CN201690387U - Solar energy temperature difference engine power generation device - Google Patents

Abstract

Provided is a solar energy temperature difference engine power generation device. The device comprises a temperature difference engine, a solar energy cell panel set, and a battery connected to the solar energy cell panel. A chilling and heating plate is connected to the battery and driven by the battery, the heating part of the plate can perform heating and the chilling part of the plate can perform chilling. One end of a heat collector is connected to the temperature difference engine and provides heat, and the other end of the heat collector is connected to the heating part. When the chilling and heating plate performs heating, the temperature of the heat collector can be raised. One end of a chilling groove is connected to the temperature difference engine and provides chilling, and the other end of the heat collector is connected to the chilling part. When the chilling and heating plate performs chilling, the temperature of the heat collector can be reduced. A generator is connected to and driven by the temperature difference engine. Through using the temperature difference between the heat collector and the chilling groove, the temperature difference engine drives the generator to generate power. A set of Fresnel lens is disposed on top of the heat collector and the sunshine is focused on and projected to the heat collector.

Description

Solar energy temperature difference engine power generation device

Technical field

The utility model relates to a kind of device of solar generating, particularly a kind of device of solar generating that utilizes temperature difference driven by engine.

Background technology

Nowadays, along with expanding economy, the whole world is come greatly more to the demand of the energy, traditional energy such as coal, and oil, non-renewable resources such as natural gas all can full consumption in a foreseeable time range.So the energy that the exploitation that people are just positive is new is to tackle the energy crisis of approaching day by day.As a kind of modal and, the importance of its utilization is known by people already than the energy---solar energy that any our present other energy that utilize are all Duoed.Therefore, utilizing solar power generation, is electric energy with conversion of solar energy, is that people are always in the direction of active research.With conversion of solar energy is that the method for electric energy is divided into two kinds: a kind of is photovoltaic generation, according to the photovoltaic effect principle, utilizes solar cell that solar energy is converted into electric energy; Another kind is a photo-thermal power generation, and solar energy collecting is got up, and heating working medium drives turbo generator.

Temperature difference engine generator as the Stirling engine generator, utilizes the temperature difference exactly, and cause the interior gaseous exchange motion of cylinder, thereby drive the piston motion, and then drive generator rotation generating, be a process that is converted into electric energy by conversion of heat into kinetic energy again; Solar energy temperature difference engine generator, utilize the solar energy countercylinder heating of collecting exactly, cause gas in the jar to produce the temperature difference, and carry out convective motion, thereby drive piston, and then drive the generator be attached thereto and generate electricity, being one is that heat energy is converted into kinetic energy again and then is converted into the process of electric energy by conversion of solar energy.But the overall utilance of solar energy is very low, why utilance is lower, reason is because corresponding techniques is not mature enough, cost is higher, also have partly cause to be because tellurian most of area has only directly to receive more intense utilizable sunlight daytime, in case to night, a lot of traditional devices that utilize solar power generation have just stopped work, occur again up to the sun.Thus, the utilization ratio of solar energy is just very low naturally.

Summary of the invention

One of the purpose of this utility model is to provide a kind of solar energy temperature difference engine power generation device, and it has round-the-clock generating capacity.

Two of the purpose of this utility model is to provide a kind of solar energy temperature difference engine power generation device, it has two groups of superconductors, the loss of solar thermal energy in transmission course of collecting can be dropped to minimum, thereby improve the utilization ratio of solar energy, and then improve generating efficiency.

Three of the purpose of this utility model is to provide a kind of solar energy temperature difference engine power generation device, it has a sun control tracing system that automatically moves, and central point that can sun-tracing is strengthened the collection to solar energy, thereby improve the utilization ratio of solar energy, and then improve generating efficiency.

