CN214591211U

CN214591211U - Waste heat power supply conversion device

Info

Publication number: CN214591211U
Application number: CN202120533352.9U
Authority: CN
Inventors: 熊谷弘树
Original assignee: Foshan Gaosha Industrial Kiln Co ltd
Current assignee: Foshan Gaosha Industrial Kiln Co ltd
Priority date: 2020-09-16
Filing date: 2021-03-15
Publication date: 2021-11-02
Anticipated expiration: 2031-03-15
Also published as: CN214666101U; JP2022049287A; CN113063294A; CN215864598U

Abstract

The utility model discloses a waste heat power supply conversion equipment relates to waste heat power supply equipment field, and the cost that exists to current waste heat power supply conversion equipment is high, and required place is great, is difficult to popularize in middle-size and small-size enterprise, and the problem that generating efficiency is low, and present proposes following scheme, and it includes the heated board, the heated board is the symmetry setting, two the heated board is connected with the insulating layer, two thermal-arrest board and condensation plate are installed respectively to the one end inboard that the heated board was kept away from each other to the heated board, insulation ceramic plate, two are all installed to one side that insulation ceramic plate kept away from condensation plate and thermal-arrest board respectively, two the copper conductor is connected with P type component and N type component, two the heated board lateral wall all is provided with the vacuum layer. The utility model discloses novel structure, and simple structure, work efficiency is high, and electric power is balanced, and the safety in utilization is high.

Description

Waste heat power supply conversion device

Technical Field

The utility model relates to a waste heat power supply equipment field especially relates to a waste heat power supply conversion equipment.

Background

The waste heat power supply conversion is also called as waste heat power generation, the waste heat power generation is directly carried out by utilizing the discharged waste gas, fuel consumption is not needed, pollution is not generated in the power generation process, the waste heat power generation method is a green power generation technology which has considerable economic benefit, is clean and environment-friendly and accords with the policy of clean energy-saving industry, and has very wide development space and prospect.

The waste heat power supply conversion device used in the market at present is mostly large-scale apparatus, still has not enough in the use, and the cost is high, and required place is great, is difficult to popularize in middle-size and small-size enterprise, and the generating efficiency is low, is used for roller kilns in particular, and the heating temperature of its roller kilns is very high, and its waste heat is big, if can effective recycle, is a big innovation, consequently, in order to solve this type of problem, we have provided one kind and have been used for roller kilns waste heat power supply conversion device.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of waste heat power supply conversion equipment has solved the cost that current waste heat power supply conversion equipment exists and is high, and required place is great, is difficult to popularize in middle-size and small-size enterprise, and the problem that generating efficiency is low.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a waste heat power supply conversion device comprises heat insulation plates, wherein the heat insulation plates are symmetrically arranged, two heat insulation plates are connected with a heat insulation layer, the inner sides of the ends, away from each other, of the two heat insulation plates are respectively provided with a heat collection plate and a condensation plate, one sides, away from the heat insulation plates, of the condensation plate and the heat collection plate are respectively provided with an insulating ceramic plate, one sides, away from the condensation plate and the heat collection plate, of the two insulating ceramic plates are respectively provided with a copper conductor, the two copper conductors are connected with a P-shaped element and an N-shaped element, the side walls of the two heat insulation plates are respectively provided with a vacuum layer, the side walls, away from the heat insulation plates, of the two vacuum layers are respectively provided with a protective shell, one side, away from the insulating ceramic plates, of the heat collection plate is provided with heat conduction vacuum tubes, the heat conduction vacuum tubes are uniformly arranged, the heat conduction vacuum tubes penetrate through the heat insulation plates, the vacuum layers and the protective shells, and the two ends of the copper conductors are respectively connected with power wires, and the two power lines are connected with a storage battery.

Preferably, two the power cord all with be close to the copper conductor of condensing plate one end is connected, and two the power cord all runs through heated board, vacuum layer and protective housing.

Preferably, the heat insulating layer is a square, and the inner sides of the two heat insulating plates and the side wall of the protective shell are respectively flush with the inner side wall and the outer side wall of the heat insulating layer.

