CN201819297U - Solar heating system - Google Patents

Abstract

The utility model relates to a solar heating system comprising a hot water storage tank, a solar heat collector, an indoor heating system, at least two circulation pumps, a temperature measuring point sensor and a control unit, wherein the first water inlet of the hot water storage tank is connected with a water source, and the hot water storage tank is internally further provided with an electric heating system; the water inlet and the water outlet of the solar heat collector are respectively connected with the first water inlet and the second water inlet of the hot water storage tank; the water inlet and the water outlet of the indoor heating system are respectively connected with the second water inlet and the third water inlet of the hot water storage tank; the circulation pumps are respectively connected with the control unit; the temperature measuring point sensor is installed on the hot water storage tank; and the control unit controls the operation of the electric heating system in the hot water storage tank by the data collected by the temperature measuring point sensor, and controls the operation of the at least two circulation pumps by setting working time.

Description

A kind of solar heating system

Technical field

The utility model relates to a kind of heating system, particularly a kind of solar heating system.

Background technology

Obtained promoting by the technology of utilizing solar energy to carry out domestic hot-water's supply at present, but the technology of utilizing solar energy to heat is incomplete as yet.Particularly, how to utilize the more worth research of abundant solar energy resources heat supply heating problem in the very deficient area of resources such as coal, oil, natural gas.Existing technology is by solar collector luminous energy to be converted into heat energy to be used for heating.But on the one hand and since solar thermal utilization equipment and technology use exist all the time according to or even drawback such as can't use during sombre weather, can not satisfy the demand of building continuous heat supply.On the other hand, be equipped with heat-storing device and auxiliary thermal source, increased the complexity of cost and system, and cooperate with building certain difficulty is arranged.Simultaneously, usually can not efficiently cooperate between each system of heating system, also increase various costs virtually.

The utility model content

The utility model is to overcome above-mentioned technological deficiency, provide a kind of all the time according to or the solar heating system that adopts the auxiliary electrical heating to heat during sombre weather; And this system have powerful data acquisition function and reliably unit implement control system and make and reach efficient cooperation between each system; Auxiliary thermal source and hot water storage tank are set to one simultaneously, can play the double effects of raising the efficiency and save investment.

For achieving the above object, the utility model utilization is organized vacuum glass heat collection tube collector more and is placed and carry out solar energy acquisition upstairs; Because dispersiveness, discontinuity and the unstability of solar energy itself are equipped with the auxiliary electro-heat boiler plant and guarantee to keep indoor temperature and protect yard piping not by bursting by freezing under the situation at cloudy day and night; Optimize the hot water storage tank volume, guarantee that heat supply is stable; The integrated unit of solar-heating mainly comprises solar energy system circulating pump, heating system circulating pump, valve accessories and control and monitoring equipment, the solar energy system circulating pump adopts timing controlled, utilize the flow size to control the temperature difference of turnover heat collector, water circulating pump configuration frequency converter; Being designed to of indoor heating system reduced indoor cooling system to the original building structural damage as far as possible, indoor heating system adopts to be gone up for the different journey arrangement of single tube following current next time, high point is established automatic exhaust steam valve, the top layer radiator is established threeway for backwater and is connected, perhaps material adopts the dual-purpose heating electrical heating of water power pipe, utilizes low-temperature floor radiant heating; The control of heating system is then adopted timing controlled according to thermal property for building; For improving and compensate every calculating parameter of heating design data and solar energy heat distribution system, the lot of data acquisition instrument is set is used to monitor parameters such as outdoor temperature, indoor temperature, solar radiation intensity, hot water storage tank temperature, solar thermal collector turnover water temperature, heating system turnover water temperature.

The utility model provides a kind of solar heating system, comprising: hot water storage tank, and its first water inlet links to each other with the water source, and water is stored in described hot water storage tank, and also is provided with electric heating system in the described hot water storage tank; Solar thermal collector, its water inlet links to each other with second water inlet with first delivery port of described hot water storage tank respectively with delivery port; Indoor heating system, its water inlet links to each other with the 3rd water inlet with second delivery port of described hot water storage tank respectively with delivery port; At least two circulating pumps, it is connected to control module respectively, and described at least two circulating pumps are arranged between first delivery port of the water inlet of described solar thermal collector and described hot water storage tank respectively, and between second delivery port of the water inlet of described indoor heating system and described hot water storage tank; The temperature point sensor, it is arranged on the described hot water storage tank; Control module, its data that collect by described temperature point sensor are controlled the operation of the described electric heating system in the described hot water storage tank, and described control module is controlled described solar heating system and worked in the working time section of setting.

