CN207475432U - A kind of temperature difference electricity generation device - Google Patents

Abstract

The utility model discloses a kind of temperature difference electricity generation device, including：First conductor（1）, the second conductor（2）, the first conductor（1）With the second conductor（2）Between be provided with dielectric（5）, dielectric（5）With the second conductor（2）Between be provided with conductor mesh（3）And electrolyte（4）, conductor mesh（3）With the second conductor（2）Between be provided with insulation net（6）, the first conductor（1）With the second conductor（2）Or conductor mesh（3）By conducting wire plus voltage, conductor mesh（3）With second conductor（2）Positive and negative electrode is drawn by conducting wire externally to do work.Its main feature is that simple for process, be very suitable for using have a very wide distribution, heat source that the temperature difference is small generates electricity.Solves existing thermoelectric generation film complex process, monolithic thermoelectric generation film is smaller, it is difficult to the problem of being used to generate electricity using the heat source having a very wide distribution, the temperature difference is small.

Description

A kind of temperature difference electricity generation device

Technical field

The present invention relates to generating equipment technical field, more particularly to a kind of temperature difference electricity generation device.

Background technology

Thermo-electric generation is a kind of novel generation mode, it is that thermal energy is converted directly into electric energy using Seebeck effect, When two kinds of different metals（Or semiconductor）A closed circuit is connected into, their contact is put into two different ground of temperature Side, then total pyroelectric effect（Also known as thermoelectric effect）By simultaneous four kinds of different effects：Seebeck effect, Peltier effect It answers, Thomson effect（Thomson effect）, Joule effect（Joule effect）.Wherein, first three effect is electrically and thermally The reversible effect that can mutually convert.And another effect, that is, Joule effect is then irreversible effect.These four effects are formed The theoretical foundation of thermoelectric research.

Since Seebeck in 1821 has found Seebeck effects, foreign countries have carried out thermo-electric generation a large amount of research, and 1947 Year, First thermoelectric generator appearance efficiency is only 1.5%, and thermoelectric generator is used successfully to space flight and flies in subsequent decades On machine, military affairs and ocean are explored, in the early 1980s, the development that the military thermoelectric generators of 500~1000W are completed in the U.S. is same Shi Ben Armed Forces have carried out a row with the government planned that " solid waste combustion energy recovery project " is topic, and research is used In the waste-heat power generation technology of solid waste incinerator, turbine and thermoelectric generator are combined, realize different scales waste incineration The maximum of heat utilizes.

Due to unique advantage, the application of thermoelectric generation civil field in recent years is equally quickly grown.But it uses at present In the thermoelectric generation film of thermo-electric generation, monolithic area is smaller, and structural manufacturing process is complicated, and cost is higher；To obtain larger work( Rate generally requires Muti-Procssor work, particularly when using thermal energy caused by the low solar radiation of the wide temperature difference is distributed, not only Magnanimity temperature difference piece is needed to work together, efficiency is very uneconomical also than relatively low.

Invention content

To solve the above problems, the present invention is more particularly directed to a kind of temperature difference electricity generation device, used temperature difference electricity generation device, Heating surface and radiating surface bigger can make full use of the thermal energy that distribution is wide and the temperature difference is relatively low, and the present apparatus is simple in structure, manufacture Simple for process, cost is relatively low, and efficiency is higher.

Technical solution is as follows：

As shown in Figure 1, a kind of temperature difference electricity generation device includes：First conductor 1, the second conductor 2, the first conductor 1 are led with second Dielectric 5 is provided between body 2, is provided with conductor mesh 3 and conduction liquid 4 between 5 and second conductor 2 of dielectric, first leads 1 and second conductor 2 of body or conductor mesh 3 or conduction liquid 4 are by conducting wire added with voltage, and conductor mesh 3 is with second conductor 2 by leading Line draws positive and negative electrode.

Principle is as follows：

As shown in figure 3, when applying voltage to the first conductor 1 and the second conductor 2, will appear in conduction liquid 4 it is unpaired from Son 11, the unpaired ion 11 between the 3 to the second conductor of conductor mesh 2 in ANALOGY OF BOLTZMANN DISTRIBUTION, and due to the first conductor 1 with Second leads between 2 bodies and has the temperature difference, can spontaneous carry out heat transmission, (be similar to and boil water but water so as to make to be formed circulation 15 in conduction liquid 4 Not boiling but also can up and down rolling form circulation), the circulation 15 pushes the unpaired ion 11 in conduction liquid 4 to do orientation fortune It is dynamic so as to form voltage between 3 and second conductor 2 of conductor mesh, 3 and second conductor 2 of conductor mesh and load are connect by conducting wire line RL, so as to which load RL be driven externally to do manual work.