Four of the purpose of this utility model is to provide solar energy temperature difference engine power generation device, because described Blast Furnace Top Gas Recovery Turbine Unit (TRT) is utilized solar power generation fully, so can not produce any pollution, has the environmental protection function.To achieve these goals, the utility model discloses a kind of solar energy temperature difference engine power generation device, it comprises following structure:

A temperature difference engine

One group of solar panel and a coupled storage battery, described solar panel are electric energy with conversion of solar energy and it are stored in the described storage battery;

A refrigeration backing, it connects described storage battery, when described storage battery drives described refrigeration backing and when it power, the portion of heating of described refrigeration backing heated, refrigeration section is freezed, thereby electric energy is converted into heat energy;

A heat collector, the one end is connected with described temperature difference engine and to its heat supply, its other end connects the portion that heats of described refrigeration backing, when described refrigeration backing heats under storage battery drives, described refrigeration backing is to described heat collector heat conduction, to increase the temperature of heat collector;

A cooling groove, the one end is connected with described temperature difference engine and to its cooling, its other end connects the refrigeration section of described refrigeration backing, when described refrigeration backing freezes under storage battery drives, described cooling groove is to the heat conduction of described refrigeration backing, to reduce the temperature of cooling groove;

One is connected with described temperature difference engine and is generator that it drove, described temperature difference engine utilizes the temperature difference between described heat collector and the described cooling groove, with conversion of heat into kinetic energy, produce actuating force to drive described generator for electricity generation, further kinetic energy is converted into electric energy;

One group of Fresnel Lenses, it is arranged on described heat collector top, and described Fresnel Lenses is with solar light focusing and be incident upon on the described heat collector, thereby is that heat energy is supplied with described heat collector with conversion of solar energy, to increase the temperature of heat collector.

Below; to be described further by specific embodiment; yet embodiment only is giving an example of the optional execution mode of the utility model, and its disclosed feature only is used for explanation and sets forth the technical solution of the utility model, and is not used in qualification protection range of the present utility model.

Description of drawings

Fig. 1 is the schematic diagram of solar energy temperature difference engine power generation device of the present utility model.

Fig. 2 is the another kind of execution mode schematic diagram of solar energy temperature difference engine power generation device of the present utility model.

Embodiment

According to claim of the present utility model and the disclosed content of specification, the technical solution of the utility model literary composition specific as follows is described.

As depicted in figs. 1 and 2, solar energy temperature difference engine power generation device of the present utility model comprises following structure:

A temperature difference engine 2;

One group of solar panel 7 and a coupled storage battery 8, described solar panel 7 are electric energy with conversion of solar energy and it are stored in the described storage battery 8;

A refrigeration backing 5, it connects described storage battery 8, and when the described storage battery 8 described refrigeration backings 5 of driving and when it is powered, the portion of heating of described refrigeration backing 5 heats, the refrigeration section refrigeration, thereby electric energy is converted into heat energy;

A heat collector 3, the one end is connected with described temperature difference engine 2 and to its heat supply, its other end connects the portion that heats of described refrigeration backing 5, when described refrigeration backing 5 heats under storage battery 8 drives, described refrigeration backing 5 is to described heat collector 3 heat conduction, to increase the temperature of heat collector 3;

A cooling groove 4, the one end is connected with described temperature difference engine 2 and to its cooling, its other end connects the refrigeration section of described refrigeration backing 5, when described refrigeration backing 5 freezes under storage battery 8 drives, described cooling groove 4 is to described refrigeration backing 5 heat conduction, to reduce the temperature of cooling groove 4;

One is connected with temperature difference engine 2 and is generator 1 that it drove, described temperature difference engine 2 utilizes the temperature difference between described heat collector 3 and the described cooling groove 4, with conversion of heat into kinetic energy, produce actuating force to drive described generator 1 generating, further kinetic energy is converted into electric energy;

One group of Fresnel Lenses 6, it is arranged on described heat collector 3 tops, and described Fresnel Lenses 6 is with solar light focusing and be incident upon on the described heat collector 3, thereby is that heat energy is supplied with described heat collector 3 with conversion of solar energy, to increase the temperature of heat collector 3.

Wherein, described temperature difference engine 2 comprises a cylinder 21 and a piston 22, described cylinder 21 has a hot chamber 211 that links to each other with described heat collector 3 and a cold chamber 212 that links to each other with described cooling groove 4, described piston 22 passes described cold chamber 212, the one end connects described hot chamber 211, and its other end connects external generator 1;

211 inside, described hot chamber are filled with gas working dielectric and receive the heat of described heat collector 3 conduction, to heat up and to aggravate the motion of described gas working dielectric, drive described piston 22 reciprocating motions, thereby with conversion of heat into kinetic energy;

Described piston 22 drives described generator 1 generating, and kinetic energy is converted into electric energy.