Preferably, solar heating system of the present utility model, described solar thermal collector are many group vacuum glass heat collection tubes.

Preferably, solar heating system of the present utility model, if the temperature data that described temperature point sensor records less than the rated temperature of described DCU data control unit, then control module starts the electric heating system in the described hot water storage tank, otherwise does not then start.

Preferably, solar heating system of the present utility model, described control module are controlled described solar heating system and are worked in the working time section of setting.

Preferably, solar heating system of the present utility model, described indoor heating system adopts low-temperature radiant floor heating system.

Preferably, solar heating system of the present utility model, described electric heating system are electrical bar.

Preferably, solar heating system of the present utility model also disperses to be provided with thermometer and pressure gauge near described solar thermal collector, at least two circulating pumps, hot water storage tank and described indoor heating systems.

Preferably, solar heating system of the present utility model also is provided with water softener between described water source and the described hot water storage tank.

Preferably, solar heating system of the present utility model also is provided with expansion tank at the top of described solar thermal collector.

Preferably, solar heating system of the present utility model, described at least two circulating pumps are respectively solar energy system circulating pump and heating system circulating pump.

A kind of solar heating system of the present utility model not only can be when having the sun, and the heating service being provided efficiently, and all the time according to or sombre weather under provide the heating service by auxiliary thermal source.Resource had both been saved in distinctive auxiliary thermal source of native system and hot water storage tank integrated design, had and had improved efficient.And the hot water storage tank of native system is a double-water-tank system, so just can be by opening and closing valve, pressure-reducing valve or running wind automatically and solve air inlet and turned letter phenomenon.In addition, the control system of native system can be carried out timing arrangement to the work of system's each several part, and the data collecting system of native system can be adjusted to the required normal range (NR) of system automatically according to the situation of the temperature and pressure that collects.

Description of drawings

Fig. 1 is the workflow module map of an embodiment of the present utility model;

Fig. 2 is the system construction drawing of an embodiment of the present utility model.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in further detail, can implements according to this with reference to the specification literal to make those skilled in the art.

As shown in Figure 2, sun-drenched the time, will not start electric heating system 9, but directly carry out the heating of indoor heating system 11 by solar thermal collector 10.After first water inlet of the water in the water source 1 by hot water storage tank 3 enters to hot water storage tank 3, just under the effect of solar energy system circulating pump 7, will not pump to solar thermal collector 10 through the water source of heating.Water in the water source 1 is that first delivery port that passes through hot water storage tank 3 flow to solar energy system circulating pump 7 at this moment.After the heating of the solar thermal collector 10 that the water process vacuum glass heat collection tube in the water source 1 is made, just be back in the hot water storage tank 3.To pump to indoor heating system through the water source of heating through the effect of heating system circulating pump 6 again of this moment through the water in the water source 1 of heating.So just can be so that room temperature rises.Simultaneously, the top of hot water storage tank also is provided with temperature point sensor 4, and when the temperature of the water in its measuring point hot water storage tank surpassed the rated temperature of control module, control module was just opened electric heating system 9 and carried out work.And when electric heating system 9 was heated to the rated temperature of control module with the water in the hot water storage tank, electric heating system 9 just quit work.Solar energy system circulating pump 7 and heating system circulating pump 6 are controlled by mode regularly by control module.For example: section running time of control heating system circulating pump is: 6:00～12:00 and 15:00～17:00.Section running time of control solar energy system circulating pump is: timing controlled, running time section: 10:30～17:15.In this time period, system will start solar energy system circulating pump 7 and heating system circulating pump 6, otherwise then not start.

Like this, guaranteed the lasting source of heat under the situation of solar energy deficiency by electric heating system 9.And by the control of control module to solar energy system circulating pump 7 and heating system circulating pump 6, guaranteed on the one hand to have saved the energy on the other hand the continuing of this time period endogenous pyrogen.

