CN203758038U - Solar auxiliary electric boiler heating and hot-water system - Google Patents

Abstract

A solar auxiliary electric boiler heating and hot-water system comprises a solar thermal collector, an auxiliary electric boiler, a solar water tank and a heater. The solar water tank is connected with a first water supply pipe, the solar thermal collector is connected with the solar water tank through a second pipe and a third pipe, the auxiliary electric boiler is connected with the solar water tank through a fourth pipe and a fifth pipe, a floor heater or a radiator is connected with the solar water tank through a sixth pipe and a seventh pipe, and an eighth pipe with two ends in circulating connection with the solar water tank is further installed on the solar water tank. Solenoid valves are installed on every pipe, a temperature difference circulating pump is installed on the second pipe, a heating water supply pump is installed on the sixth pipe, an automatic boosting pump is installed on an eighth circulating pipe, a first temperature sensor is installed on a water outlet of the solar thermal collector, a second temperature sensor is installed in the solar water tank, and all the solenoid valves and the temperature sensors are connected with a controller. The temperature difference circulating pump, the heating water supply pump and the automatic boosting pump are connected with the controller, and the auxiliary electric boiler is connected with the controller. Hot water in the solar thermal collector performs exchange with hot water in the solar water tank and hot water in the electric boiler, and automatic running and good energy-saving effect of a heating system are guaranteed.

Description

Solar energy auxiliary electrical Boiler heating, hot-water heating system

Technical field

The utility model relates to the comprehensive utilization field of solar energy, is specifically a kind ofly to take solar energy as main, with auxiliary electrical boiler supplementary heating system in addition.

Background technology

Solar heating function singleness on present market, when sunlight is insufficient, warming installation just cannot be used, and can not continue to provide heat, and in temperature during lower than zero degree, the easy bursting by freezing of outdoor aqueduct, has increased maintenance cost, also has and can provide on a small quantity electricity the warm shared heating system of solar heating on market, but these heating systems on market, electricity warm with solar heating transfer process in, react insensitive, the easy bursting by freezing of outdoor pipe in winter.

Summary of the invention

The utility model provides a kind of solar energy auxiliary electrical Boiler heating, hot-water heating system, sun-drenched time, the indoor heat that provides can be provided solar thermal collector, when sunlight is weak, can be sensitive convert to by auxiliary electrical boiler provides heat, and in outdoor temperature, during lower than zero degree, can maintain yard piping temperature, guarantee that yard piping is not by bursting by freezing.

To achieve these goals, the technical scheme that the utility model is taked is:

A kind of solar energy auxiliary electrical Boiler heating, hot-water heating system, comprise solar thermal collector, auxiliary electrical boiler, solar water container, heat collector, solar water container connects feed pipe I, between solar thermal collector and solar water container by pipe II with manage III and be connected, between auxiliary electrical boiler and solar water container by pipe IV with manage V and be connected, between floor heating or radiator and solar water container, by pipe VI and pipe VII, be connected, the pipe VIII circulating and be connected with solar water container in two ends is also installed on solar water container; Magnetic valve is all installed on every pipeline, in pipe II, temperature-difference circulation pump is installed, in pipe VI, heating supply-water pump is installed, in circulation pipe VIII, automatic pressure pump is installed, solar thermal collector delivery port mounting temperature sensor I, mounting temperature sensor II in solar water container, all magnetic valves are all connected with controller with temperature sensor, temperature-difference circulation pump, heating supply-water pump, automatic pressure pump are all connected with controller, and auxiliary electrical boiler is connected with controller.

In described circulation pipe VIII, shower or tap are installed.

Mounting temperature sensor III in described pipe II, mounting temperature sensor IV in described pipe III, temperature sensor III is all connected with controller with temperature sensor IV.

Described heat collector is floor heating or radiator.

With respect to prior art, the utility model can either be saved the energy, makes full use of solar energy, and the hot water of solar water container reaches while setting indoor temperature or water tank leaving water temperature, utilizes the hot water in solar water container, does not start the heating of auxiliary electrical boiler, when indoor temperature or solar water container leaving water temperature are during lower than design temperature, by intelligent full-automatic control system, indoor or water tank leaving water temperature are regulated to control, start auxiliary electrical boiler and start heating, while being heated to the temperature of setting, automatically stop heating, the intelligent control of whole service process is quick on the draw, in time hot water in hot water and electric boiler in hot water in solar thermal collector and solar water container is exchanged, ensure the automatic operating of heating system and reach good energy-saving effect, can guarantee that outdoor temperature is lower time simultaneously, yard piping is not by bursting by freezing.

Accompanying drawing explanation

Fig. 1 is each part syndeton schematic diagram of the utility model.