Experiment proves：

First conductor 1 and 2 temperature of the second conductor are higher, and the temperature difference is bigger, and exportable power is bigger.

It is higher to the first conductor 1 and DC voltage that the second conductor 2 applies, and when dielectric 5 is not breakdown, it is exportable Power is bigger.

To the first conductor 1 it is identical with the DC voltage that the second conductor 2 applies when, the first conductor 1, the second conductor 2, conductor mesh 3 facing areas are bigger, and exportable power is bigger.

To the first conductor 1 and the second conductor 2 apply DC voltage it is identical when, the first conductor 1 is with conductor mesh 3 closer to that is, Dielectric 5 is thinner, and when dielectric 5 is not breakdown, and exportable power is bigger.

When the first conductor 1 and the second conductor 2 apply alive input voltage it is reversed when, conductor mesh 3 is exported with the second conductor 2 Voltage is also reversed.

Description of the drawings

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is the structure diagram of conductor mesh 3.

Fig. 3 is the principle of the present invention structure diagram.

Fig. 4 is one structure diagram of preferred embodiment.

Fig. 5 is two structure diagram of preferred embodiment.

Fig. 6 is three structure diagram of preferred embodiment.

Fig. 7 is four structure diagram of preferred embodiment.

Fig. 8 is five structure diagram of preferred embodiment.

Fig. 9 is six structure diagram of preferred embodiment.

Figure 10 is seven structure diagram of preferred embodiment.

Reference sign：

1-the first conductor, the 2-the second conductor, 3-conductor mesh, 4-conduction liquid, 5-dielectric, 6-insulation net, 8- Battery pack, 11-unpaired ion, 15-circulation, 18-polyvinyl chloride is cross-section, 19-container, 20-boost module, U-electricity Pressure, RL-load, K-switch, A-A electrodes, B-B electrodes, C-C electrodes.

Explanation of nouns：

Conduction liquid：The conductive liquid of energy, including strong electrolyte, weak electrolyte, pure water, ammonium hydroxide etc..

Gaseous conductor：Gaseous material or gaseous mixture that under certain conditions can be conductive, including gas or steam etc..

First conductor, the second conductor：Conductor, the conductive substance of energy, herein refers to two pieces of opposite electrode plates.

Dielectric：Can prevent the substance or vacuum of current flowing, including polyvinyl chloride, glass, epoxy resin, air, Oxygen, vacuum etc..

Conductor mesh：A kind of conductor or conductor construct, its main feature is that solid particle, liquid or gas can be allowed from one While penetrating another side, the conductive member in several holes is drilled out including the conductive mesh being woven into conductor silk or on conductor surface Or the mesh number being plated on dielectric is more than conductive coating of 1 mesh etc..

Insulate net：A kind of insulator or insulator construct, its main feature is that can allow solid particle, liquid or gas from Its one side penetrates another side, and the component in several holes is bored including the mesh being woven into insulator silk or in insulation dignity Deng.

Boost module：A kind of circuit module, its main feature is that can by the low-voltage of input by circuit conversion into high voltage Module.

Battery pack：The power supply being made of one piece or one piece or more battery.

Specific embodiment

Preferred embodiment one

As shown in figure 4, the embodiment of the present invention one, by the first conductor 1, the second conductor 2, the first conductor 1 is led with second Dielectric 5 is provided between body 2, conductor mesh 3 and conduction liquid 4, conductor mesh 3 are provided between 5 and second conductor 2 of dielectric Insulation net 6, the first conductor 1 and the second conductor 2 or conductor mesh 3 are provided between the second conductor 2 by conducting wire plus voltage, is led Body net 3 draws positive and negative electrode by conducting wire with second conductor 2 and gives load RL power supplies, wherein the first conductor 1, the second conductor 2 Including all substances that can be conductive.

Further, in this preferred embodiment dielectric 5 can by vacuum, air, oxygen, ceramics, polyvinyl chloride, rubber, The compositions such as epoxy resin；This programme is chosen long 3.1 meters wide 2.1 meters of thickness and is made of 3 millimeters of polyvinyl chloride panel.

