CN204787342U - Solar energy collection automated control system - Google Patents

Abstract

The utility model discloses a solar energy collection automated control system, including solar panel (1), electric heater (2), hot -water tank (3), first to the 3rd temperature sensor, first circulating pump to third circulating pump, data collection station (4), central controller (5) and display (7), wherein a temperature sensor (T1), the 2nd temperature sensor (T2), the 3rd temperature sensor (T3) link to each other with data collection station (4) respectively, data collection station (4), first circulating pump (D1), second circulating pump (D2), third circulating pump (D3) link to each other with central controller (5) respectively, central controller (5) link to each other with display (7). The utility model discloses possess efficient data processing and analysis ability, possible real -time detection and demonstration, ystem installation is simple, dismouting is is simultaneously overhauld, can be fine be used for family's water heater, also can use in thermal -arrest engineering field.

Description

A kind of solar energy heating automation control system

Technical field

The utility model relates to a kind of solar energy heating automation control system, belongs to the technical field of solar energy heat collection engineering system.

Background technology

Along with the continuous rising of traditional energy cost and the continuous worsening of environment, solar heating engineering solution is applied to the various fields such as residential building, villa, hotel, Scenic Spots, scientific and technological park, hospital, school, industrial working, agricultural planting culture zone more and more, appropriate design and configuration is carried out for different field hot water service condition, reach the comprehensive utilization of the energy, reduce costs input.

Solar heating engineering client concentrates on collective or unit mostly, and hot water occupation mode is concentrated water, and water consumption is larger.Solar energy is non-pollution renewable energy, and solar engineering prospect is very considerable, and rate of return on investment is higher, and equipment depreciation rate is lower,.Along with the raising of people's environmental protection consciousness and the accreditation to solar energy use, solar engineering progressively develops.

Traditional solar energy heating automation control system is generally the heat drawing the sun, water in water back, water after heating by Pipeline transport by circulating pump, can be boiler, heat pump etc. by the design of overall energy resource system and provides basic hot water, is used to each focus by Pipeline transport.

However, existing system still existing defects.As systemic-function is simple, is applicable to family's installing engineering, the monitoring for heat collecting engineering can not be met, can not indices in real-time monitoring system, the fault existed in not easily discovery system.

Summary of the invention

Technical problem to be solved in the utility model is to overcome the deficiencies in the prior art, a kind of solar energy heating automation control system is provided, solve that systemic-function in prior art is single, thermal-arrest process can not the problem of real-time monitoring data, realizes the efficient control of automation thus.

The utility model specifically solves the problems of the technologies described above by the following technical solutions:

A kind of solar energy heating automation control system, comprise solar heat-collection plate, electric heater, boiler, for detecting the first temperature sensor of solar energy heating plate temperature, for detecting the second temperature sensor of electric heater temperature, for detecting the three-temperature sensor of boiler temperature, first circulating pump, second circulating pump, 3rd circulating pump, data acquisition unit, central controller and display, wherein the first end of electric heater is connected by pipeline one end with the first circulating pump, the other end of this first circulating pump is connected with one end of solar heat-collection plate by pipeline, the other end of described solar heat-collection plate is connected with the second end of electric heater by pipeline, 3rd end of described electric heater is connected by pipeline one end with the second circulating pump, and the other end of this second circulating pump is connected with one end of boiler, the other end of described boiler is connected with the 4th end of electric heater, one end of described boiler also connects one end of the 3rd circulating pump by pipeline, the other end of the 3rd circulating pump is connected with the other end of boiler by pipeline, described first temperature sensor, the second temperature sensor, three-temperature sensor are connected with data acquisition unit respectively, described data acquisition unit, the first circulating pump, the second circulating pump, the 3rd circulating pump are connected with central controller respectively, described central controller is connected with display.

Further, as a kind of optimal technical scheme of the present utility model: also comprise the level measuring mechanism detected for high water tank, described level measuring mechanism is connected with data acquisition unit.

Further, as a kind of optimal technical scheme of the present utility model: described level measuring mechanism comprises liquid level sensor.

Further, as a kind of optimal technical scheme of the present utility model: also comprise magnetic valve, described magnetic valve is arranged on the pipeline between the 3rd end of electric heater and the second circulating pump, and magnetic valve is connected with central controller.