In other words, a kind of solar heating system of the present utility model is characterized in that, comprising: hot water storage tank, and its first water inlet links to each other with the water source, and water is stored in described hot water storage tank, and also is provided with electric heating system in the described hot water storage tank; Solar thermal collector, its water inlet links to each other with second water inlet with first delivery port of described hot water storage tank respectively with delivery port; Indoor heating system, its water inlet links to each other with the 3rd water inlet with second delivery port of described hot water storage tank respectively with delivery port; At least two circulating pumps, it is connected to control module respectively, and described at least two circulating pumps are arranged between first delivery port of the water inlet of described solar thermal collector and described hot water storage tank respectively, and between second delivery port of the water inlet of described indoor heating system and described hot water storage tank; The temperature point sensor, it is arranged on the described hot water storage tank; Control module, its data that collect by described temperature point sensor are controlled the operation of the described electric heating system in the described hot water storage tank, and described control module is controlled described solar heating system and worked in the working time section of setting.

Solar heating system described in the utility model, described solar thermal collector are many group vacuum glass heat collection tubes.

Solar heating system described in the utility model, if the temperature data that described temperature point sensor records less than the rated temperature of described DCU data control unit, then control module starts the electric heating system in the described hot water storage tank, otherwise does not then start.

Solar heating system described in the utility model, described control module are controlled described solar heating system and are worked in the working time section of setting.

Solar heating system described in the utility model, described indoor heating system adopts low-temperature radiant floor heating system.

Solar heating system described in the utility model, described electric heating system are electrical bar.

Solar heating system described in the utility model also disperses to be provided with thermometer and pressure gauge near described solar thermal collector, at least two circulating pumps, hot water storage tank and described indoor heating systems.

Solar heating system described in the utility model also is provided with water softener between described water source and the described hot water storage tank.

Solar heating system described in the utility model also is provided with expansion tank at the top of described solar thermal collector.

Solar heating system described in the utility model, described at least two circulating pumps are respectively solar energy system circulating pump and heating system circulating pump.

Although embodiment of the present utility model is open as above, but it is not restricted to listed utilization in specification and the embodiment, it can be applied to the various fields of the present utility model that are fit to fully, for those skilled in the art, can easily realize other modification, therefore under the universal that does not deviate from claim and equivalency range and limited, the legend that the utility model is not limited to specific details and illustrates here and describe.

Claims (8)

1. a solar heating system is characterized in that, comprising:

Hot water storage tank, its first water inlet links to each other with the water source, and water is stored in described hot water storage tank, and also is provided with electric heating system in the described hot water storage tank;

Solar thermal collector, its water inlet links to each other with second water inlet with first delivery port of described hot water storage tank respectively with delivery port;

Indoor heating system, its water inlet links to each other with the 3rd water inlet with second delivery port of described hot water storage tank respectively with delivery port;

At least two circulating pumps, it is connected to control module respectively, and described at least two circulating pumps are arranged between first delivery port of the water inlet of described solar thermal collector and described hot water storage tank respectively, and between second delivery port of the water inlet of described indoor heating system and described hot water storage tank;

The temperature point sensor, it is arranged on the described hot water storage tank;

Control module, its data that collect by described temperature point sensor are controlled the operation of the described electric heating system in the described hot water storage tank, and described control module is controlled described solar heating system and worked in the working time section of setting.

2. solar heating system as claimed in claim 1 is characterized in that, described solar thermal collector is many group vacuum glass heat collection tubes.

3. solar heating system as claimed in claim 1 is characterized in that, described indoor heating system adopts low-temperature radiant floor heating system.

4. solar heating system as claimed in claim 1 is characterized in that, described electric heating system is an electrical bar.

5. solar heating system as claimed in claim 1 is characterized in that, also disperses to be provided with thermometer and pressure gauge near described solar thermal collector, at least two circulating pumps, hot water storage tank and described indoor heating systems.

6. solar heating system as claimed in claim 1 is characterized in that, also is provided with water softener between described water source and the described hot water storage tank.

7. solar heating system as claimed in claim 1 is characterized in that, also is provided with expansion tank at the top of described solar thermal collector.

8. solar heating system as claimed in claim 1 is characterized in that, described at least two circulating pumps are respectively solar energy system circulating pump and heating system circulating pump.

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