Further, the second conductor 2 can be made of copper, iron, gold, silver, graphite etc. in this preferred embodiment；This programme chooses length 3 meters wide 2 meters of thickness are made of 10 millimeters of copper plate.

Further, the first conductor 1, the second conductor 2 include gold, silver, copper, iron, platinum, graphite, graphene or with spray or Be plated in conductive coating on dielectric 5 and replace the first conductor 1, in this preferred embodiment the first conductor 1 can by copper, iron, gold, silver, The compositions such as platinum, graphite, graphene or conduction liquid, the first conductor 1 can be in 5 sides of dielectric, can also be in dielectric 5 Portion, it is fully wrapped around or the first conductor 1 is sprayed or be plated in 5 side of dielectric by dielectric 5；This programme is chosen 3 meters long Wide 2 meters of thickness are made of 1 millimeter of copper plate, and with the fully wrapped around copper plate of dielectric 5, but there are pick out conducting wire Hole, with conductive extraction electrode.

During the 5 fully wrapped around copper plate of dielectric, can have during high voltage between the first conductor 1 and the second conductor 2 Effect prevents from leaking electricity.

Further, conductor mesh 3 can be made of netted copper, iron, gold, silver, graphite etc. in this preferred embodiment, and this programme is chosen 3 meters wide 2 meters of the copper mesh of length that a diameter of 0.1 millimeter of copper wire is woven into 60 mesh is made, and is close to dielectric 5 and with first 1 face of conductor is placed.

Further, it to prevent 3 and second conductor of conductor mesh, 2 short circuit, can be set between 3 and second conductor 2 of conductor mesh Insulate net 6, and the insulation net 6 can be made of polyvinyl chloride, rubber, ceramics etc.；This programme chooses a diameter of 1 millimeter of polychlorostyrene second Alkene silk is woven into the 2.1 meters 3.1 meters wide polyvinyl chloride net of length of 20 mesh, and is close to the placement of 3 face of conductor mesh.

Further, conduction liquid 4 can be by structures such as distilled water, NaCl solution, dilute sulfuric acid, acetic acid lead solutions in this preferred embodiment Into；This programme is chosen acetic acid lead solution and is uniformly sprayed on dielectric 5.

Second conductor 2 is close to place with insulation 6 face of net.

By battery pack and boost module component, 20000 volts of high pressures are added between the first conductor 1 and the second conductor 2.

Second conductor 2 by conducting wire with the earth is connected, prevents electric leakage from hurting sb.'s feelings.

Second conductor 2 towards the sun is placed, the temperature difference is generated between the second conductor 2 and dielectric 5 after a period of time, leads 3 and second conductor 2 of body net can be to loading RL electromotive power outputs by conducting wire.

Preferred embodiment two

As shown in figure 5, the embodiment of the present invention two, by the first conductor 1, the second conductor 2, the first conductor 1 is led with second Conductor mesh 3 is provided between body 2, conduction liquid 4, the first conductor 1 and the second conductor 2 are provided between 3 and second conductor 2 of conductor mesh Or conductor mesh 3 draws positive and negative electrode plus voltage, conductor mesh 3 and second conductor 2 by conducting wire by conducting wire.

Further, the second conductor 2 is made of long 10 centimetres wide 5 cm thick of 2 millimeters of copper plate in this preferred embodiment.

Further, the first conductor 1 is made of long 10 centimetres wide 5 cm thick of 2 millimeters of copper plate in this preferred embodiment, It is placed with 2 face of the second conductor.

Further, conductor mesh 3 is woven into 10 lis of the length of 80 mesh by a diameter of 0.3 millimeter of copper wire in this preferred embodiment The individual layer red copper net of wide 5 centimetres of rice is made, and 3 and first conductor 1 of conductor mesh is at a distance of 2 centimetres, and conductor mesh 3 is with conductor 2 at a distance of 5 millis Rice, mutually face placement and mutually cannot short circuit.

Further, conduction liquid 4 is made of acetic acid lead solution in this preferred embodiment, and be uniformly sprayed at conductor mesh 3 with Between second conductor 2.

Further, 5000 volts of voltages are added between the first conductor 1 and the second conductor 2.

Second conductor 2 is placed towards the sun, the second conductor 2 generates the temperature difference, conductor mesh 3 with conductor mesh 3 after a period of time It can be to loading RL output powers by conducting wire with the second conductor 2.

