CN204830528U - Building solar energy photoelectricity light and heat utilizes system - Google Patents

Abstract

The utility model discloses a building solar energy photoelectricity light and heat utilizes system, including building photoelectric conversion system and building photothermal conversion system, building photoelectric conversion system includes roof formula solar energy collecting system, charge controllers, storage battery and dc -to -ac converter, and roof formula solar energy collecting system includes that the multiunit sets up in the solar photovoltaic panel on solar photovoltaic panel frame surface, building photothermal conversion system is including building railing formula solar energy collecting system, storage water tank and set up the boosting equipment in the storage water tank, and multiunit heat pipe formula vacuum tube sets up in the thermal -collecting tube mounting base. The utility model discloses utilize building photoelectric conversion system and building photothermal conversion system to realize solar energy to electric energy and hot transformation of energy respectively to combine both, reach energy -conserving effect. The utility model discloses the building railing that uses can be effectively replaced in the existing building thing, construction costs has been reduced.

Description

Building solar photoelectric light-heat utilizes system

Technical field

The utility model relates to a kind of heating system, particularly relates to a kind of building solar photoelectric light-heat and utilizes system.

Background technology

At present, along with a large amount of uses of fossil energy, fossil energy reserves reduce day by day, and environmental pollution damage simultaneously becomes increasingly conspicuous.Regenerative resource then can change the energy resource structure of the mankind, maintains more long-range use, and stops environmental pollution.Solar energy, as a kind of regenerative resource, has the advantage that inexhaustible, nexhaustible, pollution-free, the cheap and mankind can freely utilize.Current to Solar use more be photothermal conversion and photoelectric conversion technology.

Along with improving constantly of people's living standard, higher requirement has been had to quality of life, winter heating is that health of people is lived indispensable part, but the demand of the steam that heating uses or a large amount of primary energy that high-temperature-hot-water consumes and people creates contradiction, and the birth of solar engineering solves this contradiction, solar engineering investment relative cost is low, and can not pollute environment, be the optimal selection that people use the energy.At present, China is owing to lacking the understanding to solar energy optical-thermal photoelectric conversion technique, solar energy optical-thermal opto-electronic conversion is effectively utilized also to be in exploration developing stage under construction, and solar energy optical-thermal photo-translating system lacks the combination with building, these have impact on the development process of solar energy optical-thermal photoelectric conversion technique and building image.

Utility model content

The purpose of this utility model is to provide a kind of building solar photoelectric light-heat and utilizes system, independently using and organically combining of solar photovoltaic generation system and solar hot water heat collector system can be realized, solar energy is utilized to meet User Part electricity consumption and with heat demand, thermal-collecting tube can also be utilized to replace part construction material, and efficiency utilization solar energy realizes heating simultaneously.

The utility model adopts following technical proposals:

Building solar photoelectric light-heat utilizes system, comprises building photo-translating system and building photothermal deformation system, described building photo-translating system comprises roof type solar energy collecting system, charging-discharging controller, batteries and inverter, roof type solar energy collecting system comprises the solar opto-electronic board that many groups are arranged at solar opto-electronic board pedestal upper surface, solar opto-electronic board pedestal lower surface is provided with cross gusset plate, two ends, solar opto-electronic board pedestal left and right are respectively arranged with rotating shaft, surface, roof below two ends, solar opto-electronic board pedestal left and right is provided with bearing block, bearing is provided with in bearing block, rotating shaft and bearing inner race are fixed, surface, roof below solar opto-electronic board pedestal rear and front end is respectively arranged with the first linear stepping motor and the second linear stepping motor, the output shaft top of the first linear stepping motor and the second linear stepping motor is hinged with solar opto-electronic board pedestal rear and front end respectively, solar opto-electronic board pedestal control module control connection first linear stepping motor and the second linear stepping motor, the output of solar opto-electronic board connects the input of charging-discharging controller, and the output of charging-discharging controller connects the input of batteries, and the output of batteries connects the input of inverter, described building photothermal deformation system comprises Building rail formula solar energy collecting system, storage tank and the ancillary heating equipment be arranged in storage tank, Building rail formula solar energy collecting system comprises organizes heat pipe type vacuum pipe more, many groups heat pipe type vacuum pipe is arranged in thermal-collecting tube mounting base, described thermal-collecting tube mounting base comprises horizontal guardrail and lower horizontal guardrail, upper horizontal guardrail inside is provided with cavity, the water back with storage tank conducting is provided with in cavity, water back is provided with the first circulating pump, multiple thermal-collecting tube outer tube is evenly provided with between upper horizontal guardrail and lower horizontal guardrail, thermal-collecting tube outer tube top tilts backwards setting and the upper and lower of thermal-collecting tube outer tube is fixed with upper horizontal guardrail and lower horizontal guardrail respectively, the horizontal cross-section of thermal-collecting tube outer tube is semicircular ring, heat pipe type vacuum pipe is fastened in thermal-collecting tube outer tube, the condensation end of heat pipe type vacuum pipe is arranged in water back, storage tank is arranged on interior of building, the delivery port of storage tank connects bathing branch road and floor heating branch road by outlet conduit, outlet conduit is provided with the second circulating pump, bathing branch road and floor heating branch road are provided with electrically-controlled valve, the end of bathing branch road is provided with shower nozzle, the end of floor heating branch road connects the water inlet end of grounding heat coil tube, the water side of grounding heat coil tube connects the water inlet of storage tank, the input of the ancillary heating equipment arranged in storage tank connects the output of inverter by electric-controlled switch.

