temperature sensor is in signal connection with the intelligent control cabinet, the outdoor temperature sensor is used for transmitting the detected outdoor temperature back to the intelligent control cabinet in real time, and the intelligent control cabinet can display the received outdoor temperature in real time.

By adopting the technical scheme, the outdoor temperature sensor can monitor the outdoor temperature in real time, and the detected outdoor temperature is displayed in real time through the intelligent control cabinet, so that a worker can know the outdoor temperature condition more intuitively; the working personnel can also judge whether the heat collecting plate is suitable for working at present according to the acquired outdoor temperature.

Optionally, the intelligent control cabinet includes a first control module, the first control module is configured to receive an outdoor temperature value returned by the outdoor temperature sensor, a first temperature threshold is provided in the first control module, and when the received outdoor temperature value is lower than the first temperature threshold, the first control module sends a first control signal to control the water collecting tank to release heat.

Through adopting above-mentioned technical scheme, when the outdoor temperature value that receives is less than first temperature threshold value, this just means to carry out heat supply work, and first control module will send first control signal this moment and carry out thermal release in order to control the water catch bowl to realized thermal automatic transport, need not artificial intervention, more intelligence.

Optionally, a second temperature threshold is arranged in the first control module, the second temperature threshold is greater than the first temperature threshold, and when the received outdoor temperature value reaches the second temperature threshold, the first control module sends a second control signal to control the water collection tank to stop releasing heat.

By adopting the technical scheme, when the received outdoor temperature value reaches the second temperature threshold value, the fact that heat supply work is not needed is indicated, at the moment, the first control module sends the second control signal to control the water collecting tank to stop releasing heat, and therefore automatic cutting-off of heat energy is achieved.

Optionally, the intelligent control cabinet further includes a second control module, and the second control module is configured to receive the water temperature value returned by the water temperature sensor and the outdoor temperature value returned by the outdoor temperature sensor at the same time; a water temperature preset value and a second temperature threshold value are arranged in the second control module, and the second control module is in signal connection with the water pump; when the water temperature value received by the second control module is lower than the water temperature preset value and the received outdoor temperature value is higher than a second temperature threshold value, the second control module controls the water pump to start.

By adopting the technical scheme, when the water temperature in the water collecting tank is lower than the water temperature preset value, the water in the water collecting tank needs to be heated to ensure energy storage, at the moment, if the outdoor temperature value received by the second control module is higher than the second temperature threshold value, the condition that the heat collecting plate installed outdoors meets the heating condition is indicated, and the second control module automatically controls the water pump to be started to realize the heating work of the water.

Optionally, when the water temperature value received by the second control module reaches the preset water temperature value, the second control module controls the water pump to stop.

By adopting the technical scheme, when the water temperature value reaches the water temperature preset value, the second control module stops the automatic control water pump from working, manual intervention is not needed, and full-automatic control and more intelligence of the whole heating work are realized.

In summary, the present application includes at least one of the following beneficial technical effects:

1. air and bubbles in water can be smoothly discharged through the exhaust valve, so that the air and the bubbles entering the heat collecting plate can be effectively reduced, the corrosion speed of the heat collecting plate is reduced, the service life of the heat collecting plate is prolonged, and a better protection effect is achieved on the heat collecting plate;

2. the heat energy can be automatically controlled to be released and cut off, meanwhile, the heat energy in the water collecting tank can be automatically heated and automatically stopped, the whole heating work realizes full-automatic control, manual intervention is not needed, and the intelligent heating device is more intelligent.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Description of the reference numerals: 1. a water collection tank; 11. a water temperature sensor; 2. a heat collecting plate; 3. a water supply pipe; 31. a water pump; 4. a water return pipe; 5. an exhaust valve; 6. a check valve; 7. an intelligent control cabinet; 71. a first control module; 72. a second control module; 8. an outdoor temperature sensor.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses an intelligent heat collection control system. Referring to fig. 1, the intelligent heat collection control system includes a water collection tank 1 for storing energy of hot water, and a heat collection plate 2 for heating water energy, wherein the heat collection plate 2 is installed in an outdoor environment capable of receiving sunlight. One end of the heat collecting plate 2 is provided with a water inlet, the other end of the heat collecting plate 2 is provided with a water outlet, the water inlet of the heat collecting plate 2 is provided with a water supply pipe 3 communicated with the water collecting tank 1, and the water outlet of the heat collecting plate 2 is provided with a water return pipe 4 communicated with the water collecting tank 1.