Preferred embodiment three

As shown in fig. 6, the embodiment of the present invention three, in the container 19 of insulating materials polyvinyl chloride composition, the appearance Device grows 50 centimetres wide 50 centimetres 10 centimetres high, 5 centimetres of 19 wall thickness of container, and polyvinyl chloride cross-section 18 thickness in centre is 5 millis Rice all adds in NaCl solution 4 in the right and left, and the copper wire of a diameter of 0.1 millimeter of left side insertion is woven into 50 lis of the length of 60 mesh The red copper net 3 of wide 50 centimetres of rice, and against intermediate polyvinyl chloride cross-section 18, and face is placed, in the right and left NaCl solution 1 second electrode 2 of first electrode is drawn respectively, and third electrode 3 is drawn in red copper net 3.

Further, 5000 volts of voltages are added between first electrode 1 and second electrode 2.

Further, the temperature on the right is made to be higher than the right higher than the temperature on the left side or the left side.

Further, we have voltage difference between can measuring 3 and the 2nd 2 electrode of third electrode, further, connect Electric current can be measured by loading us.

Preferred embodiment four

As shown in fig. 7, the embodiment of the present invention four, by the first conductor 1, the second conductor 2, the first conductor 1 is led with second Dielectric 5 is provided between body 2, conductor mesh 3 and conduction liquid 4, conductor mesh 3 are provided between 5 and second conductor 2 of dielectric Insulation net 6, the first conductor 1 and the second conductor 2 or conductor mesh 3 are provided between the second conductor 2 by conducting wire plus voltage, is led Body net 3 draws positive and negative electrode with second conductor 2 by conducting wire.

Further, the polyvinyl chloride panel that dielectric 5 is 3 millimeters by long 1.1 meters wide 0.6 meter of thickness in this preferred embodiment It is made.

Further, the second conductor 2 is made of long 1 meter wide 0.5 meter of thickness of 10 millimeters of graphite cake in this preferred embodiment.

Further, the first conductor 1 is made of the graphite for being sprayed on 5 side of dielectric in this preferred embodiment.

Further, conductor mesh 3 is woven into 1 meter of the length of 60 mesh by a diameter of 0.1 millimeter of copper wire in this preferred embodiment Wide 0.5 meter of red copper net is made, and is close to the placement of 5 and first conductor of dielectric, 1 face.

Further, insulation net 6 is placed between 3 and second conductor 2 of conductor mesh, the insulation net 6 is compiled by polyvinyl chloride silk The length of 20 mesh polyvinyl chloride net composition 0.6 meter 1.1 meters wide is made into, and is close to the placement of 3 face of conductor mesh.

Further, conduction liquid 4 is made of distilled water in this preferred embodiment, and distilled water is uniformly sprayed to dielectric 5 Between the second conductor 2, and insulation net 6 is made to be close to the second conductor 2, and face is placed.

Further, the first conductor 1 and the second conductor 2 or 3 making alives of conductor mesh are to pass through boost module 20 by power supply It provides, the power supply includes：The positive and negative electrode that battery or battery pack 8 or conductor mesh 3 are drawn with second conductor 2 by conducting wire The power supply collectively constituted with battery pack 8 after specific battery pack is boosted by boost module 20, is led in the first conductor 1 with second 20000 volts of high pressures are added between body 2.

Further, the second conductor 2 is placed towards the sun, the second conductor 2 generates temperature with dielectric 5 after a period of time Difference, 3 and second conductor 2 of conductor mesh can be to loading RL output powers by conducting wire.

Further, battery pack 8 is disconnected, the voltage of 3 and second conductor 2 of conductor mesh output passes through 20 liters of boost module After pressure voltage is provided for the first conductor 1 and the second conductor 2.

Preferred embodiment five

As shown in figure 8, the embodiment of the present invention five, takes the polyvinyl chloride panel 5 for growing 2 meters wide 0.5 millimeter of 1 meter of thickness, in polychlorostyrene 5 side of vinyl plate plating last layer platinum 1, and extraction electrode A；Conductor mesh is replaced with the conductor coating for spraying or being plated in dielectric 5 3, the conductor thickness of coating is less than 100 nanometers, and it is 0.05 millimeter 300 specifically to plate line width in 5 opposite side of polyvinyl chloride panel Purpose platinum guaze 3,3 thickness of coating of platinum guaze are less than 100 nanometers, and extraction electrode B, take a diameter of 0.1 millimeter of polyvinyl chloride silk weaving The insulation net 6 1.1 meters 2.1 meters wide into the length of 100 mesh；Insulation net 6 is close to place with 3 face of platinum guaze；And on insulation net 6 Even one layer of pure water of spray；The polyvinyl chloride panel 51 of long 2 meters wide 0.3 millimeter of 1 meter of thickness is taken, last layer is plated in 51 side of polyvinyl chloride panel Platinum 2, and extraction electrode C；There are the one side of platinum coating and insulation 6 face of net to place polyvinyl chloride panel 51.

