CN204404320U - The three-in-one heating system of wind-light-electricity - Google Patents

Abstract

The utility model relates to heating field, is specially the three-in-one heating system of a kind of wind-light-electricity.This heating system comprises: mains-supplied equipment, wind-powered electricity generation power supply unit, photoelectricity power supply unit, city's electrical heating components and parts, wind-powered electricity generation heating components and parts, photoelectricity heating components and parts, heat reservoir, hot water cyclesystem, fire-resistant heat-absorbing material, mains-supplied equipment, wind-powered electricity generation power supply unit, the output of photoelectricity power supply unit connects city's electrical heating components and parts respectively, wind-powered electricity generation heating components and parts, photoelectricity heating components and parts, heating components and parts are arranged in the heat reservoir of hot water cyclesystem inside, heat reservoir is by heating components and parts, fire-resistant heat-absorbing material is formed, heating components and parts extend in the chamber of fire-resistant heat-absorbing material formation.The paddy phase that the utility model is powered in electric company uses electric company's electric power system to power for mains-supplied equipment, while effectively utilizing " paddy phase " to carry out civil power temperature adjustment control, both prevent the waste of electric energy, also can avoid the hidden danger existed in electric power netting safe running.

Description

The three-in-one heating system of wind-light-electricity

Technical field

The utility model relates to heating field, is specially the three-in-one heating system of a kind of wind-light-electricity.

Background technology

Electric power there is individual technical term be called " the flat valley period power in peak ".According to the power consumption of resident and enterprise, electric company was divided into three electricity consumption stages by one day 24 hours usually: the peak phase is 8 up to 11 time, and 18 up to 23 time; The flat phase is 7 up to 8 time, and 11 up to 18 time; The paddy phase is 23 up to next day 7 time." flat phase ", delivery and power consumption remain basically stable; " peak phase ", then because power consumption increases, the power supply pressure of electric company is very large.

Then because power consumption significantly reduces time " paddy phase ", electric power resource mass storage, in electrical network, keep the voltage of electrical network, so just have unnecessary generated energy, both easily brings loss, and also brings hidden danger to electric power netting safe running.Show according to statistics, " valley period power " to China's waste in 2010 is equivalent to the installed capacity of 5 pipe of reinforced concrete at Three Gorges Power Stations, and direct losses reach 8,000 hundred million yuan to 1 trillion yuan.

In addition, China is vast in territory, and economic development is uneven, due to the constraint by history and natural conditions, on China remote mountain areas, pastoral area and island and other places, still there is electricity shortage problem.

Utility model content

The purpose of this utility model is to provide a kind of wind-light-electricity three-in-one heating system, and " peak phase " electricity shortage and " the paddy phase " in prior art of solving wastes energy and electric power netting safe running exists potential problem.

The technical solution of the utility model is:

The three-in-one heating system of a kind of wind-light-electricity, this heating system comprises: mains-supplied equipment, wind-powered electricity generation power supply unit, photoelectricity power supply unit, city's electrical heating components and parts, wind-powered electricity generation heating components and parts, photoelectricity heating components and parts, heat reservoir, hot water cyclesystem, fire-resistant heat-absorbing material, and concrete structure is as follows:

The output of mains-supplied equipment, wind-powered electricity generation power supply unit, photoelectricity power supply unit connects city's electrical heating components and parts, wind-powered electricity generation heating components and parts, photoelectricity heating components and parts respectively, described heating components and parts are arranged in the heat reservoir of hot water cyclesystem inside, heat reservoir by heating components and parts, fire-resistant heat-absorbing material is formed, heating components and parts extend in the chamber that fire-resistant heat-absorbing material formed.

The three-in-one heating system of described wind-light-electricity, mains-supplied equipment, wind-powered electricity generation power supply unit, photoelectricity power supply unit are combined into electric power integration system, the wind-driven generator be connected with wind-powered electricity generation power supply unit provides wind-powered electricity generation for wind-powered electricity generation power supply unit, the solar panel be connected with photoelectricity power supply unit provides photoelectricity for photoelectricity power supply unit, and the electric company's electric power system be connected with mains-supplied equipment provides civil power for mains-supplied equipment.

The three-in-one heating system of described wind-light-electricity, in " peak phase " that electric company powers, uses wind-powered electricity generation power supply unit, photoelectricity power supply unit at the same time or separately; In " paddy phase " that electric company powers, use wind-powered electricity generation power supply unit, electric company's electric power system at the same time or separately.