Wherein, preferably fill inert gases as the gas working medium medium in described hot chamber 211 and the described cold chamber 212.For improving the operating efficiency of described temperature difference engine 2, the temperature difference between hot chamber 211 and the cold chamber 212 need be provided, preferably, the gas working dielectric of filling in the described hot chamber keeps gaseous state at 100 degrees centigrade between 390 degrees centigrade, the gas working dielectric of filling in the described cold chamber keeps gaseous state between subzero 5 degrees centigrade to subzero 10 degrees centigrade, thereby makes the maximum temperature difference between described hot chamber and the described cold chamber reach 400 degrees centigrade.

In order to reduce the thermal losses in the transmission course, described solar energy temperature difference engine power generation device further comprises first superconductor 10 and second superconductor 11, described first superconductor 10 is installed between described heat collector 3 and the described hot chamber 211, the heat of described heat collector 2 is conducted to described hot chamber 211, thereby hot chamber 211 temperature are raise, described second superconductor 11 is arranged in the described cooling groove 4 and connects described cooling groove 4 and described cold chamber 212, the heat in described cold chamber 212 is conducted to described cooling groove 4, cooling off described cold chamber 212, thereby the temperature in described cold chamber 212 is reduced;

Described first superconductor 10 and second superconductor 11 have high thermal conductivity.Owing to adopted first superconductor 10 and second superconductor 11 with high thermal conductivity, reduce the loss of energy in transmission course greatly, therefore improved utilization ratio, and and then improved generating efficiency collected solar energy.

Preferably, described Fresnel Lenses 6 adopts 500 times to 1000 times eyeglass.

Preferably, the model 12V of described storage battery 8,6A.

Described solar panel 7 with its by the electrical power storage of conversion of solar energy in being attached thereto the described storage battery 8 that connects, and by described storage battery 8 to 5 power supplies of described refrigeration backing, thus described refrigeration backing 5 is heated on one side, the another side refrigeration, by described heat collector 3 with centralized heat energy and transfer to described hot chamber 211, and to 21 gas heated in the described hot chamber, by described cooling groove 4 heat in described cold chamber 212 is derived, and to the gas cooled in the described cold chamber 212, thus, gas in 212 two chambeies in described hot chamber 211 and described cold chamber just can produce the temperature difference, as long as the temperature difference reaches 10 degrees centigrade, the convective motion of intracavity gas can drive 22 runnings of described piston, and then drives described generator 1 running that bearing with it connects with generating.

When sunlight is arranged, described Fresnel Lenses 6 with solar energy collecting on described heat collector 3, with conversion of solar energy is heat energy, conduct to the hot chamber 211 of described temperature difference engine, and to 211 heating of described hot chamber to strengthen the temperature difference between described hot chamber 211 and the described cold chamber 212, move with this described hot chamber 211 and the gas aggravation in the described cold chamber 212, thereby drive the more violent running of described piston 22, heat energy further is converted into kinetic energy again, and then more kinetic energy is converted into electric energy by described generator 1.

Described solar energy temperature difference engine power generation device comprises that further a solar tracking control system 9 is to control the central point of described Fresnel Lenses 6 and described solar panel 7 sun-tracings, thereby improve the collection rate of described Fresnel Lenses 6 and 7 pairs of sunlights of described solar panel, described solar tracking control system is equipped with global positioning system (GPS), with the position of location sun central point.

Under the illumination condition, as in the daytime, the central point of described solar tracking control system 9 described Fresnel Lenses 6 of control and described solar panel 7 sun-tracings, described Fresnel Lenses 6 projects sunlight optically focused on the described solar panel 7, described solar panel 7 is an electric energy with conversion of solar energy, and with electrical power storage in coupled described storage battery 8.Meanwhile, described Fresnel Lenses 6 is with sunlight optically focused and project on the heat collector 3, and described heat collector 3 is a heat energy with conversion of solar energy, thereby the temperature on the heat collector 3 is raise.Described heat collector 3 conducts heat to described hot chamber 211 by described first superconductor 10, with the internal temperature that promotes described hot chamber 211 and with thermal energy conduction to described hot chamber 211 gas inside, thereby make described gas expand, this moment, the internal temperature in described cold chamber 212 was a normal temperature, so itself and 211 inside, hot chamber have formed the temperature difference, hot chamber 211 gas inside expanded and promoted described piston 22 motion actings this moment, and this moment, heat energy further was converted into kinetic energy.Described piston 22 connects by bearing and drives generator 1 work, kinetic energy is converted into electric energy, thereby generates electricity.