Further, 500 volts of voltages are added between electrode A and electrode C.

When having the temperature difference between polyvinyl chloride panel 5 and polyvinyl chloride panel 51, voltage can be measured between electrode B and electrode C, It can outside output power when connecting external load.

Preferred embodiment six

As shown in figure 9, the embodiment of the present invention six, takes the polyvinyl chloride panel 5 for growing 2 meters wide 0.5 millimeter of 1 meter of thickness, in polychlorostyrene 5 side of vinyl plate plating last layer platinum coating 1, and extraction electrode A；Opposite side plating last layer platinum coating 3,3 thickness of coating of platinum coating Less than 10 nanometers, and extraction electrode B, the length for taking a diameter of 0.1 millimeter of polyvinyl chloride silk weaving into 50 mesh is 1.1 meters 2.1 meters wide Insulate net 6；Insulation net 6 is close to place with 3 face of platinum coating；And uniformly spray one layer of pure water on insulation net 6；It takes 2 meters long The polyvinyl chloride panel 51 of wide 0.3 millimeter of 1 meter of thickness, the plating last layer platinum coating 2 in 51 side of polyvinyl chloride panel, and extraction electrode C；It will Polyvinyl chloride panel 51 has the one side of platinum coating and insulation 6 face of net to place.

Further, 500 volts of voltages are added between electrode A and electrode C.

When having the temperature difference between polyvinyl chloride panel 5 and polyvinyl chloride panel 51, voltage can be measured between electrode B and electrode C, It can outside output power when connecting external load.

Preferred embodiment seven

As shown in Figure 10, the embodiment of the present invention seven take the epoxy resin board 5 of long 2 meters wide 0.5 millimeter of 1 meter of thickness, in epoxy 5 side of resin plate plating last layer platinum coating 1, and extraction electrode A；Opposite side plates a layer line width as 0.05 millimeter of 200 mesh thickness Platinum guaze coating 3 less than 0.01 millimeter, 3 thickness of coating of platinum guaze coating are less than 0.05 millimeter, and extraction electrode B, take a diameter of 0.1 The epoxy resin silk weaving of millimeter is into the length of 50 mesh insulation net 6 1.1 meters 2.1 meters wide；Insulation net 6 and 3 face of platinum guaze coating is tight It is placed with and puts；And uniformly spray one layer of pure water 4 on insulation net 6；The polyvinyl chloride panel 51 of long 2 meters wide 0.3 millimeter of 1 meter of thickness is taken, 51 side of polyvinyl chloride panel plating last layer platinum 2, and extraction electrode C；Polyvinyl chloride panel 51 there are into the one side of platinum coating and the net 6 that insulate Face is placed.

Further, 500 volts of voltages are added between electrode A and electrode C.

Conduction liquid 4 is replaced with gaseous conductor, the gaseous conductor includes water vapour, by epoxy resin 5 and epoxy resin 51 It is bonded with high-temperature insulation glue 52 and stays an aperture, heated epoxy resin 51, make the pure water between epoxy resin 5 and epoxy resin 51 Gasification forms vapor.

When having the temperature difference between epoxy resin 5 and epoxy resin 51, voltage can be measured between electrode B and electrode C, is connected It can outside output power during external load.

Preferred embodiment eight

The embodiment of the present invention eight using the device of preferred embodiment five as a temperature-difference power generation module, and this temperature difference is sent out Electric module is overlapped 5 pieces, is in series between the output electrode of each module, the temperature-difference power generation module group as a thickening；Take 5 pieces Row is laid at the top of house the temperature-difference power generation module group of thickening side by side mutually, and the thickening temperature-difference power generation module is mutually in parallel, this When we to can be obtained by a solar range that can be absorbed simultaneously wider, efficiency also higher temperature-difference power generation module group, Its electric current bigger that can be exported, voltage higher, power are stronger, to the utilization ratio of solar energy also by higher.