Insulation material is provided with between described upper horizontal guardrail and water back.

The acute angle formed between described thermal-collecting tube outer tube and lower horizontal guardrail is greater than 10 °.

Described ancillary heating equipment adopts electric heater.

The delivery port of described storage tank is provided with temperature sensor, the signal input part of the signal output part connection control device of temperature sensor, controller control connection electric-controlled switch.

Described controller is connected with LCDs.

The utility model can utilize building photo-translating system that luminous energy is converted to power storage in batteries, for other electrical equipments are powered; Utilize building photothermal deformation system to heat the water in storage tank simultaneously.Hot water in storage tank can be used as domestic hot-water and floor heating water.When the hot water temperature in storage tank cannot reach instructions for use, batteries in building photo-translating system also can be utilized to power to the ancillary heating equipment in storage tank, utilize ancillary heating equipment to carry out auxiliary heating to the water in storage tank.The utility model utilizes building photo-translating system and building photothermal deformation system to realize solar energy to electrical and hot transformation of energy respectively, and both is organically combined, and reaches energy-saving effect.Meanwhile, in the utility model, thermal-collecting tube mounting base can effectively substitute the building railing used in existing structure, indirectly decreases building cost, and efficiency utilization solar energy realizes heating simultaneously.

Accompanying drawing explanation

Fig. 1 is theory diagram of the present utility model;

Fig. 2 is the structural representation of solar opto-electronic board pedestal in the utility model;

Fig. 3 is the structural representation of thermal-collecting tube mounting base in the utility model;

Fig. 4 is the structural representation of thermal-collecting tube outer tube in the utility model.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is done with detailed description:

As shown in Figures 1 to 4, building solar photoelectric light-heat described in the utility model utilizes system, comprises building photo-translating system and building photothermal deformation system.Building photo-translating system is used for converting solar energy into electrical energy, and building photothermal deformation system is used for converting solar energy into heat energy.

Described building photo-translating system comprises roof type solar energy collecting system, charging-discharging controller, batteries and inverter, roof type solar energy collecting system comprises the solar opto-electronic board 8 that many groups are arranged at solar opto-electronic board pedestal 7 upper surface, solar opto-electronic board pedestal 7 lower surface is provided with cross gusset plate 9, the firm of solar opto-electronic board pedestal 7 can be ensured, prevent solar opto-electronic board pedestal 7 to be out of shape.Solar opto-electronic board pedestal about 7 two ends are respectively arranged with rotating shaft 10, surface, roof below solar opto-electronic board pedestal about 7 two ends is provided with bearing block 12, bearing 11 is provided with in bearing block 12, rotating shaft 10 and bearing 11 inner ring are fixed, under the effect of rotating shaft 10, bearing 11 and bearing block 12, solar opto-electronic board pedestal 7 rear and front end can realize rise and decline, with change solar opto-electronic board 8 towards.The output shaft top that surface, roof below solar opto-electronic board pedestal 7 rear and front end is respectively arranged with the first linear stepping motor 13 and the second linear stepping motor 14, first linear stepping motor 13 and the second linear stepping motor 14 is hinged with solar opto-electronic board pedestal 7 rear and front end respectively.Solar opto-electronic board pedestal 7 control module control connection first linear stepping motor 13 and the second linear stepping motor 14.In the present embodiment, solar opto-electronic board pedestal 7 rear and front end is arranged at the east-west direction of building, solar opto-electronic board pedestal 7 control module can drive the first linear stepping motor 13 and the second linear stepping motor 14 action according to setting according to the time period respectively, make solar opto-electronic board 8 all the time towards the direction of the sun, thus improve solar absorption efficiency.The output of solar opto-electronic board 8 connects the input of charging-discharging controller, and the output of charging-discharging controller connects the input of batteries, and the output of batteries connects the input of inverter.Under illumination condition, solar opto-electronic board 8 will produce certain electromotive force, and is charged to batteries by charging-discharging controller, by the power storage converted by luminous energy.Under the cooperation of inverter, by the converting direct-current power into alternating-current power that batteries exports, for electrical equipment is powered.

