CN201662133U - Solar heating and hot water system - Google Patents

Abstract

The utility model relates to a solar heating and hot water system, which is characterized in that it comprises a heat collector, a water storage tank, a heat preservation water tank and a PLC control system, and the heat preservation water tank in the room is respectively connected with a heating facility and a bath faucet, and the heat preservation water tank There is an electric heating device inside, and the PLC control system is a PID adjustment control system. The power supply is connected to the PLC controller, liquid level sensor, and temperature sensor respectively. Valves and pumps are connected. The heating facilities include geothermal pipes or superconducting radiators. Compared with the prior art, the utility model has the following beneficial effects: 1. The hot water for bathing is taken from the thermal insulation water tank, and the distance is short, which will not cause waste of cold water; 2. The heating cost of urban users can be greatly reduced by using solar heat; 3. It has a wide range of applications, and can be installed in cities, villages, greenhouses, and hotels, and one-time investment will benefit for life.

Description

Solar heating and hot water system

technical field

The utility model relates to the field of solar energy utilization, in particular to a solar heating and hot water system.

Background technique

At present, solar water heaters have been widely used. The heat collectors are generally installed on the roof or on the sunny wall. There is also a water storage tank next to the heat collector. During the day, the solar energy is converted into heat by the heat collector and stored in the water storage tank. You can take a bath with hot water from the water storage tank. The problem of its existence is that the water storage tank generally needs more than 10 meters or even more than 30 meters from the user's room.

Generally, central heating is used for heating in cities. Coal-fired boilers cause a lot of dust pollution and consume a lot of coal resources. If solar energy can be effectively used, it will play a great role in environmental protection.

Contents of the invention

The purpose of the utility model is to provide a solar heating and hot water system, which centralizes the heating and bathing hot water in the family to be heated by solar energy, reduces the consumption of coal resources, protects the environment, and reduces dust pollution.

In order to achieve the above object, the utility model is realized through the following technical solutions:

The solar heating and hot water system is characterized in that it includes a heat collector, a water storage tank, an insulated water tank, and a PLC control system. The indoor insulated water tank is connected to the heating facility and the hot water faucet for bathing, and the insulated water tank is equipped with an electric heating device. , PLC control system is PID regulation control system.

The heating facilities include geothermal pipes or superconducting radiators.

Described PLC control system comprises PLC controller, liquid level sensor, temperature sensor, is characterized in that, power supply is connected with PLC controller, liquid level sensor, temperature sensor respectively, and PLC controller is also connected with liquid level sensor, temperature sensor respectively , electric heating device, solenoid valve and pump are connected.

Compared with the prior art, the utility model has the following beneficial effects: 1. The hot water for bathing is taken from the thermal insulation water tank, and the distance is short, which will not cause waste of cold water; 2. The heating cost of urban users can be greatly reduced by using solar heat; 3. It has a wide range of applications, and can be installed in cities, villages, greenhouses, and hotels, and one-time investment will benefit for life.

Description of drawings

Fig. 1 is a structural representation of the utility model;

Fig. 2 is a block diagram of the utility model PLC control system.

In the picture: 1-Heat collector tube 2-Water storage tank 3-Insulation water tank 4-Heating facility 5-Bath hot water faucet 6-Electric heating device

Detailed ways

The specific embodiment of the utility model will be further described below in conjunction with accompanying drawing:

See Fig. 1, solar energy heating hot water system, comprise heat collector 1, water storage tank 2, thermal insulation water tank 3, PLC control system, indoor thermal insulation water tank 3 is connected with heating facility 4 and bathing hot water faucet 5 respectively, and described thermal insulation water tank 3 is provided with an electric heating device 6, and the heating facility 4 can be a geothermal pipe or a superconducting radiator.

See Fig. 2, described PLC control system is a PID regulation control system, comprises PLC controller, liquid level sensor, temperature sensor, and power supply is connected with PLC controller, liquid level sensor, temperature sensor respectively, and PLC controller is also connected with respectively A liquid level sensor, a temperature sensor, an electric heating device, a solenoid valve and a pump are connected together.

The control process of the system is as follows:

The heat collecting pipe 1 is the same as the heat collecting pipe of the existing solar water heater. It absorbs solar energy and converts it into heat during the day, so that the temperature of the cold water in the heat collecting pipe 1 rises. When the set value such as 60°C is reached, the hot water goes down to the indoor heat preservation water tank 3, and the heat preservation water tank 3 forms a loop with the heating facility 4, and continuously circulates to provide heat for the room. The water storage tank 2 can ensure the rapid water supply of the heat collecting pipe 1. Practice has proved that the room temperature in the northern building can be guaranteed to be 16-22°C. The PLC control system of this system is PID Adjust the control system, through the temperature sensor, liquid level sensor signal in the system, switch the solenoid valve and pump to realize automatic control. In order to reduce the load of the system, the heating facility 4 is limited to geothermal pipes with low circulating water volume or super Radiator.

When the temperature in the thermal water tank 3 is lower than the set value or when it is cloudy, the PLC controller starts the electric heating device 6 to ensure that the temperature of the hot water reaches a constant temperature.

Claims (3)

1. The solar heating and hot water system is characterized in that it includes a heat collector, a water storage tank, an insulated water tank, and a PLC control system. The indoor insulated water tank is connected to the heating facility and the hot water tap for bathing respectively. Heating device, PLC control system is PID regulation control system. 2. The solar heating and hot water system according to claim 1, wherein the heating facilities include geothermal pipes or superconducting radiators. 3. The solar heating and hot water system according to claim 1, wherein the PLC control system includes a PLC controller, a liquid level sensor, and a temperature sensor, and the power supply is connected to the PLC controller, the liquid level sensor, and the temperature sensor respectively. The PLC controller is also connected with the liquid level sensor, temperature sensor, electric heating device, solenoid valve and pump respectively.

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