Preferably, the copper conductors are uniformly distributed on the two insulating ceramic plates respectively, and the P-type elements and the N-type elements are uniformly distributed between the copper conductors.

Preferably, two insulating ceramic plate, heated board, vacuum layer, protective housing and condenser plate and heated board all use the axis of insulating layer as the symmetry axis and are the symmetry setting.

Preferably, the insulating ceramic plates are all connected with the inner sides of the heat insulation plates and are made of ceramic materials.

The utility model has the advantages that:

1. keep warm to thermal-arrest board, condensing panel and copper conductor through setting up heated board and vacuum layer, and keep apart two kinds of temperatures through the insulating layer, guarantee that its self temperature is not influenced, reduce the temperature and run off, optimize the difference in temperature effect, be convenient for carry out the conversion of waste heat power supply, improve work efficiency.

2. Carry out insulating isolation to copper conductor through setting up insulating ceramic plate, under the prerequisite of guaranteeing that it can normally lead the temperature, insulate the electric power that waste heat power supply conversion produced, improve the security.

3. The electric power generated by the conversion of the waste heat power supply is collected into the storage battery through the power line for storage, so that the electric power is convenient to store, the electric power use is coordinately controlled, and the electric power unevenness generated by direct use is avoided.

In conclusion, the waste heat power supply conversion device has the advantages of simple structure, high working efficiency, balanced power and high use safety,

drawings

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

Fig. 2 is a schematic sectional view of the present invention.

Fig. 3 is a working principle diagram of the present invention.

Reference numbers in the figures: 1. a thermal insulation board; 2. a heat collecting plate; 3. a condensing plate; 4. an insulating ceramic plate; 5. a copper conductor; 6. a P-type element; 7. an N-type element; 8. a vacuum layer; 9. a protective housing; 10. a heat conducting vacuum tube; 11. a power line; 12. a storage battery; 13. an insulating layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a waste heat power conversion device comprises insulation boards 1, wherein the insulation boards 1 are symmetrically arranged, two insulation boards 1 are connected with a thermal insulation layer 13, a heat collecting plate 2 and a condensing plate 3 are respectively installed on the inner sides of the ends, far away from each other, of the two insulation boards 1, an insulation ceramic plate 4 is installed on one sides, far away from the insulation board 1, of the condensing plate 3 and the heat collecting plate 2, two copper conductors 5 are respectively installed on one sides, far away from the condensing plate 3 and the heat collecting plate 2, of the two insulation ceramic plates 4, the two copper conductors 5 are connected with a P-type element 6 and an N-type element 7, vacuum layers 8 are respectively installed on the side walls of the two insulation boards 1, protective shells 9 are respectively installed on the side walls, far away from the insulation board 1, of the two vacuum layers 8, heat conducting vacuum tubes 10 are installed on one side, far away from the insulation board 4, of the heat conducting vacuum tubes 10 are uniformly arranged, and the heat conducting vacuum tube 10 penetrates through the heat insulation plate 1, the vacuum layer 8 and the protective shell 9, two ends of the copper conductor 5 are connected with power lines 11, and the two power lines 11 are connected with a storage battery 12.

In this embodiment, two power cord 11 all with be close to the copper conductor 5 of 3 one ends of condensation plate is connected, and two power cord 11 all runs through heated board 1, vacuum layer 8 and protective housing 9, through power cord 11 with the electric power transmission to battery 12 that waste heat power supply conversion produced, through battery 12 saves electric power, under the prerequisite of guaranteeing that its electric power is not wasted, improves the voltage stability that electric power used.

Further, insulating layer 13 is back style of calligraphy, two the inboard of heated board 1 and protective housing 9's lateral wall flush with insulating layer 13's inside wall and lateral wall respectively, two insulating ceramic plate 4, heated board 1, vacuum layer 8, protective housing 9 and condensation plate 3 and heat collecting plate 2 all use insulating layer 13's axis to be the symmetry setting as the symmetry axis, make its lateral wall keep unanimous, improve its aesthetic property, and keep apart high microthermal temperature through insulating layer 13, optimize the difference in temperature effect.