The ancillary heating equipment that described building photothermal deformation system comprises Building rail formula solar energy collecting system, storage tank and is arranged in storage tank.Building rail formula solar energy collecting system can substitute the railing of inhering architecture; as window rail, the balcony balustrade etc. of wafing; Building rail formula solar energy collecting system can either play the safety protection function of existing structure railing; solar energy collecting effect can also be played simultaneously; both reduce the use of construction material, turn increase Solar use effect.

Building rail formula solar energy collecting system comprises many group heat pipe type vacuum pipes 1, and many group heat pipe type vacuum pipes 1 are arranged in thermal-collecting tube mounting base, and thermal-collecting tube mounting base can play the effect of existing structure railing.Thermal-collecting tube mounting base comprises horizontal guardrail 2 and lower horizontal guardrail 3, plays safeguard protection effect.Meanwhile, upper horizontal guardrail 2 inside is also provided with cavity, is provided with the water back 4 with storage tank conducting, water back 4 is provided with the first circulating pump in cavity, is convenient to water back 4 and carries out heat exchange efficiently with the water in storage tank.In order to effectively reduce thermal losses, between upper horizontal guardrail 2 and water back 4, be provided with insulation material.Multiple thermal-collecting tube outer tube 5 is evenly provided with between upper horizontal guardrail 2 and lower horizontal guardrail 3.The upper and lower of heat pipe outer tube is fixed with upper horizontal guardrail 2 and lower horizontal guardrail 3 respectively, the horizontal cross-section of thermal-collecting tube outer tube 5 is semicircular ring, heat pipe type vacuum pipe 1 is fastened in thermal-collecting tube outer tube 5, and the condensation end 6 of heat pipe type vacuum pipe 1 is arranged in water back 4.Heat pipe type vacuum pipe 1 is primarily of parts compositions such as heat pipe, absorber plate, glass tube, metal end, condensation end 6 and getters.Sunshine is radiated on absorber plate through glass tube, and solar radiant energy is converted into heat energy by the solar energy selective absorbing film of high-absorbility.The heat that absorber plate absorbs is rapidly by working medium vaporization a small amount of in heat pipe, the working medium be vaporized rises to condensation end of heat pipe 6 and be again condensed into liquid after being released the latent heat of vaporization by the working medium (water or air) heated, and flows back to heat pipe evaporation ends under gravity.Heat pipe type vacuum pipe 1 utilizes the Liquid-Vapor Phase Transition cyclic process of a small amount of working medium in heat pipe, continuously the solar radiant energy of absorption is delivered to condensation end 6 heating working medium.In the utility model, thermal-collecting tube outer tube 5 top tilts backwards setting, can either ensure that the working medium of vaporization in the heat pipe type vacuum pipe 1 that in thermal-collecting tube outer tube 5, card is established rises to rapidly condensation end 6, can ensure again the exposure area of heat pipe type vacuum pipe 1.In the present embodiment, the acute angle formed between thermal-collecting tube outer tube 5 and lower horizontal guardrail 3 is greater than 10 °.

Storage tank is arranged on interior of building, and the delivery port of storage tank connects bathing branch road and floor heating branch road by outlet conduit, outlet conduit is provided with the second circulating pump, supplies water for pressurization in bathing branch road and floor heating branch road.Bathing branch road and floor heating branch road are provided with electrically-controlled valve, for controlling separately bathing branch road and floor heating branch road.The end of bathing branch road is provided with shower nozzle, the end of floor heating branch road connects the water inlet end of grounding heat coil tube, the water side of grounding heat coil tube connects the water inlet of storage tank, and the input of the ancillary heating equipment arranged in storage tank connects the output of inverter by electric-controlled switch.Ancillary heating equipment can adopt electric heater.

In order to effectively monitor the water temperature in storage tank, the delivery port of storage tank is provided with temperature sensor, the signal input part of the signal output part connection control device of temperature sensor, controller control connection electric-controlled switch and LCDs.LCDs can show storage tank water temperature in real time.

