CN201359323Y

CN201359323Y - Solar energy, bioenergy and wind energy complementation heating system

Info

Publication number: CN201359323Y
Application number: CN 200920300216
Authority: CN
Inventors: 赵民忠
Original assignee: Individual
Current assignee: BEIJING HENGYUAN JINGSHENG ECOLOGY TECHNOLOGY CO LTD
Priority date: 2009-01-13
Filing date: 2009-01-13
Publication date: 2009-12-09
Anticipated expiration: 2019-01-13

Abstract

The utility model relates to a solar energy, bioenergy and wind energy complementation heating system. A solar thermal collector is communicated with a heat-insulating water tank by a circulating water pipe; the heat-insulating water tank is communicated with a cold water inlet pipe by a solenoid valve; the circulating water pipe leading to the solar thermal collector from the heat-insulating water tank is connected with a solar thermal collector circulating pump and a check valve; the heat-insulating water tank is further connected with another circulating water pipe connected with a gas-fuel heater circulating pump in serial, wherein the circulating water pipe is communicated with a water heating pipe of a gas-fuel heater, and a gas-fuel pipeline of the gas-fuel heater is communicated with a biogas pool by a biogas pipe; and an hot water outlet of the heat-insulating water tank sequentially passes through a circulating pump for heating and a water divider and is respectively communicated with a ground heating pipe and the heating pipe of the biogas pool. The utility model provides a heating system by utilizing renewable energy sources for heating which has the characteristics of environment protection and no pollution, and utilizes solar energy to complement with biogas for room heating, thus saving coal resources and reducing environmental pollution.

Description

Solar energy, biological energy source, wind energy complementary heating system

Technical field

The utility model relates to a kind of housing heating system, particularly a kind of heating system that utilizes solar energy and biogas.

Background technology

All be to warm oneself with coal or electricity at north of china in winter at present, wherein coal is non-renewable resources, is that the energy warms oneself that not only expense is big with the coal, and can wastes a large amount of coal resources, also can bring very big pollution to environment; With the electric network source is energy heating, though avoided environmental pollution, electricity price is too high, the heat cost costliness.Known solar thermal collector and circulating water pipe thereof generally are used for the supply life and use hot water, and its heat still is not enough to supply heating system.Known biogas and combustion heater system generally are used for its biogas output of cooking system and also are not enough to be used for heating system.Known solar thermal collector, methane-generating pit, solar power system, wind-driven generator establish one's own system, and are subjected to season or the influence of temperature round the clock easily, and the cyclic utilization rate of regenerative resource is lower, can not solve the problem of indoor lasting heating in winter.

The utility model content

In order to overcome the deficiencies in the prior art, the utility model provides a kind of solar energy, biological energy source, wind energy complementary heating system, solving solar thermal collector, methane-generating pit, solar power system, wind-driven generator establishes one's own system, its cyclic utilization rate is lower, can not solve the problem of indoor lasting heating in winter.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of solar energy, biological energy source, wind energy complementary heating system comprise solar thermal collector and circulating water pipe thereof, it is characterized in that:

Solar thermal collector is communicated with attemperater via one road circulating water pipe, and attemperater is communicated with cold water inlet by magnetic valve, and the circulating water pipe that leads to solar thermal collector from attemperater is connected with solar thermal collector circulating pump and check valve.

Attemperater also is connected with the circulating water pipe of another road series connection combustion heater circulating pump, and this circulating water pipe is communicated with the water heating tube of combustion heater, and the fuel gas pipeline of described combustion heater is communicated with methane-generating pit via the biogas pipe.

Hot water outlet order of attemperater is communicated with floor heating pipe and methane-generating pit heating tube respectively by heating circulation pump and water knockout drum, the methane-generating pit heating tube be embedded in methane-generating pit near.

Be equipped with the water tank temperature sensor in the attemperater, the house is mid-indoor temperature sensor, be equipped with the heat collector temperature sensor in the solar thermal collector, above-mentioned three temperature sensors are connected with intelligent controller through signal transmission line, the control end of intelligent controller is connected with heating circulation pump, solar thermal collector circulating pump, combustion heater circulating pump and magnetic valve signal respectively, and intelligent controller also is connected with power supply through DC-AC converter.