When illumination is not enough, as night, described storage battery 8 is to these refrigeration backing 5 power supplies, described thus refrigeration backing 5 is the portion of heating on one side, on one side refrigeration section, electric energy is converted into heat energy, the portion of heating makes the temperature of heat collector 3 raise, and by first superconductor 10 heat is conducted to described hot chamber 211, with the internal temperature that promotes hot chamber 211 and with thermal energy conduction to hot chamber 211 gas inside, thereby make described gas expand; Meanwhile, refrigeration section derives heat by the cooling groove 4 and second superconductor 11 from 212 inside, cold chamber, cool off described cold chamber 212, thereby reduce the internal temperature in cold chamber 212 and reduce cold chamber 212 internal gas heat energy, this moment, hot chamber 211 internal temperatures were higher than ambient temperature and cold chamber 212 internal temperatures are lower than ambient temperature, thereby make and form the temperature difference between the two, at this moment, described hot chamber 211 internal gas expand and the contraction of described cold chamber 212 internal gas, thereby promote the piston 22 motion actings between the two, this moment, heat energy further was converted into kinetic energy.Described piston 22 connects by bearing and drives generator 1 work, kinetic energy is converted into electric energy, thereby generates electricity.Like this, the electric energy of the low-voltage low current of storage battery 8 changes the electric energy with higher voltage value and current value by temperature difference engine 2 at generator 1 place.

Solar energy temperature difference engine power generation device of the present utility model, gas temperature in the described hot chamber 211 can be brought up between 100 degrees centigrade to 390 degrees centigrade, gas temperature in the described cold chamber 212 can be cooled off between subzero 5 degrees centigrade to subzero 10 degrees centigrade, the producible maximum temperature difference in two chambeies can reach 400 degrees centigrade.

In order to improve the electricity conversion of solar energy, preferably, described solar panel 7 is preferably the solar panel 7A that adopts a plurality of GaAs solar wafer to be formed.

Foregoing is exemplifying of specific embodiment of the utility model, for the wherein not equipment of detailed description and structure, should be understood to take existing common apparatus in this area and universal method to be implemented.

The utility model the foregoing description for the usefulness of explanation technical solutions of the utility model, is enumerating of technical solutions of the utility model only only simultaneously, is not limited to the technical solution of the utility model and protection range thereof.Adopt equivalent technologies means, equivalent apparatus etc. the improvement of the utility model claims and the disclosed technical scheme of specification be will be understood that it is not exceed this real utility model right claim and the disclosed scope of specification.

Claims (12)

1. solar energy temperature difference engine power generation device comprises following structure:

A temperature difference engine;

One group of solar panel and a coupled storage battery, described solar panel are electric energy with conversion of solar energy and it are stored in the described storage battery;

A refrigeration backing, it connects described storage battery, when described storage battery drives described refrigeration backing and when it power, the portion of heating of described refrigeration backing heated, refrigeration section is freezed, thereby electric energy is converted into heat energy;

A heat collector, the one end is connected with described temperature difference engine and to its heat supply, its other end connects the portion that heats of described refrigeration backing, when described refrigeration backing heats under storage battery drives, described refrigeration backing is to described heat collector heat conduction, to increase the temperature of heat collector;

A cooling groove, the one end is connected with described temperature difference engine and to its cooling, its other end connects the refrigeration section of described refrigeration backing, when described refrigeration backing freezes under storage battery drives, described cooling groove is to the heat conduction of described refrigeration backing, to reduce the temperature of cooling groove;

One is connected with described temperature difference engine and is generator that it drove, described temperature difference engine utilizes the temperature difference between described heat collector and the described cooling groove, with conversion of heat into kinetic energy, produce actuating force to drive described generator for electricity generation, further kinetic energy is converted into electric energy;

One group of Fresnel Lenses, it is arranged on described heat collector top, and described Fresnel Lenses is with solar light focusing and be incident upon on the described heat collector, thereby is that heat energy is supplied with described heat collector with conversion of solar energy, to increase the temperature of heat collector.