Further, as a kind of optimal technical scheme of the present utility model: described central controller adopts AT89C51 type microprocessor.

The utility model adopts technique scheme, can produce following technique effect:

(1), a kind of solar energy heating automation control system of providing of the utility model, display and data acquisition equipment two modules are controlled by adopting, to the data acquisition in system more accurately with sensitive, and possess efficient Data Management Analysis ability, can accomplish to detect in real time and display.Solve that systemic-function in prior art is single, thermal-arrest process can not the problem of real-time monitoring data, realizes the efficient control of automation thus.Further, system is installed simple, and the maintenance of dismounting simultaneously, can well be used for domestic hot water's device, also can be applied in heat collecting engineering field.

(2), system can also detect cistern water level in real time, and the duty of each parts of conservative control thus, accomplishes thermal-arrest process that is high-effect, low energy consumption.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of solar energy heating automation control system of the utility model.

Wherein Symbol explanation: 1-solar heat-collection plate, 2-electric heater, 3-boiler, 4-data acquisition unit, 5-central controller, 6-level measuring mechanism, 7-display.

Detailed description of the invention

Below in conjunction with Figure of description, embodiment of the present utility model is described.

As shown in Figure 1, the utility model devises a kind of solar energy heating automation control system, comprise solar heat-collection plate 1, electric heater 2, boiler 3, for detecting the first temperature sensor T1 of solar heat-collection plate 1 temperature, for detecting the second temperature sensor T2 of electric heater 2 temperature, for detecting the three-temperature sensor T3 of boiler 3 temperature, first circulating pump D1, second circulating pump D2, 3rd circulating pump D3, data acquisition unit 4, central controller 5 and display 7, wherein the first end of electric heater 2 is connected by pipeline one end with the first circulating pump D1, the other end of this first circulating pump D1 is connected by pipeline one end with solar heat-collection plate 1, the other end of described solar heat-collection plate 1 is connected with the second end of electric heater 2 by pipeline, 3rd end of described electric heater 2 is connected by pipeline one end with the second circulating pump D2, and the other end of this second circulating pump D2 is connected with one end of boiler 3, the other end of described boiler 3 is connected with the 4th end of electric heater 2, one end of described boiler 3 also connects one end of the 3rd circulating pump D3 by pipeline, the other end of the 3rd circulating pump D3 is connected by the other end of pipeline with boiler 3, described first temperature sensor T1, the second temperature sensor T2, three-temperature sensor T3 are connected with data acquisition unit 4 respectively, described data acquisition unit 4, first circulating pump D1, the second circulating pump D2, the 3rd circulating pump D3 are connected with central controller 5 respectively, described central controller 5 is connected with display 7.

The operation principle of this system is: first, by solar heat-collection plate 1, the radiant energy of the sun is converted to heat energy, and this heat energy is for heating the water from the first circulating pump D1 flow ipe, and the water then after heating again flows into electric heater 2 and again heats; Controlled the duty of electric heater 2 by central controller 5, again heat after water enters electric heater 2; Subsequently, water after heating is transported in boiler 3 by the second circulating pump D2 and carries out storing and carrying by electric heater 2, boiler 3 controls its duty by central controller 5 equally, after having water to enter, control boiler 3 carry out constant temperature, boiler 3 can also utilize the 3rd circulating pump D3 the water extraction supply user after heating to be used in conjunction with hot water simultaneously.In the process, the first temperature sensor T1, the second temperature sensor T2, three-temperature sensor T3 detect the temperature of solar heat-collection plate 1, electric heater 2, boiler 3 respectively, gather rear input central controller 5 by data acquisition unit 4 pairs of signals; Central controller 5 pairs of data are carried out process and are shown every temperature in real time.

Further, system also comprises the level measuring mechanism 6 detected for high water tank, and level measuring mechanism 6 arranges and can be arranged at water tank inside or outside, and described level measuring mechanism 6 is connected with data acquisition unit 4.The duty of each parts of conservative control thus, accomplishes thermal-arrest process that is high-effect, low energy consumption.

