CN203704099U - Heating, water and power supply system - Google Patents

Abstract

The utility model relates to the technical field of solar application, in particular to a heating, water and power supply system. The heating, water and power supply system comprises a solar heat collector provided with a water inlet pipe and a water outlet pipe, the water inlet pipe is connected with an outer water source, and the water outlet pipe is respectively connected with a heating supply mechanism, a water supply mechanism and a power supply mechanism. According to the system, the heating, water and power integrated supply system is formed by the solar heat collector and heating, water and power supply mechanisms, solar energy can be fully utilized, thereby, daily life energy consumption can be reduced, production pollution can be reduced, and energy-saving and environment-friendly developing requirements can be met. Electric energy generated by an electric generator can be stored in an electricity storing device so that the power supply mechanism can continually supply power, and influences from day and night are absent.

Description

A kind of heating and supplying water electric power system

Technical field

The utility model relates to application of solar, relates in particular to a kind of heating and supplying water electric power system of utilizing solar energy.

Background technology

When the Rapid-Urbanization of China brings high-degree economic growth, also bring the series of problems such as the energy and resource consume fast, development environment bottleneck.Premier Wen Jiabao points out: Development of Green Building; to greatest extent energy-conservation, economize on water, save land, material-saving, reduce and pollute, protection of the environment; be not only the significant problem that changes construction industry development mode and town and country construction pattern, and the direct relation masses' vital interests and national long-term interest.

Building is in the past aspect heating, what majority adopted is coal heating, gas-heating or fuel oil heating, and electric power heating or the gas heatings of adopting that supply water more, power supply is the power purchases that adopt more, and the source of power purchase is still that coal generating is main, the heating and supplying water power supply mode of everything not only expends huge energy source material, has also brought the huge environmental problems such as greenhouse effects, acid rain, resource exhaustion simultaneously.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of heating and supplying water electric power system of environmental protection and energy saving.

For achieving the above object, the utility model is by the following technical solutions: a kind of heating and supplying water electric power system, comprise the solar thermal collector that is provided with water inlet pipe and outlet pipe, described water inlet pipe is connected with external water source, and described outlet pipe is connected with heating mechanism, water supply mechanism and administration of power supply respectively.

Furtherly, described administration of power supply is mainly made up of storage heater, steam turbine, generator and electric storage means, described outlet pipe, storage heater and steam turbine are connected successively by pipeline, described Steam Turbine Driven generator generating, described generator is electrically connected with electric storage means, and described electric storage means is electrically connected with outside electricity consumption end.

Furtherly, described administration of power supply also comprises condenser and the 3rd pump housing, and described steam turbine, condenser, the 3rd pump housing are connected by the second circulating line successively with storage heater.

Furtherly, described storage heater is communicated with water inlet pipe by the 3rd circulating line.

Furtherly, described heating mechanism is mainly made up of first pump housing and radiator, and described outlet pipe, first pump housing, radiator and water inlet pipe are connected successively by the first circulating line.

Furtherly, between described first pump housing and radiator, be provided with temperature-flow cascade controller.

Furtherly, described water supply mechanism comprises second pump housing, and described outlet pipe is connected by water-supply-pipe with second pump housing, and the port of export of described water-supply-pipe is connected with water end (W.E.) with outside.

Furtherly, described water inlet pipe is provided with a water pumper and for monitoring the water level controller of solar thermal collector water level, and described water level controller is connected with water pumping electromechanical.

Furtherly, the outlet pipe place of described solar thermal collector is provided with a liquid flux distributor, and described liquid flux distributor is connected with heating mechanism, water supply mechanism and administration of power supply respectively.

Compared with prior art, the beneficial effects of the utility model are: the utility model forms a heating, supplying hot water, the integrated system of power supply by solar thermal collector and heating, water supply and administration of power supply, this system can make full use of solar energy, thereby reduce life energy consumption, reduce production capacity and pollute, meet the development need of energy-saving and environmental protection.The power storage that generator produces, in electrical storage device, makes the administration of power supply can continued power, is not subject to impact round the clock.Steam turbine drives after generator generating, steam process condenser is also circulated in storage heater under the effect of the 3rd pump housing, until heat is back in solar thermal collector and reheated by the 3rd circulating line again after dispersing, thereby can make full use of heat energy saving water resource.Set temperature-flow cascade controller, can control by design temperature the flow of hot water in heating mechanism, thereby realize comfortable and energy-conservation double effects.Water level controller is set, can be according to the start and stop of the reservoir storage control water pumper in solar thermal collector.Solar thermal collector can be installed on roof and the balcony of bottom surface or building, can make full use of solar energy, obtains more heat energy.