In addition, copper conductor 5 is evenly distributed two respectively on insulating ceramic plate 4, just P type component 6 and N type component 7 are evenly distributed between copper conductor 5, insulating ceramic plate 4 all is connected with heated board 1 inboard, insulating ceramic plate 4 all is ceramic material, thereby passes through insulating ceramic plate 4 insulates, guarantees the security of its use.

The working principle is as follows: when the waste heat power supply conversion device is used, firstly, the waste heat in the kiln is conducted into the heat collecting plate 2 through the heat conducting vacuum tube 10 in the waste heat collecting state, the heat collecting plate 2 is heated to be heated, so that the copper conductor 5 in contact with the condensing plate 3 is heated, at the moment, the condensing plate 3 is started, the condensing plate 3 works to be cooled, so that the copper conductor 5 in contact with the condensing plate 3 is cooled, in the actual use process, the heat collecting plate 2, the condensing plate 3 and the copper conductor 5 are continuously insulated by the heat insulating layer 13, the copper conductor 5 is insulated and isolated from the heat collecting plate 2 and the condensing plate 3 through the insulating ceramic plate 4, and the two copper conductors 5 opposite to each other are heated and cooled respectively, so that the two copper conductors 5 generate temperature difference, and under the action of the two copper conductors 5 with the temperature difference, the holes of the P-type element 6 and the N-type element 7 between the two copper conductors 5 move from high temperature to low temperature, so that electric power is generated, the power supply conversion of waste heat is completed, the generated electric power is transmitted to the storage battery 12 through the power line 11 for storage, and when the waste heat is not generated any more, the condensation plate 3 is closed, and the device is recovered.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The waste heat power supply conversion device comprises a heat insulation plate (1) and is characterized in that the heat insulation plate (1) is symmetrically arranged, two heat insulation plates (1) are connected with a heat insulation layer (13), a heat collection plate (2) and a condensation plate (3) are respectively arranged on the inner sides of the ends, far away from each other, of the heat insulation plates (1), insulating ceramic plates (4) are respectively arranged on one sides, far away from the heat insulation plates (1), of the condensation plate (3) and the heat collection plate (2), two copper conductors (5) are respectively arranged on one sides, far away from the condensation plate (3) and the heat collection plate (2), a P-type element (6) and an N-type element (7) are connected with the two copper conductors (5), a vacuum layer (8) is arranged on the side wall of the two heat insulation plates (1), a protective shell (9) is arranged on the side wall, far away from the heat insulation plates (1), of the two vacuum layers (8), the heat collecting plate is characterized in that a heat conducting vacuum tube (10) is installed on one side, away from the insulating ceramic plate (4), of the heat collecting plate (2), the heat conducting vacuum tube (10) is evenly arranged, the heat conducting vacuum tube (10) penetrates through the heat insulating plate (1), the vacuum layer (8) and the protective shell (9), power lines (11) are connected to two ends of the copper conductor (5), and the power lines (11) are connected with a storage battery (12).

2. A waste heat to power conversion device according to claim 1, wherein two power lines (11) are connected to the copper conductor (5) near one end of the condensation plate (3), and the two power lines (11) penetrate the insulation plate (1), the vacuum layer (8) and the protective shell (9).

3. A waste heat power supply conversion device according to claim 1, characterized in that the heat insulation layer (13) is in a shape of a Chinese character hui, and the inner sides of the two heat insulation boards (1) and the side wall of the protective casing (9) are flush with the inner side wall and the outer side wall of the heat insulation layer (13), respectively.

4. A waste heat to power conversion device according to claim 1, characterized in that the copper conductors (5) are evenly distributed on the two insulating ceramic plates (4), respectively, and the P-type elements (6) and the N-type elements (7) are evenly distributed between the copper conductors (5).

5. A waste heat power supply conversion device according to claim 1, wherein the two insulating ceramic plates (4), the heat insulation plate (1), the vacuum layer (8), the protective casing (9) and the condensation plate (3) and the heat insulation plate (2) are symmetrically arranged by taking the central axis of the heat insulation layer (13) as a symmetry axis.

6. A waste heat power conversion device according to claim 1, characterized in that the insulating ceramic plates (4) are all connected with the inner side of the heat insulation plate (1), and the insulating ceramic plates (4) are all made of ceramic material.