In the present embodiment, level measuring mechanism 6 can adopt liquid level sensor, and it can select the element manufactures such as electrode tongue tube or ball float.Utilize the liquid level of liquid level sensor to boiler 3 to measure accurately, improve the sensitivity and precision that detect, the entirety being convenient to system controls.

In the thermal-arrest process of system, system can also comprise magnetic valve SV1, and described magnetic valve SV1 is arranged on the pipeline between the 3rd end of electric heater 2 and the second circulating pump D2, and magnetic valve SV1 is connected with central controller 5.Utilize magnetic valve to control the flowing of the hot water in the pipeline between the 3rd end of electric heater 2 and the second circulating pump D2, improve automatic control function further.

And, central controller 5 described in system, AT89C51 type microprocessor can be adopted, it is a kind of low-voltage, high-performance CMOS 8-bit microprocessor with 4K byte FLASH memory, embedded control system can be possessed, possess high-performance and low cost, AT89C51 can be down to the static logic operation of 0Hz, and supports the power saving operation pattern of two kinds of software-selectable.Make it can better in native system.

In implementation process, the interface of display 7 can be set as required, if any 8 buttons, be return key, ON/OFF key, start key, OK button, adjusting key etc. respectively, user operation can be supplied to more easily thus.Can the function such as water, timing water-feeding and timing heated on manual adjustments water tank by the button on display.

To sum up, a kind of solar energy heating automation control system that the utility model provides, controls display and data acquisition equipment two modules by adopting, to the data acquisition in system more accurately with sensitive, and possess efficient Data Management Analysis ability, can accomplish to detect in real time and display.Solve that systemic-function in prior art is single, thermal-arrest process can not the problem of real-time monitoring data, realizes the efficient control of automation thus.Further, system is installed simple, and the maintenance of dismounting simultaneously, can well be used for domestic hot water's device, also can be applied in heat collecting engineering field.

By reference to the accompanying drawings embodiment of the present utility model is explained in detail above, but the utility model is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, can also make a variety of changes under the prerequisite not departing from the utility model aim.

Claims (5)

1. a solar energy heating automation control system, it is characterized in that: comprise solar heat-collection plate (1), electric heater (2), boiler (3), for detecting first temperature sensor (T1) of solar heat-collection plate (1) temperature, for detecting second temperature sensor (T2) of electric heater (2) temperature, for detecting the three-temperature sensor (T3) of boiler (3) temperature, first circulating pump (D1), second circulating pump (D2), 3rd circulating pump (D3), data acquisition unit (4), central controller (5) and display (7), wherein the first end of electric heater (2) is connected by pipeline one end with the first circulating pump (D1), the other end of this first circulating pump (D1) is connected by pipeline one end with solar heat-collection plate (1), the other end of described solar heat-collection plate (1) is connected by second end of pipeline with electric heater (2), 3rd end of described electric heater (2) is connected by pipeline one end with the second circulating pump (D2), and the other end of this second circulating pump (D2) is connected with one end of boiler (3), the other end of described boiler (3) is connected with the 4th end of electric heater (2), one end of described boiler (3) also connects one end of the 3rd circulating pump (D3) by pipeline, the other end of the 3rd circulating pump (D3) is connected by the other end of pipeline with boiler (3), described first temperature sensor (T1), the second temperature sensor (T2), three-temperature sensor (T3) are connected with data acquisition unit (4) respectively, described data acquisition unit (4), the first circulating pump (D1), the second circulating pump (D2), the 3rd circulating pump (D3) are connected with central controller (5) respectively, described central controller (5) is connected with display (7).

2. solar energy heating automation control system according to claim 1, is characterized in that: also comprise the level measuring mechanism (6) detected for high water tank, described level measuring mechanism (6) is connected with data acquisition unit (4).

3. solar energy heating automation control system according to claim 2, is characterized in that: described level measuring mechanism (6) comprises liquid level sensor.

4. solar energy heating automation control system according to claim 1, it is characterized in that: also comprise magnetic valve (SV1), described magnetic valve (SV1) is arranged on the pipeline between the 3rd end of electric heater (2) and the second circulating pump (D2), and magnetic valve (SV1) is connected with central controller (5).

5. solar energy heating automation control system according to claim 1, is characterized in that: described central controller (5) adopts AT89C51 type microprocessor.