Accompanying drawing explanation

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

The specific embodiment

In order to more fully understand technology contents of the present utility model, below in conjunction with specific embodiment, the technical solution of the utility model is described further and is illustrated.

Embodiment

With reference to Fig. 1, a kind of heating and supplying water electric power system that the utility model provides, comprises energy collecting mechanism 10, heating mechanism 20, water supply mechanism 30 and administration of power supply 40.Energy collecting mechanism 10 provides heating hot water for heating mechanism 20, for water supply mechanism 30 provides domestic hot-water, for administration of power supply 40 provides heat energy.

Described energy collecting mechanism 10 comprises solar thermal collector 12, solar thermal collector 12 is provided with water inlet pipe 11 and outlet pipe 13, wherein, the end of water inlet pipe 11 is connected with external water source 80, on water inlet pipe 11, be provided with a water pumper 70, and be provided with a water level controller 60 between water pumper 70 and solar thermal collector 12.Water level controller 60 is for monitoring the water yield of solar thermal collector 12 cisterns, thus the start and stop of control water pumper 80.Outlet pipe 13 places of described solar thermal collector 12 are provided with a liquid flux distributor 50, liquid flux distributor 50 is connected with heating mechanism 20, water supply mechanism 30 and administration of power supply 40 arrival ends respectively, and described liquid flux distributor 50 is throttle type liquid flux distributor.

Described heating mechanism 20 comprises first pump housing 22, some radiators 24, temperature-flow cascade controller 23 and the first circulation pipe 21 with radiator 24 equivalent, and described first pump housing 22 is compression pump.A radiator 24 is connected with temperature-flow cascade controller 23 and is formed a thermal component, and each thermal component is in parallel and be connected with the first circulation pipe 21, first pump housing 22 is located on the first circulation pipe 21 simultaneously, and the arrival end of the first circulation pipe 21 is connected with liquid flux distributor 50, the port of export of the first circulation pipe 21 is connected with water inlet pipe 11.

Described water supply mechanism 30 mainly comprises second pump housing 31, and described second pump housing 31 is centrifugal pump.Outlet pipe 13 is connected by water-supply-pipe 32 with second pump housing 31, and the port of export of water-supply-pipe 32 is connected with water end (W.E.) 33 with outside.

Described administration of power supply 40 is mainly made up of storage heater 42, steam turbine 46, generator 47, electric storage means 48, condenser 45 and the 3rd pump housing 43.Outlet pipe 13, storage heater 42 and steam turbine 46 are connected successively by pipeline, and steam turbine 46 drives generator 47 to generate electricity, and 47, generator is electrically connected with electric storage means 48, and electric storage means 48 is connected with outside electricity consumption end 49.Meanwhile, steam turbine 46, condenser 45, the 3rd pump housing 43 and storage heater 42 are also connected successively by the second circulation pipe 44, and storage heater 42 is communicated with water inlet pipe 11 by the 3rd circulation pipe 41.

Reach better heating effect, building will be taked good heat-insulation system, and solar thermal collector 12 is arranged on roof, balcony or the ground of building, thereby can make full use of solar energy, obtains more heat energy.Hot water in solar thermal collector 12 divides three plumes to go out, and one is connected with water end (W.E.) 33 with outside by second pump housing 31, and in the time that needs are supplied domestic hot-water's (undrinkable water), second pump housing 31 starts automatically so that required hot water to be provided; Another strand is connected with the radiator 24 of being located in building by first pump housing 22 and the first circulating line 21, is indoor heating; Under the adjusting of liquid flux distributor 50, remaining hot water is entered in storage heater 42 by other pipeline, heat is assembled in storage heater 42 with the form of steam, while acquiring a certain degree, steam is sent to steam turbine 46, steam turbine 46 drives the work of generator 47, generator 47 transports electric energy to be stored in the daily electricity consumption that building is provided in electric storage means, makes the administration of power supply 40 can continued power, is not subject to impact round the clock.