The utility model in use, can utilize building photo-translating system that luminous energy is converted to power storage in batteries, for other electrical equipments are powered; Utilize building photothermal deformation system to heat the water in storage tank simultaneously.Hot water in storage tank can be used as domestic hot-water and floor heating water.When the hot water temperature in storage tank cannot reach instructions for use, batteries in building photo-translating system also can be utilized to power to the ancillary heating equipment in storage tank, utilize ancillary heating equipment to carry out auxiliary heating to the water in storage tank.The utility model utilizes building photo-translating system and building photothermal deformation system to realize solar energy to electrical and hot transformation of energy respectively, and both is organically combined, and reaches energy-saving effect.Meanwhile, in the utility model, thermal-collecting tube mounting base can effectively substitute the building railing used in existing structure, indirectly decreases building cost, and efficiency utilization solar energy realizes heating simultaneously.

The utility model utilizes building photo-translating system and building photothermal deformation system to realize solar energy to electrical and hot transformation of energy respectively, and both is organically combined, and reaches energy-saving effect.Meanwhile, in the utility model, thermal-collecting tube mounting base can effectively substitute the building railing used in existing structure, decreases building cost, and efficiency utilization solar energy realizes heating simultaneously.

Claims (6)

1. building solar photoelectric light-heat utilizes system, it is characterized in that: comprise building photo-translating system and building photothermal deformation system, described building photo-translating system comprises roof type solar energy collecting system, charging-discharging controller, batteries and inverter, roof type solar energy collecting system comprises the solar opto-electronic board that many groups are arranged at solar opto-electronic board pedestal upper surface, solar opto-electronic board pedestal lower surface is provided with cross gusset plate, two ends, solar opto-electronic board pedestal left and right are respectively arranged with rotating shaft, surface, roof below two ends, solar opto-electronic board pedestal left and right is provided with bearing block, bearing is provided with in bearing block, rotating shaft and bearing inner race are fixed, surface, roof below solar opto-electronic board pedestal rear and front end is respectively arranged with the first linear stepping motor and the second linear stepping motor, the output shaft top of the first linear stepping motor and the second linear stepping motor is hinged with solar opto-electronic board pedestal rear and front end respectively, solar opto-electronic board pedestal control module control connection first linear stepping motor and the second linear stepping motor, the output of solar opto-electronic board connects the input of charging-discharging controller, and the output of charging-discharging controller connects the input of batteries, and the output of batteries connects the input of inverter, described building photothermal deformation system comprises Building rail formula solar energy collecting system, storage tank and the ancillary heating equipment be arranged in storage tank, Building rail formula solar energy collecting system comprises organizes heat pipe type vacuum pipe more, many groups heat pipe type vacuum pipe is arranged in thermal-collecting tube mounting base, described thermal-collecting tube mounting base comprises horizontal guardrail and lower horizontal guardrail, upper horizontal guardrail inside is provided with cavity, the water back with storage tank conducting is provided with in cavity, water back is provided with the first circulating pump, multiple thermal-collecting tube outer tube is evenly provided with between upper horizontal guardrail and lower horizontal guardrail, thermal-collecting tube outer tube top tilts backwards setting and the upper and lower of thermal-collecting tube outer tube is fixed with upper horizontal guardrail and lower horizontal guardrail respectively, the horizontal cross-section of thermal-collecting tube outer tube is semicircular ring, heat pipe type vacuum pipe is fastened in thermal-collecting tube outer tube, the condensation end of heat pipe type vacuum pipe is arranged in water back, storage tank is arranged on interior of building, the delivery port of storage tank connects bathing branch road and floor heating branch road by outlet conduit, outlet conduit is provided with the second circulating pump, bathing branch road and floor heating branch road are provided with electrically-controlled valve, the end of bathing branch road is provided with shower nozzle, the end of floor heating branch road connects the water inlet end of grounding heat coil tube, the water side of grounding heat coil tube connects the water inlet of storage tank, the input of the ancillary heating equipment arranged in storage tank connects the output of inverter by electric-controlled switch.

2. building solar photoelectric light-heat according to claim 1 utilizes system, it is characterized in that: be provided with insulation material between described upper horizontal guardrail and water back.

3. building solar photoelectric light-heat according to claim 1 utilizes system, it is characterized in that: the acute angle formed between described thermal-collecting tube outer tube and lower horizontal guardrail is greater than 10 °.

4. building solar photoelectric light-heat according to claim 1 utilizes system, it is characterized in that: described ancillary heating equipment adopts electric heater.

5. building solar photoelectric light-heat according to claim 1 utilizes system, it is characterized in that: the delivery port of described storage tank is provided with temperature sensor, the signal input part of the signal output part connection control device of temperature sensor, controller control connection electric-controlled switch.

6. building solar photoelectric light-heat according to claim 5 utilizes system, it is characterized in that: described controller is connected with LCDs.