Preferred embodiment nine

The embodiment of the present invention nine, preferred embodiment five be can be made smaller, thinner, by this smaller, thinner thermo-electric generation Module is superimposed together mutually, and by output terminal by series, parallel, we can be obtained by compact, a more efficient temperature Poor electricity generation module group；This temperature-difference power generation module group can be as a part for the electrical appliances such as mobile phone, notebook or as spare Battery uses or as main battery as the charging charging source to primary accumulator.

Basic principle, main feature and the present invention of the present invention has been shown and described in the above-mentioned preferred embodiment for the present invention The advantages of.Those skilled in the art should be recognized that the present invention is not limited to the above embodiments, above embodiments and description Described in merely illustrate the principles of the invention, without departing from the spirit and scope of the present invention the present invention also have it is various Changes and improvements, these changes and improvements all fall within the protetion scope of the claimed invention.

Claims (17)

1. a kind of temperature difference electricity generation device, it is characterised in that：Including the first conductor（1）, the second conductor（2）, the first conductor（1）With Two conductors（2）Between be provided with dielectric（5）, dielectric（5）With the second conductor（2）Between be provided with conductor mesh（3）With Conduction liquid（4）, the first conductor（1）With the second conductor（2）Or conductor mesh（3）Or conduction liquid（4）By conducting wire added with voltage, conductor Net（3）With second conductor（2）Positive and negative electrode is drawn by conducting wire.

2. a kind of temperature difference electricity generation device according to claim 1, it is characterised in that：Conductor mesh（3）It is a kind of conductor or leads Body construct, its main feature is that solid particle, liquid or gas can be allowed to be passed into another side from its one side.

3. a kind of temperature difference electricity generation device according to claim 2, conductor mesh（3）It is the reticulated conductive being woven by conductor silk Drilled out on object conductor surface more than a hole conductive member or be plated in dielectric（5）Upper and mesh number is led more than 1 purpose Electroplated layer.

4. a kind of temperature difference electricity generation device according to claim 3, conductor mesh（3）It is less than 0.1 millimeter of copper wire including diameter Be woven into more than 20 mesh copper mesh or be plated in dielectric（5）Upper line width is less than 0.1 millimeter and mesh number is more than the copper of 200 mesh Net coating.

5. a kind of temperature difference electricity generation device according to claim 1, it is characterised in that：The dielectric（5）It is by that can hinder Only the substance of current flowing or vacuum are formed.

6. a kind of temperature difference electricity generation device according to claim 5, the dielectric（5）Including polyvinyl chloride, glass, ring Oxygen resin, air, oxygen or vacuum.

7. a kind of temperature difference electricity generation device according to claim 6, it is characterised in that：The dielectric（5）By polychlorostyrene second Alkene plate is formed, first conductor（1）It is arranged in polyvinyl chloride panel.

8. temperature difference electricity generation device according to claim 1, it is characterised in that：Conductor mesh（3）With the second conductor（2）Between set It is equipped with insulation net（6）.

9. a kind of temperature difference electricity generation device according to any one of claim 1 to 8, it is characterised in that：Described first leads Body（1）With the second conductor（2）Or conductor mesh（3）Institute's making alive is to pass through boost module by power supply（20）It provides.

10. a kind of temperature difference electricity generation device according to claim 9, it is characterised in that：The power supply includes：Battery or battery Group（8）Or conductor mesh（3）With second conductor（2）The positive and negative electrode and battery pack drawn by conducting wire（8）It collectively constitutes Power supply.

11. a kind of temperature difference electricity generation device according to any one of claim 1 to 8, it is characterised in that：First conductor （1）, the second conductor（2）Including all substances that can be conductive.

12. a kind of temperature difference electricity generation device according to claim 11, it is characterised in that：First conductor（1）, the second conductor （2）Including gold or silver or copper or iron or platinum or graphite or graphene.

13. a kind of temperature difference electricity generation device according to any one of claim 1 to 8, with spraying or be plated in dielectric （5）Conductor coating replace conductor mesh（3）.

14. a kind of temperature difference electricity generation device according to claim 13, it is characterised in that：The conductor thickness of coating is less than 100 nanometers.

15. a kind of temperature difference electricity generation device according to any one of claim 1 to 8, conduction liquid is replaced with gaseous conductor （4）.

16. a kind of temperature difference electricity generation device according to claim 15, it is characterised in that：The gaseous conductor is steamed including water Vapour.

17. a kind of temperature difference electricity generation device according to any one of claim 1 to 8, it is characterised in that：With spraying or plating In dielectric（5）On conductive coating replace the first conductor（1）.