Described power supply is solar power system, wind generator system or electric network source.

Described power supply is solar power system and electric network source.

Described power supply is solar power system and wind generator system.

Described power supply is solar power system, wind generator system and electric network source.

The utility model provides a kind of heating system that utilizes the regenerative resource heating, adopt the heating of solar thermal collector and combustion heater, utilize regenerative resource complementations such as solar energy, biological energy source, replace the non-renewable energy heating, have environmental protection, energy-conservation, free of contamination characteristics.In the hot water input attemperater that solar thermal collector produces, its hot water not only can provide domestic water such as have a bath, wash dish, cook, and enters the ground heat pipe for heating of house, and its waste heat can also heat methane-generating pit, improves the gas production of methane-generating pit.Plant pole, house refuse, sewage are sent into methane-generating pit, utilize methane-generating pit to produce biogas, plant pole, house refuse, sewage are changed into biogas, utilize the energy of biogas, can supply the energy of kitchen cooking at ordinary times, when the hot water temperature who produces when winter or low, the solar thermal collector of temperature at night is not enough as combustion heater, can also start combustion heater, give the attemperater supplementary heating, increase the heat that enters hot water in the floor heating pipe, guarantee winter and indoor round the clock lasting heating.Attemperater temperature sensor, indoor temperature transmitter, heat collector temperature sensor are connected with intelligent controller, when being lower than design temperature, intelligent controller sends the instruction that starts heating circulation pump, solar thermal collector circulating pump, combustion heater circulating pump and magnetic valve, realizes complete intelligent automatic heating.The utility model is linked to be complementary networks with solar thermal collector, methane-generating pit, solar power system, each system of wind-driven generator; improved the cyclic utilization rate of regenerative resource greatly; realized giving heating of house with regenerative resource; coal and electric power resource have been saved; living expenses have been saved; reduce environmental pollution, protected ecological environment.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

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

Reference numeral: 1-solar thermal collector, the 2-attemperater, the 3-methane-generating pit, the 4-combustion heater, the 5-floor heating pipe, the 6-intelligent controller, the 7-heating circulation pump, 8-solar thermal collector circulating pump, 9-combustion heater circulating pump, the 10-solar power system, the 11-water knockout drum, 12-water tank temperature sensor, the 13-check valve, the 14-DC-AC converter, the 15-magnetic valve, the 16-indoor temperature transmitter, 17-methane-generating pit heating tube, 18-heat collector temperature sensor, the 19-cold water inlet, 20-biogas pipe.

The specific embodiment

Embodiment is referring to shown in Figure 1, this solar energy, biological energy source, the wind energy complementary heating system, comprise solar thermal collector 1 and circulating water pipe thereof, solar thermal collector 1 is communicated with attemperater 2 via one road circulating water pipe, attemperater 2 is communicated with cold water inlet 19 by magnetic valve 15, the circulating water pipe that leads to solar thermal collector 1 from attemperater 2 is connected with solar thermal collector circulating pump 8 and check valve 13, attemperater 2 also is connected with the circulating water pipe of another road series connection combustion heater circulating pump 9, this circulating water pipe is communicated with the water heating tube of combustion heater 4, the fuel gas pipeline of described combustion heater 4 is communicated with methane-generating pit 3 via biogas pipe 20, a hot water outlet of attemperater 2 is in proper order by heating circulation pump 7 and water knockout drum 11, be communicated with floor heating pipe 5 and methane-generating pit heating tube 17 respectively, methane-generating pit heating tube 17 be embedded in methane-generating pit near.Be equipped with water tank temperature sensor 12 in the attemperater 2, the house is mid-indoor temperature sensor 16, be equipped with heat collector temperature sensor 18 in the solar thermal collector 1, above-mentioned three temperature sensors are connected with intelligent controller 6 through signal transmission line, the control end of intelligent controller 6 is connected with heating circulation pump 7, solar thermal collector circulating pump 8, combustion heater circulating pump 9 and magnetic valve 15 signals respectively, and intelligent controller 6 also is connected with power supply through DC-AC converter 14.Described power supply can be solar power system 10 or wind-driven generator is supplied with by DC-AC converter 14, can replenish with outdoor electric network source and supply with, and also can only use solar power system 10 or only use outdoor electric network source.