As shown in fig. 1, a water pump 31 for pumping water in the water collecting tank 1 from the water inlet of the heat collecting plate 2 is installed on the water supply pipe 3, an air discharge valve 5 for discharging air and bubbles in the water is also installed on the water supply pipe 3, and the air discharge valve 5 is installed at the highest position of the water supply pipe 3. When the water pump 31 passes through the water supply pipe 3 to introduce water from the water inlet of the heat collecting plate 2, the air and the bubbles in the water will climb up along the water supply pipe 3 and finally gather at the highest position of the water supply pipe 3, and then the air and the bubbles will enter the exhaust valve 5, and at this time, the air and the bubbles in the water can be smoothly discharged through the exhaust valve 5, so that the air and the bubbles can be effectively reduced to enter the heat collecting plate 2, thereby greatly reducing the corrosion speed of the heat collecting plate 2, prolonging the service life of the heat collecting plate 2, and achieving a better protection effect on the heat collecting plate 2.

As shown in fig. 1, the water supply pipe 3 is further provided with a check valve 6 between the water pump 31 and the exhaust valve 5, and the check valve 6 restricts the water in the water supply pipe 3 from flowing back into the water collection tank 1.

As shown in fig. 1, the intelligent control cabinet 7 further includes an intelligent control cabinet 7, and the intelligent control cabinet 7 includes a first control module 71 and a second control module 72. The first control module 71 and the second control module 72 may include a central processing unit such as a CPU or MPU, or a host system constructed by taking the CPU or MPU as a core, and include hardware or software, so that people can freely control the first control module 71 and the second control module 72 by using programming to operate according to the wishes of people. The intelligent control cabinet 7 further comprises a display screen for displaying data.

As shown in figure 1, a water temperature sensor 11 for detecting water temperature is installed in the water collecting tank 1, the water temperature sensor 11 is in signal connection with the display screen, the water temperature sensor 11 is used for transmitting the detected water temperature back to the display screen in real time, and finally the detected water temperature data are displayed in real time through the display screen. The outdoor temperature sensor 8 is also used for detecting the outdoor temperature, the outdoor temperature sensor 8 is also in signal connection with the display screen, and the outdoor temperature sensor 8 is used for transmitting the detected outdoor temperature back to the display screen in real time and displaying the received outdoor temperature in real time through the display screen.

As shown in fig. 1, an input end of the first control module 71 is configured to receive an outdoor temperature value returned by the outdoor temperature sensor 8, and a first temperature threshold preset manually is provided in the first control module 71, and the first temperature threshold can be adjusted manually according to actual requirements. When the outdoor temperature value received by the first control module 71 is lower than the first temperature threshold value, the output end of the first control module 71 sends a first control signal to control the switch of the water collecting tank 1 to release heat.

As shown in fig. 1, a second temperature threshold which is also preset manually is also set in the first control module 71, and the second temperature threshold can be adjusted manually according to actual requirements, and is greater than the first temperature threshold. When the outdoor temperature value received by the first control module 71 reaches the second temperature threshold value, the output end of the first control module 71 will send a second control signal to control the switch of the water collecting tank 1 to close the heat release.

As shown in fig. 1, the input end of the second control module 72 is used for receiving the water temperature value returned by the water temperature sensor 11 and the outdoor temperature value returned by the outdoor temperature sensor 8 at the same time. A water temperature preset value and a second temperature threshold value are arranged in the second control module 72, one output end of the second control module 72 is in signal communication with the water pump 4, and the water temperature preset value and the second temperature threshold value can be preset manually according to actual requirements. When the water temperature value received by the second control module 72 is lower than the preset water temperature value and the outdoor temperature value is higher than the second temperature threshold value, one of the output ends of the second control module 72 will send a third control signal to control the water pump 31 to start. When the water temperature value received by the second control module 72 reaches the preset water temperature value, the second control module 72 generates a fourth control signal to control the water pump 31 to stop working.