2. solar energy temperature difference engine power generation device as claimed in claim 1, it is characterized in that, described temperature difference engine comprises a cylinder and a piston, described cylinder has a hot chamber that links to each other with described heat collector and a cold chamber that links to each other with described cooling groove, described piston passes described cold chamber, the one end connects described hot chamber, and its other end connects external generator;

Inside, described hot chamber is filled with gas working dielectric and receives the heat of described heat collector conduction, to heat up and to aggravate the motion of described gas working dielectric, drives described reciprocating motion of the pistons, thereby with conversion of heat into kinetic energy;

The described generator for electricity generation of described piston actuated is converted into electric energy with kinetic energy.

3. solar energy temperature difference engine power generation device as claimed in claim 1 is characterized in that, described solar panel is made up of a plurality of GaAs solar wafer.

4. solar energy temperature difference engine power generation device as claimed in claim 2 is characterized in that, described solar panel is made up of a plurality of GaAs solar wafer.

5. solar energy temperature difference engine power generation device as claimed in claim 1, it is characterized in that, described solar energy temperature difference engine power generation device further comprises a sun control tracing system that moves automatically, central point that can sun-tracing, reinforcement is to the collection of solar energy, thereby improve the utilization ratio of solar energy, and then improve generating efficiency.

6. solar energy temperature difference engine power generation device as claimed in claim 4, it is characterized in that, described solar energy temperature difference engine power generation device further comprises a sun control tracing system that moves automatically, central point that can sun-tracing, reinforcement is to the collection of solar energy, thereby improve the utilization ratio of solar energy, and then improve generating efficiency.

7. solar energy temperature difference engine power generation device as claimed in claim 1, it is characterized in that, described solar energy temperature difference engine power generation device further comprises first superconductor and second superconductor, described first superconductor is installed between described heat collector and the described hot chamber, the heat of described heat collector is conducted to described hot chamber, thereby hot cavity temperature is raise, described second superconductor is arranged in the described cooling groove and connects described cooling groove and described cold chamber, the heat in described cold chamber is conducted to described cooling groove, cooling off described cold chamber, thereby the temperature in described cold chamber is reduced;

Described first superconductor and second superconductor have high thermal conductivity, to reduce the thermal losses in the transmission course.

8. solar energy temperature difference engine power generation device as claimed in claim 6, it is characterized in that, described solar energy temperature difference engine power generation device further comprises first superconductor and second superconductor, described first superconductor is installed between described heat collector and the described hot chamber, the heat of described heat collector is conducted to described hot chamber, thereby hot cavity temperature is raise, described second superconductor is arranged in the described cooling groove and connects described cooling groove and described cold chamber, the heat in described cold chamber is conducted to described cooling groove, cooling off described cold chamber, thereby the temperature in described cold chamber is reduced;

Described first superconductor and second superconductor have high thermal conductivity, to reduce the thermal losses in the transmission course.

9. solar energy temperature difference engine power generation device as claimed in claim 5 is characterized in that, described sun control tracing system is equipped with global positioning system (GPS), with the position of location sun central point.

10. solar energy temperature difference engine power generation device as claimed in claim 8 is characterized in that, described sun control tracing system is equipped with global positioning system (GPS), with the position of location sun central point.

11. solar energy temperature difference engine power generation device as claimed in claim 2, it is characterized in that, the gas working dielectric of filling in the described hot chamber keeps gaseous state at 100 degrees centigrade between 390 degrees centigrade, the gas working dielectric of filling in the described cold chamber keeps gaseous state between subzero 5 degrees centigrade to subzero 10 degrees centigrade, thereby makes the maximum temperature difference between described hot chamber and the described cold chamber reach 400 degrees centigrade.

12. solar energy temperature difference engine power generation device as claimed in claim 10, it is characterized in that, the gas working dielectric of filling in the described hot chamber keeps gaseous state at 100 degrees centigrade between 390 degrees centigrade, the gas working dielectric of filling in the described cold chamber keeps gaseous state between subzero 5 degrees centigrade to subzero 10 degrees centigrade, thereby makes the maximum temperature difference between described hot chamber and the described cold chamber reach 400 degrees centigrade.

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