CN209960617U - Solar energy hydrologic cycle and complementary heating system of boiler - Google Patents

Abstract

A solar water circulation and boiler complementary heating device relates to a heating device, which comprises a solar water heater, a T-shaped three-way ball valve, an intelligent temperature controller, a speed-adjustable circulating water pump, a heating radiator, a boiler, a cold water pipe and a hot water pipe; the solar water heater is connected with the main cycle of the heating device through a cold water pipe and a hot water pipe; the radiator is connected with the main cycle of the heating device through a cold water pipe and a hot water pipe; the boiler is connected with a heating device through a cold water pipe and a hot water pipe; one group of T-shaped three-way ball valves is arranged between the solar water heater and the water heater for supplying water and the main circulation of water and heating, and the other group of T-shaped three-way ball valves is arranged between the main circulation of heating, the boiler and the heating plate; the circulating water pump is arranged on the main circulation of the cold water measured by the heater; the input end of the intelligent temperature controller is directly connected with 220V alternating current, and the output end of the intelligent temperature controller is directly connected with a power supply of the circulating water pump. The utility model discloses have intelligent temperature controller, through the indoor temperature of monitoring, the intelligent control circulating pump can the exhaust after the arrival temperature, the energy saving.

Description

Solar energy hydrologic cycle and complementary heating system of boiler

Technical Field

The utility model relates to a heating system especially relates to a solar energy hydrologic cycle and complementary heating system of boiler.

Background

At present, northern cities mostly adopt a central heating mode to heat, and good effects are achieved. However, most people in the vast rural areas in the north and in the south are worried about heating in winter. The existing heating mode in winter is mainly heating by burning fire, a large amount of resources are needed for combustion, the combustion of fossil fuels such as coal and the like often causes environmental pollution, and people also need to spend a large amount of funds and store the coal and the like for heating in winter. The small-scale self-heating furnace greatly wastes resources and also has influence on the safety of people. At present, a lot of boilers are installed in rural areas, water in heating air is heated by burning wood, coal and the like to warm, but the self-circulation of boiler water is slow, so that the heating is slow, the boilers are often fired for a long time, and the inside of a room is not heated. At present, most of the heating appliances do not have temperature control devices, and the heating appliances are heated according to the self feeling and are not intelligent enough. While rural heating often ignores the cleanest, safest, and most readily available solar energy.

Disclosure of Invention

An object of the utility model is to provide a solar energy hydrologic cycle and complementary heating system of boiler, the utility model discloses a solar water heater collects clear solar energy, and the regulation of rethread T type tee bend ball valve feeds through with user's heating installation main cycle, uses circulating water pump to carry out quick circulation, through the intelligent temperature controller real-time detection indoor temperature of installation, and the temperature carries out automatic control, and when cutting off the power supply circulating water pump after exceeding the default, realizes energy-saving control.

The utility model aims at realizing through the following technical scheme:

a heating device with solar water circulation and boiler complementation comprises a solar water heater, a T-shaped three-way ball valve, an intelligent temperature controller, a speed-adjustable circulating water pump, a radiator, a boiler, a cold water pipe and a hot water pipe; the solar water heater is connected with the main cycle of the heating device through a cold water pipe and a hot water pipe; the radiator is connected with the main cycle of the heating device through a cold water pipe and a hot water pipe; the boiler is connected with a heating device through a cold water pipe and a hot water pipe; one group of T-shaped three-way ball valves is arranged between the solar water heater and the water heater for supplying water and the main circulation of water and heating, and the other group of T-shaped three-way ball valves is arranged between the main circulation of heating, the boiler and the heating plate; the circulating water pump is arranged on the main circulation of the cold water measured by the heater; the input end of the intelligent temperature controller is directly connected with 220V alternating current, and the output end of the intelligent temperature controller is directly connected with a power supply of the circulating water pump.

The solar water circulation and boiler complementation heating device is characterized in that the T-shaped three-way ball valve is selected as the three-way ball valve.

A hot water pipe in the water heater is arranged on a T-shaped three-way ball valve on a main cycle.

The solar water heater is communicated with a hot water pipe, a cold water pipe main circulating pipe and a heating radiator.

The solar water circulation and boiler complementary heating device is characterized in that the circulating water pump is arranged on a main circulating hot water pipe and a main circulating cold water pipe.

The utility model has the advantages and effects that:

1. the utility model discloses the heating has adopted the solar heating mode, and the source of solar energy uses is common solar water heater, through installing T type tee bend ball valve additional, and indoor heating is given through hydrologic cycle to usable solar water heater's hot water. The solar water heater has the advantages that the solar water heater is calculated according to the heat collection area being 3 square and the conversion efficiency being 80%, the solar water heater is approximately equivalent to a 2400W electric heating furnace for continuous heating, the waste of heating by burning a boiler in the daytime is reduced, and the solar water heater is clean energy, energy-saving and environment-friendly. The utility model discloses the regulation of T type tee bend ball valve is used, can not influence solar water heater's domestic water's demand. The utility model discloses have intelligent temperature controller, through the indoor temperature of monitoring, the intelligent control circulating pump can the exhaust cycle after reacing the temperature, the energy saving, but the water pump of adjustable speed can be selected according to user's own demand. The utility model discloses do not change original domestic boiler heating system, only reform transform through upgrading, solar energy and boiler heating are complementary, and the feasibility is strong.

