CN205402870U - Heat accumulation formula electric boiler and solar energy combination heating system - Google Patents

Abstract

The utility model relates to a heat accumulation formula electric boiler and solar energy combination heating system, its structure including: heat storage tank, the solar energy heating device and the electric boiler that link to each other with heat storage tank respectively to and be used for controlling the automatically controlled cabinet of solar energy heating device and electric boiler, be equipped with water supply pipe and return water pipe on heat storage tank. On sunny's daytime, solar energy heating device opened when heating winter, was provided in to heat storage tank by solar energy heating device and supplied warm water, to evening, because sunshine is not enough, the solar energy heating device stop work, the electric boiler started this moment, when temperature when the electric boiler in is higher than the temperature in the heat storage tank, provided confession warm water by the electric boiler in to heat storage tank. The utility model discloses a with the heating system that can switch by oneself that electric energy and solar energy combined together, it need not artificial management, operation safe and reliable, energy -concerving and environment -protective, greatly reduced the heating cost, the facilitate promotion is used.

Description

Heat storage electric boiler and solar energy combined warming system

Technical field

This utility model relates to a kind of heating system, specifically a kind of heat storage electric boiler and solar energy combined warming system.

Background technology

Heat supply in winter is the basic living demand of the northern area of China resident, and the development of heating cause is to improving Living consumption and improving environment and play an important role.The thermal source of heating is essentially from hot-water boiler, and water generally with coal or heavy oil for fuel, is heated by boiler by fuel combustion heat release, and its energy consumption is very high.And, containing toxic gas and pollutant such as substantial amounts of minute dusts, sulfur dioxide, nitrogen oxide or white carbon blacks in the flue gas that fuel combustion gives off.Peking University professor Chen Songxi et al. is by being analyzed reaching a conclusion to the statistical data of nearly 5 years, and heat supply in winter can make the PM2.5 concentration in air increase by more than 50%, has greatly increased the weight of the air pollution in winter.

Utility model content

The purpose of this utility model is just to provide a kind of heat storage electric boiler and solar energy combined warming system, to solve existing heating system operating cost problem high, with serious pollution.

This utility model is achieved in that

A kind of heat storage electric boiler and solar energy combined warming system, include: hot water storage tank, the solar heat collector being connected with described hot water storage tank respectively and electric boiler, and for controlling the electrical control cubicles of described solar heat collector and electric boiler, described hot water storage tank is provided with the first water inlet, the first outlet, the second water inlet, the second outlet and heating and supplying water mouth and heating water return mouth.

The water inlet of described solar heat collector is connected with the first outlet of described hot water storage tank, and the outlet of described solar heat collector is connected with the first water inlet of described hot water storage tank；The water inlet of described electric boiler is connected with the second outlet of described hot water storage tank, and the outlet of described electric boiler is connected with the second water inlet of described hot water storage tank；It is respectively equipped with temperature detector in described solar heat collector, in described hot water storage tank and in described electric boiler；The inlet channel of described solar heat collector is provided with the first electromagnetic valve and the first circulating pump, the inlet channel of described electric boiler is provided with the second electromagnetic valve and the second circulating pump；Described temperature detector, described first electromagnetic valve, described second electromagnetic valve, described first circulating pump and described second circulating pump all electrically connect with described electrical control cubicles.

Described solar heat collector is set to more than two sets, is connected in parallel by pipeline between each described solar heat collector.

During heat supply in winter, on sun-drenched daytime, when water temperature in solar heat collector is higher than the water temperature in hot water storage tank, the first electromagnetic valve and the first circulating pump on solar heat collector inlet channel are opened, solar heat collector provide heating hot water in hot water storage tank.To evening, owing to sunlight is not enough, solar heat collector quits work, now the first electromagnetic valve and the first circulation pump, electric boiler starts, second electromagnetic valve and the second circulating pump are opened, and when the water temperature in electric boiler is higher than the water temperature in hot water storage tank, electric boiler provide heating hot water in hot water storage tank.

This utility model is a kind of heating system that can switch voluntarily electric energy and solar energy combined, and it both can utilize this clean energy resource of solar energy, can utilize again the electric energy of low-valley interval, thus greatly reduces heating cost.This utility model is without behavior adjustment management, safe and reliable to operation, energy-conserving and environment-protective, it is simple to popularization and application.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure: 1, solar heat collector, 2, hot water storage tank, 3, electric boiler, 4, electrical control cubicles, the 5, first electromagnetic valve, the 6, second electromagnetic valve, the 7, first circulating pump, the 8, second circulating pump, 9, water supply line, 10, water return pipeline.