The three-in-one heating system of described wind-light-electricity, in " peak phase " that electric company powers, the wind-powered electricity generation being its correspondence by wind-powered electricity generation power supply unit, photoelectricity power supply unit heats components and parts and photoelectricity heating components and parts power to heat fire-resistant heat-absorbing material, is its outside hot water cyclesystem heat supply of surrounding further by fire-resistant heat-absorbing material.

The three-in-one heating system of described wind-light-electricity, in " paddy phase " that electric company powers, the heat stored by fire-resistant heat-absorbing material is on the one hand hot water cyclesystem heat supply, uses wind-powered electricity generation power supply unit and/or electric company's electric power system to hot water cyclesystem temperature adjustment on the other hand.

Advantage of the present utility model and beneficial effect are:

1, traditional hot water cyclesystem utilization rate is not high, the heat reservoir that heating components and parts, fire-resistant heat-absorbing material are formed is arranged at hot water cyclesystem inside by the utility model, while preventing heat losses, store heat can also be used for heat supply, greatly save the energy.

2, the utility model uses electric company's electric power system to power for mains-supplied equipment in " paddy phase " that electric company powers, while effectively utilizing " paddy phase " to carry out civil power temperature adjustment control, both prevent the waste of electric energy, also can avoid the hidden danger existed in electric power netting safe running.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.In figure, 1 wind-driven generator; 2 solar panels; 3 electric company's electric power systems; 4 mains-supplied equipment; 5 wind-powered electricity generation power supply units; 6 photoelectricity power supply units; 7 city's electrical heating components and parts; 8 wind-powered electricity generation heating components and parts; 9 photoelectricity heating components and parts; 10 heat reservoirs; 11 hot water cyclesystems; 12 fire-resistant heat-absorbing materials.

Detailed description of the invention

As shown in Figure 1, the three-in-one heating system of the utility model wind-light-electricity, mainly comprise: wind-driven generator 1, solar panel 2, electric company's electric power system 3, mains-supplied equipment 4, wind-powered electricity generation power supply unit 5, photoelectricity power supply unit 6, city's electrical heating components and parts 7, wind-powered electricity generation heating components and parts 8, photoelectricity heating components and parts 9, heat reservoir 10, hot water cyclesystem 11, fire-resistant heat-absorbing material 12 etc., concrete structure is as follows:

Mains-supplied equipment 4, wind-powered electricity generation power supply unit 5, photoelectricity power supply unit 6 are combined into electric power integration system, the wind-driven generator 1 be connected with wind-powered electricity generation power supply unit 5 provides wind-powered electricity generation for wind-powered electricity generation power supply unit 5, the solar panel 2 be connected with photoelectricity power supply unit 6 provides photoelectricity for photoelectricity power supply unit 6, and the electric company's electric power system 3 be connected with mains-supplied equipment 4 provides civil power for mains-supplied equipment 4.In " peak phase " that electric company powers, wind-powered electricity generation power supply unit 5, photoelectricity power supply unit 6 can be used at the same time or separately.In " paddy phase " that electric company powers, wind-powered electricity generation power supply unit 5, electric company's electric power system 3 can be used at the same time or separately.Mains-supplied equipment 4 utilizes the power supply of " paddy phase " to carry out civil power temperature adjustment control to hot water cyclesystem 11, reaches the object of rational utilization of electricity.

Electric power integration system (mains-supplied equipment 4, wind-powered electricity generation power supply unit 5, photoelectricity power supply unit 6) output connect three groups of heating components and parts (city's electrical heating components and parts 7 respectively, wind-powered electricity generation heating components and parts 8, photoelectricity heating components and parts 9), three groups of heating components and parts (city's electrical heating components and parts 7, wind-powered electricity generation heating components and parts 8, photoelectricity heating components and parts 9) be arranged in the heat reservoir 10 of hot water cyclesystem 11 inside, heat reservoir 10 is by three groups of heating components and parts (city's electrical heating components and parts 7, wind-powered electricity generation heating components and parts 8, photoelectricity heating components and parts 9), fire-resistant heat-absorbing material 12 is formed, three groups of heating components and parts (city's electrical heating components and parts 7, wind-powered electricity generation heating components and parts 8, photoelectricity heating components and parts 9) extend in the chamber of fire-resistant heat-absorbing material 12 formation.Heat reservoir 10 is arranged in hot water cyclesystem 11, effectively can prevent heat loss.