2. The utility model discloses a domestic solar water heater collects and utilizes solar energy, with the cold water heating, when utilizing solar energy heating, manual T type tee bend ball valve that passes through lets it communicate with the heating installation owner's circulation, with the boiler disconnection. When the sun is available, the solar water heater is used for supplying heat to the room. At night, solar energy does not exist, heating is needed, the boiler is communicated with the main circulation of the heating system through the T-shaped three-way ball valve manually, the water heater is disconnected with the main circulation of the heating system, heating is achieved through a boiler burning mode, and the boiler and the heating system are combined with each other to achieve complementation. Through the intelligent temperature controller of installation, real-time supervision indoor temperature when the temperature is less than the default, will control circulating water pump and switch on the power and circulate, after indoor temperature reached the default, stopped circulating water pump circulation, the energy saving. The circulating water pump has a speed regulation function, and a user can regulate the circulating water pump according to the requirement.

Drawings

FIG. 1 is a schematic diagram illustrating a solar water cycle and boiler complementary heating system.

The components in the figure: the solar water heater comprises a solar water heater 1, a three-way ball valve 2T, an intelligent temperature controller 3, a speed-adjustable circulating water pump 4, heating radiators 5, a boiler 6, a hot water pipe 7 and a cold water pipe 8.

Detailed Description

The present invention will be described in detail with reference to the embodiments shown in the drawings.

A heating device with solar water circulation and boiler complementation comprises a solar water heater, a T-shaped three-way ball valve, an intelligent temperature controller, a speed-adjustable circulating water pump, a heating radiator, a boiler, a cold water pipe and a hot water pipe. The solar water heater is connected with the main cycle of the heating device through a cold water pipe and a hot water pipe; the radiator is connected with the main cycle of the heating device through a cold water pipe and a hot water pipe; the boiler is connected with a heating device through a cold water pipe and a hot water pipe; one group of T-shaped three-way ball valves is arranged between the solar water heater and the water heater for supplying water and the main circulation of water and heating, and the other group of T-shaped three-way ball valves is arranged between the main circulation of heating, the boiler and the heating plate; the circulating water pump is arranged on the main circulation of the cold water measured by the heater; the input end of the intelligent temperature controller is directly connected with 220V alternating current, and the output end of the intelligent temperature controller is directly connected with a power supply of the circulating water pump.

T-shaped three-way ball valves are selected as the three-way ball valves, and users can switch the solar heating or boiler heating modes conveniently. The circulating water pump uses an innovated RS-6 series water pump, has the maximum power of 100W, and can save energy and regulate speed. The intelligent temperature controller uses a WK-SM6 type intelligent temperature controller matched with an innovator.

The device can use hot water in a solar water heater to heat the indoor space by adjusting a T-shaped three-way ball valve arranged on a main circulation.

The device comprises an intelligent temperature controller and a speed-adjustable circulating water pump, and can intelligently control heating and save energy by combining user setting and requirements.

The device circulating water pump uses an RS-6 series water pump of an innovator, and the intelligent temperature controller uses a WK-SM6 type intelligent temperature controller matched with the innovator.

In the daytime, the sunlight is sufficient, the water in the solar water heater 1 is heated by the sunlight, and the hot water can be normally used for the life of a user. If the water in the solar water heater 1 is needed for heating, hot water in the solar water heater 1 is communicated with the heating radiator 5 through the main circulation of the hot water pipe 7 and the cold water pipe 8 by adjusting the T-shaped three-way ball valve 2, so that heat exchange is carried out, and indoor heating is realized.

The circulating water pump 4 is arranged on the main circulating hot water pipe 7 and the cold water pipe 8, can be manually adjusted in speed, changes the circulating speed according to the requirements of users, and achieves the energy-saving effect.

The intelligent temperature controller 3 monitors the indoor temperature in real time, and a user can set a temperature value according to the requirement, and when the temperature value exceeds a preset value, the circulating water pump 4 on the main circulation can be automatically disconnected, so that the energy consumption of the circulating water pump 4 and the heat of circulating water are reduced.

When the hot water in the solar water heater 1 cannot meet the requirement of heating at night or on cloudy days, the T-shaped ball valve 2 can be adjusted to recover the heating device of the boiler 6, and the reduction boiler 6 is used for heating to ensure the indoor temperature of a user. The solar energy and the boiler heating are combined with each other, and the energy-saving and emission-reducing effects are achieved.

Claims (5)

1. A heating device with solar water circulation and boiler complementation is characterized by comprising a solar water heater, a T-shaped three-way ball valve, an intelligent temperature controller, a speed-adjustable circulating water pump, a heating radiator, a boiler, a cold water pipe and a hot water pipe; the solar water heater is connected with the main cycle of the heating device through a cold water pipe and a hot water pipe; the radiator is connected with the main cycle of the heating device through a cold water pipe and a hot water pipe; the boiler is connected with a heating device through a cold water pipe and a hot water pipe; one group of T-shaped three-way ball valves is arranged between the solar water heater and the water heater for supplying water and the main circulation of water and heating, and the other group of T-shaped three-way ball valves is arranged between the main circulation of heating, the boiler and the heating plate; the circulating water pump is arranged on the main circulation of the cold water measured by the heater; the input end of the intelligent temperature controller is directly connected with 220V alternating current, and the output end of the intelligent temperature controller is directly connected with a power supply of the circulating water pump.

2. The solar water-circulating boiler-complementary heating system according to claim 1, wherein said three-way ball valve is a T-shaped three-way ball valve.

3. The solar water-circulation and boiler-complementary heating device according to claim 1, wherein a hot water pipe in the water heater is mounted on a T-shaped three-way ball valve on the main circulation.

4. The solar water-circulation and boiler-complementary heating device according to claim 1, wherein the solar water heater is connected with a hot water pipe and a cold water pipe, and a main circulation pipe is connected with a radiator.

5. The solar water-circulation and boiler-complementary heating device according to claim 1, wherein the circulating water pump is installed on a main-circulation hot water pipe and a main-circulation cold water pipe.

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