Detailed description of the invention

As it is shown in figure 1, this utility model is mainly made up of parts such as solar heat collector 1, hot water storage tank 2, electric boiler 3 and electrical control cubicles 4.

Hot water storage tank 2 is used for storing hot water, and provides hot water for heating equipment.Hot water storage tank 2 is provided with mean for waterpipe 9 and water return pipeline 10, water supply line 9 is provided with mean for water pump, with by the delivery in hot water storage tank 2 to heating equipment.It is provided with the first water inlet and the second water inlet on the top of hot water storage tank 2, is provided with the first outlet and the second outlet in the bottom of hot water storage tank 2.

The inlet channel of solar heat collector 1 and the first outlet are connected, and the outlet conduit of solar heat collector 1 and the first water inlet are connected.Being provided with the first electromagnetic valve 5 and the first circulating pump 7 on the inlet channel of solar heat collector 1, the first electromagnetic valve 5 is for controlling the break-make of inlet channel, and the first circulating pump 7 is for being circulated exchange by the water in hot water storage tank 2 with the water in solar heat collector 1.On sun-drenched daytime, solar heat collector heats water to uniform temperature (about 60 DEG C), is then stored in hot water storage tank by hot water, needed for meeting heating.

Solar heat collector 1 is set to the multiple stage of parallel connection, to meet the demand of using amount of hot water.Being respectively equipped with hand-operated valve in water inlet end and the water side of every solar heat collector 1, under conventional sense, hand-operated valve is in opening, when overhauling, and the opening and closing of adjustable manual valve.

The inlet channel of electric boiler 3 and the second outlet are connected, and the outlet conduit of electric boiler 3 and the second water inlet are connected.Being provided with the second electromagnetic valve 6 and the second circulating pump 8 on the inlet channel of electric boiler 3, the second electromagnetic valve 6 is for controlling the break-make of inlet channel, and the second circulating pump 8 is for being circulated exchange by the water in hot water storage tank 2 with the water in electric boiler 3.After solar heat collector quits work, the hot water in hot water storage tank is finished gradually, and electric boiler starts, and utilizes trough-electricity to be heated by water, needed for meeting heating.

In the inside of solar heat collector 1, the inside of hot water storage tank 2 and the inside of electric boiler 3 be respectively equipped with temperature detector, for detecting each internal water temperature.

Electrical control cubicles 4 is for controlling the properly functioning of whole system, first electromagnetic valve the 5, second electromagnetic valve the 6, first circulating pump the 7, second circulating pump 8 and each temperature detector are all connected with electrical control cubicles 4, electrical control cubicles 4 receives the signal of temperature detector, after signal is analyzed, control the opening and closing of each electromagnetic valve and circulating pump.

Claims (2)

1. a heat storage electric boiler and solar energy combined warming system, it is characterized in that, include: hot water storage tank, the solar heat collector being connected with described hot water storage tank respectively and electric boiler, and for controlling the electrical control cubicles of described solar heat collector and electric boiler, described hot water storage tank is provided with the first water inlet, the first outlet, the second water inlet, the second outlet and water supply line and water return pipeline；

The water inlet of described solar heat collector is connected with the first outlet of described hot water storage tank, and the outlet of described solar heat collector is connected with the first water inlet of described hot water storage tank；The water inlet of described electric boiler is connected with the second outlet of described hot water storage tank, and the outlet of described electric boiler is connected with the second water inlet of described hot water storage tank；It is respectively equipped with temperature detector in described solar heat collector, in described hot water storage tank and in described electric boiler；The inlet channel of described solar heat collector is provided with the first electromagnetic valve and the first circulating pump, the inlet channel of described electric boiler is provided with the second electromagnetic valve and the second circulating pump；Described temperature detector, described first electromagnetic valve, described second electromagnetic valve, described first circulating pump and described second circulating pump all electrically connect with described electrical control cubicles.

2. heat storage electric boiler according to claim 1 and solar energy combined warming system, is characterized in that, described solar heat collector is set to more than two sets, is connected in parallel by pipeline between each described solar heat collector.