The implementation principle of the intelligent heat collection control system in the embodiment of the application is as follows: when the water pump 31 passes water through the water supply pipe 3 from the water inlet of the heat collecting plate 2, the air and the bubbles in the water will climb up along the water supply pipe 3 and finally gather at the highest position of the water supply pipe 3, and then the air and the bubbles will enter the exhaust valve 5, and the air and the bubbles in the water can be smoothly discharged through the exhaust valve 5, so that the air and the bubbles can be effectively reduced from entering the heat collecting plate 2, the corrosion speed of the heat collecting plate 2 is reduced, the service life of the heat collecting plate 2 is prolonged, and the heat collecting plate 2 is protected well.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An intelligent heat collection control system comprises a water collecting tank (1) for storing energy of hot water and a heat collection plate (2) for heating the water; a water supply pipe (3) communicated with the water collecting tank (1) is arranged at a water inlet of the heat collecting plate (2), and a water return pipe (4) communicated with the water collecting tank (1) is arranged at a water outlet of the heat collecting plate (2); the method is characterized in that: the water supply pipe (3) is provided with a water pump (31) for introducing water in the water collecting tank (1) into the heat collecting plate (2) and an exhaust valve (5) for exhausting air and bubbles in the water; the exhaust valve (5) is arranged at the highest position of the water supply pipe (3).

2. The intelligent heat collection control system as claimed in claim 1, wherein: the water supply pipe (3) is further provided with a check valve (6), and the check valve (6) is used for limiting water in the water supply pipe (3) to flow back to the water collecting tank (1).

3. The intelligent heat collection control system as claimed in claim 1, wherein: still including intelligent control cabinet (7), be provided with in water catch bowl (1) and be used for detecting temperature sensor (11) of temperature, temperature sensor (11) and intelligent control cabinet (7) pass through signal connection, temperature sensor (11) are used for passing back the real-time transmission of temperature that detects for intelligent control cabinet (7), intelligent control cabinet (7) can carry out real-time demonstration with the temperature of receiving.

4. An intelligent heat collection control system according to claim 3, wherein: still including outdoor temperature sensor (8) that are used for detecting outdoor temperature, outdoor temperature sensor (8) and intelligent control cabinet (7) are through signal connection, just outdoor temperature sensor (8) are used for giving intelligent control cabinet (7) with the real-time passback of outdoor temperature who detects, intelligent control cabinet (7) can show received outdoor temperature in real time.

5. The intelligent heat collection control system as claimed in claim 4, wherein: the intelligent control cabinet (7) comprises a first control module (71), the first control module (71) is used for receiving an outdoor temperature value returned by an outdoor temperature sensor (8), a first temperature threshold value is arranged in the first control module (71), and when the received outdoor temperature value is lower than the first temperature threshold value, the first control module (71) sends a first control signal to control the water collecting tank (1) to release heat.

6. The intelligent heat collection control system as claimed in claim 5, wherein: and a second temperature threshold value is arranged in the first control module (71), the second temperature threshold value is larger than the first temperature threshold value, and when the received outdoor temperature value reaches the second temperature threshold value, the first control module (71) sends a second control signal to control the water collection tank (1) to stop releasing heat.

7. The intelligent heat collection control system as claimed in claim 4, wherein: the intelligent control cabinet (7) further comprises a second control module (72), and the second control module (72) is used for receiving the water temperature value returned by the water temperature sensor (11) and the outdoor temperature value returned by the outdoor temperature sensor (8) at the same time; a water temperature preset value and a second temperature threshold value are arranged in the second control module (72), and the second control module (72) is in signal connection with the water pump (31); when the water temperature value received by the second control module (72) is lower than the preset water temperature value and the received outdoor temperature value is higher than a second temperature threshold value, the second control module (72) controls the water pump (31) to start.

8. An intelligent heat collection control system according to claim 7, wherein: when the water temperature value received by the second control module (72) reaches a preset water temperature value, the second control module (72) controls the water pump (31) to stop.

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