The specific embodiment

As shown in Figure 1, solar energy auxiliary electrical Boiler heating, hot-water heating system, comprise solar thermal collector 3, heat collector 4, auxiliary electrical boiler 2, solar water container 1, solar water container 1 connects feed pipe I 5, between solar thermal collector 3 and solar water container 1 by pipe II 6 with manage III 7 and be connected, between auxiliary electrical boiler 2 and solar water container 1 by pipe IV 8 with manage V 9 and be connected, between heat collector 4 and solar water container 1, by pipe VI 10 and pipe VII 11, be connected, the pipe VIII 12 circulating and be connected with solar water container 1 in two ends is also installed on solar water container 1; Magnetic valve is all installed on every pipeline, in pipe II 6, temperature-difference circulation pump 14 is installed, in pipe VI 10, heating supply-water pump 13 is installed, automatic pressure pump 15 is installed in circulation pipe VIII 12, solar thermal collector 3 delivery port mounting temperature sensor I, mounting temperature sensor II in solar water container 1, all magnetic valves are all connected with controller with temperature sensor, temperature-difference circulation pump 14, heating supply-water pump 13, automatic pressure pump 15 are all connected with controller, and auxiliary electrical boiler is connected with controller.

In use, feed pipe I 5 provides running water water source, and running water enters after solar water container 1, through temperature-difference circulation pump 14 pressurizations, sends into solar thermal collector 3, by solar thermal collector 3, gathers solar energy, and water is heated.Solar thermal collector 3 delivery ports are provided with temperature sensor I, the temperature that temperature sensor I collects is during higher than 5 ℃ of temperature that in solar water container 1, temperature sensor II collects, temperature-difference circulation pump 14 starts, and solar water container 1 and solar thermal collector 3 are carried out to heat exchange; During 2 ℃ of temperature that the temperature collecting when sensor I only collects higher than sensor II, temperature-difference circulation pump 14 stops automatically.

During heat collector heat supply, the water in solar water container 1, after 13 pressurizations of heating supply-water pump, is transported in heat collector 4, supplies with heat to each room, and backwater turns back in solar water container 1.Heat collector 4 is floor heating or radiator.

The heat supply temperature of solar water container 1 is set in to 45 ℃, when being subject to weather condition, solar thermal collector 3 limits, do not reach 45 ℃, the temperature sensor I that is solar thermal collector delivery port is delivered to controller by delivery port temperature signal, when controller receives solar thermal collector delivery port temperature lower than 45 ℃, controller starts auxiliary electrical boiler 2, water in electric boiler is heated, start the temperature-difference circulation pump in pipe IV 8 and in pipe V 9 simultaneously, make water and the water in solar water container in electric boiler carry out heat exchange.

When in solar water container 1, water temperature is low to moderate 40 ℃, temperature sensor II in solar water container is sent to controller by the water temperature signal of solar water container, controller receives in solar water container when water temperature is lower than 40 ℃, controller starts auxiliary electrical boiler 2, water in electric boiler is heated, start the temperature-difference circulation pump 17 in pipe IV 8 simultaneously, make water and the water in solar water container in electric boiler carry out heat exchange.

In solar water container 1, water temperature is high during to 45 ℃, and auxiliary electrical boiler 2 stops heating, and the temperature-difference circulation pump 17 in blanked-off pipe IV 8 and in pipe V 9 simultaneously guarantees that water in solar water container 1 is between 40-45 ℃.

In described circulation pipe VIII 12, shower or tap are installed, can be for bathing, wash one's face and rinse one's mouth or other domestic waters are used, circulate and be connected with solar water container 1 in pipe VIII two ends, and the backwater after automatic pressure pump 15 superchargings can turn back in solar water container 1.

Mounting temperature sensor III in pipe II 6, mounting temperature sensor IV in pipe III 7, temperature sensor III is all connected with controller with temperature sensor IV.The pipe II 6 being collected by temperature sensor III or temperature sensor IV or the temperature of pipe in III 7 during lower than 5 ℃, start temperature-difference circulation pump 14, guarantee that the temperature in pipe II or pipe III is not less than 5 ℃, thereby make yard piping pipe II 6 or pipe III 7 not by bursting by freezing.

Claims (4)

1. solar energy auxiliary electrical Boiler heating, hot-water heating system, comprise solar thermal collector, auxiliary electrical boiler, solar water container, heat collector, solar water container connects feed pipe I, between solar thermal collector and solar water container by pipe II with manage III and be connected, between auxiliary electrical boiler and solar water container by pipe IV with manage V and be connected, between heat collector and solar water container, by pipe VI and pipe VII, be connected, the pipe VIII circulating and be connected with solar water container in two ends is also installed on solar water container; It is characterized in that: magnetic valve is all installed on every pipeline, in pipe II, temperature-difference circulation pump is installed, in pipe VI, heating supply-water pump is installed, in circulation pipe VIII, automatic pressure pump is installed, solar thermal collector delivery port mounting temperature sensor I, mounting temperature sensor II in solar water container, all magnetic valves are all connected with controller with temperature sensor, temperature-difference circulation pump, heating supply-water pump, automatic pressure pump are all connected with controller, and auxiliary electrical boiler is connected with controller.

2. solar energy auxiliary electrical Boiler heating, hot-water heating system according to claim 1, is characterized in that: in described circulation pipe VIII, shower or tap are installed.

3. solar energy auxiliary electrical Boiler heating, hot-water heating system according to claim 1, is characterized in that: mounting temperature sensor III in described pipe II, and mounting temperature sensor IV in described pipe III, temperature sensor III is all connected with controller with temperature sensor IV.

4. solar energy auxiliary electrical Boiler heating, hot-water heating system according to claim 1, is characterized in that: described heat collector is floor heating or radiator.