The course of work of the present utility model: the utility model is to come water in the heat tracing water tank 2 with solar thermal collector 1 by day, when the water temperature difference in water in the solar thermal collector 1 and the attemperater 2 during greater than 15 ℃, solar thermal collector circulating pump 8 starts, make hot water and the circulation of the water in the attemperater 2 in the solar thermal collector 1, reach the water temperature balance, thereby continue the water in the heat tracing water tank 2.Check valve 13 under the solar thermal collector can prevent aqueous reflux.Be lower than heating during temperature when indoor temperature transmitter 16 detects indoor temperature, heating circulation pump 7 starts, and makes hot water in the attemperater 2 by water knockout drum 11 inflow place heating coils 5, improves the indoor temperature in each room.Hot water also connects methane-generating pit heating tube 17 by water knockout drum 11 simultaneously, and methane-generating pit heating tube 17 heating methane tanks 3 can improve gas production.In the winter time or night, when the water temperature in the attemperater 2 is low during with 40 ℃, combustion heater circulating pump 9 starts, and combustion heater 4 is opened, the water in the biogas heat tracing water tank 2 that is produced with methane-generating pit 3.When the water in the attemperater 2 was lower than designated water level, magnetic valve 15 was opened, and cold water inlet 19 adds water to designated water level for attemperater 2 by magnetic valve 15 automatically, guarantees the normal operation of whole system.Above all working all is by water tank temperature sensor 12, indoor temperature transmitter 16, heat collector temperature sensor 18 and intelligent controller 6 are finished automatically, and water tank temperature sensor 12, indoor temperature transmitter 16, heat collector temperature sensor 18, intelligent controller 6, heating circulation pump 7, solar thermal collector circulating pump 8, combustion heater circulating pump 9 and magnetic valve 15 used electric energy can be the alternating currents of 220 volts of electric network sources, also can be to provide by solar power system 10 and two kinds of power supply two-ways of outdoor electric network source, guarantee the normal operation of whole system, realize complete intelligent automatic heating.

Claims

1. a solar energy, biological energy source, wind energy complementary heating system comprise solar thermal collector (1) and circulating water pipe thereof, it is characterized in that:

Solar thermal collector (1) is communicated with attemperater (2) via one road circulating water pipe, attemperater (2) is communicated with cold water inlet (19) by magnetic valve (15), and the circulating water pipe that leads to solar thermal collector (1) from attemperater (2) is connected with solar thermal collector circulating pump (8) and check valve (13);

Attemperater (2) also is connected with the circulating water pipe of another road series connection combustion heater circulating pump (9), this circulating water pipe is communicated with the water heating tube of combustion heater (4), and the fuel gas pipeline of described combustion heater (4) is communicated with methane-generating pit (3) via biogas pipe (20);

A hot water outlet of attemperater (2) is communicated with floor heating pipe (5) and methane-generating pit heating tube (17) respectively in proper order by heating circulation pump (7) and water knockout drum (11), methane-generating pit heating tube (17) be embedded in methane-generating pit near;

Be equipped with water tank temperature sensor (12) in the attemperater (2), the house is mid-indoor temperature sensor (16), be equipped with heat collector temperature sensor (18) in the solar thermal collector (1), above-mentioned three temperature sensors are connected with intelligent controller (6) through signal transmission line, the control end of intelligent controller (6) is connected with heating circulation pump (7), solar thermal collector circulating pump (8), combustion heater circulating pump (9) and magnetic valve (15) signal respectively, and intelligent controller (6) also is connected with power supply through DC-AC converter (14).

2. solar energy according to claim 1, biological energy source, wind energy complementary heating system is characterized in that: described power supply is solar power system (10), wind generator system or electric network source.

3. solar energy according to claim 1, biological energy source, wind energy complementary heating system is characterized in that: described power supply is solar power system (10) and electric network source.

4. solar energy according to claim 1, biological energy source, wind energy complementary heating system is characterized in that: described power supply is solar power system (10) and wind generator system.

5. solar energy according to claim 1, biological energy source, wind energy complementary heating system is characterized in that: described power supply is solar power system (10), wind generator system and electric network source.