After steam turbine 46 drives generator 47, steam process condenser 45 is also again got back in storage heater 42 and is recycled under the drive of the 3rd pump housing 43, until heat got back in solar thermal collector 12 and reheated by the 3rd circulating line 41 again while dispersing, thereby can make full use of heat energy saving water resource.On radiator 24, be provided with temperature-flow cascade controller 23, the height that user can design temperature, temperature-flow cascade controller 23 carrys out the size of adjust flux according to the setting of temperature, to reach comfortable and energy-conservation double effects.Water pumper 70 tops are provided with water level controller 60, and water level controller 60 is according to the start and stop of the water yield control water pumper 70 in solar thermal collector 12.The utility model forms a heating, supplying hot water, the integrated system of power supply by solar thermal collector 12 and heating, water supply and administration of power supply, this system can make full use of solar energy, thereby reduce life energy consumption, reduce production capacity and pollute, meet the development need of energy-saving and environmental protection.

The above only further illustrates technology contents of the present utility model with embodiment; so that reader is easier to understand; but do not represent that embodiment of the present utility model only limits to this, any technology of doing according to the utility model is extended or recreation, is all subject to protection of the present utility model.

Claims (9)

1. a heating and supplying water electric power system, comprise the solar thermal collector (12) that is provided with water inlet pipe (11) and outlet pipe (13), described water inlet pipe (11) is connected with external water source (80), it is characterized in that: described outlet pipe (13) is connected with heating mechanism (20), water supply mechanism (30) and administration of power supply (40) respectively.

2. a kind of heating and supplying water electric power system according to claim 1, it is characterized in that: described administration of power supply (40) is mainly made up of storage heater (42), steam turbine (46), generator (47) and electric storage means (48), described outlet pipe (13), storage heater (42) and steam turbine (46) are connected successively by pipeline, described steam turbine (46) drives generator (47) generating, described generator (47) is electrically connected with electric storage means (48), and described electric storage means (48) is electrically connected with outside electricity consumption end (49).

3. a kind of heating and supplying water electric power system according to claim 2, it is characterized in that: described administration of power supply (40) also comprises condenser (45) and the 3rd pump housing (43), described steam turbine (46), condenser (45), the 3rd pump housing (43) are connected by the second circulating line (44) successively with storage heater (42).

4. a kind of heating and supplying water electric power system according to claim 3, is characterized in that: described storage heater (42) is communicated with water inlet pipe (11) by the 3rd circulating line (41).

5. a kind of heating and supplying water electric power system according to claim 1, it is characterized in that: described heating mechanism (20) is mainly made up of first pump housing (22) and radiator (24), and described outlet pipe (13), first pump housing (22), radiator (24) and water inlet pipe (11) are connected successively by the first circulating line (21).

6. a kind of heating and supplying water electric power system according to claim 5, is characterized in that: between described first pump housing (22) and radiator (24), be provided with temperature-flow cascade controller (23).

7. a kind of heating and supplying water electric power system according to claim 1, it is characterized in that: described water supply mechanism (30) comprises second pump housing (31), described outlet pipe (13) is connected by water-supply-pipe (32) with second pump housing (31), and the port of export of described water-supply-pipe (32) is connected with water end (W.E.) (33) with outside.

8. according to a kind of heating and supplying water electric power system described in claim 1-7 any one, it is characterized in that: described water inlet pipe (11) is provided with a water pumper (70) and for monitoring the water level controller (60) of solar thermal collector (12) water level, and described water level controller (60) is electrically connected with water pumper (70).

9. according to a kind of heating and supplying water electric power system described in claim 1-7 any one, it is characterized in that: the outlet pipe (13) of described solar thermal collector (12) locates to be provided with a liquid flux distributor (50), described liquid flux distributor (50) is connected with heating mechanism (20), water supply mechanism (30) and administration of power supply (40) respectively.