Simultaneously, in " peak phase " that electric company powers, electric company's electric power system 3 can not be used, be respectively wind-powered electricity generation heating components and parts 8 by wind-powered electricity generation power supply unit 5, photoelectricity power supply unit 6, photoelectricity heating components and parts 9 are powered, wind-powered electricity generation power supply unit 5 and/or photoelectricity power supply unit 6 is used to heat fire-resistant heat-absorbing material 12, further by hot water cyclesystem 11 heat supply that fire-resistant heat-absorbing material 12 is its outside encirclement, by circulating water heating wherein, carry out supplying water or heating.In " paddy phase " that electric company powers, the heat stored by fire-resistant heat-absorbing material 12 is on the one hand hot water cyclesystem 11 heat supply, use wind-powered electricity generation power supply unit 5 and/or electric company's electric power system 3 pairs of hot water cyclesystems 11 to carry out temperature adjustment on the other hand, normal water supply or heating can be ensured equally.

The utility model individually controls city's electrical heating components and parts 7, wind-powered electricity generation heating components and parts 8, photoelectricity heating components and parts 9 by mains-supplied equipment 4, wind-powered electricity generation power supply unit 5, photoelectricity power supply unit 6, be used alone one kind of or two or more as required, use very flexible.Particularly, city's electrical heating components and parts 7, wind-powered electricity generation heating components and parts 8, photoelectricity heating components and parts 9 are arranged in the chamber of fire-resistant heat-absorbing material 12 formation, and all directly do not contact with hot water cyclesystem 11, and both safe and reliable, economize energy again, the thermal efficiency is high.Because the three-in-one heating system of the utility model wind-light-electricity does not need to use fuel, fire coal, combustion gas etc., realize energy-conservation while, can also to reduce discharging, environmental protection, and reasonably to utilize electric company's electric power system.

Claims (5)

1. the three-in-one heating system of wind-light-electricity, it is characterized in that, this heating system comprises: mains-supplied equipment, wind-powered electricity generation power supply unit, photoelectricity power supply unit, city's electrical heating components and parts, wind-powered electricity generation heating components and parts, photoelectricity heating components and parts, heat reservoir, hot water cyclesystem, fire-resistant heat-absorbing material, and concrete structure is as follows:

The output of mains-supplied equipment, wind-powered electricity generation power supply unit, photoelectricity power supply unit connects city's electrical heating components and parts, wind-powered electricity generation heating components and parts, photoelectricity heating components and parts respectively, described heating components and parts are arranged in the heat reservoir of hot water cyclesystem inside, heat reservoir by heating components and parts, fire-resistant heat-absorbing material is formed, heating components and parts extend in the chamber that fire-resistant heat-absorbing material formed.

2. according to the three-in-one heating system of wind-light-electricity according to claim 1, it is characterized in that, mains-supplied equipment, wind-powered electricity generation power supply unit, photoelectricity power supply unit are combined into electric power integration system, the wind-driven generator be connected with wind-powered electricity generation power supply unit provides wind-powered electricity generation for wind-powered electricity generation power supply unit, the solar panel be connected with photoelectricity power supply unit provides photoelectricity for photoelectricity power supply unit, and the electric company's electric power system be connected with mains-supplied equipment provides civil power for mains-supplied equipment.

3. according to the three-in-one heating system of wind-light-electricity according to claim 1, it is characterized in that, in " peak phase " that electric company powers, use wind-powered electricity generation power supply unit, photoelectricity power supply unit at the same time or separately; In " paddy phase " that electric company powers, use wind-powered electricity generation power supply unit, electric company's electric power system at the same time or separately.

4. according to the three-in-one heating system of wind-light-electricity according to claim 3, it is characterized in that, in " peak phase " that electric company powers, the wind-powered electricity generation being its correspondence by wind-powered electricity generation power supply unit, photoelectricity power supply unit heats components and parts and photoelectricity heating components and parts power to heat fire-resistant heat-absorbing material, is its outside hot water cyclesystem heat supply of surrounding further by fire-resistant heat-absorbing material.

5. according to the three-in-one heating system of wind-light-electricity according to claim 3, it is characterized in that, in " paddy phase " that electric company powers, the heat stored by fire-resistant heat-absorbing material is on the one hand hot water cyclesystem heat supply, uses wind-powered electricity generation power supply unit and/or electric company's electric power system to hot water cyclesystem temperature adjustment on the other hand.