CN201418051Y - Solar energy vacuum superconducting device capable of generating power and hot water - Google Patents

Abstract

A solar energy vacuum superconducting device capable of generating power and hot water relates to a generating set, in particular to a device which generates power through utilizing temperature difference of heat sources and generates hot water. The solar energy vacuum superconducting device comprises a solar energy vacuum tube, a thermocouple, a superconducting heat medium, a water storage tank and a storage battery, wherein the superconducting heat medium is arranged in the vacuum tube; the sealed end of the vacuum tube is connected with a heat conducting device; one end of the heat conducting device extends into the vacuum tube while the other end thereof is exposed at the sealed end of the vacuum tube; the thermocouple is connected to the exposed end of the heat conducting device, andis connected with the storage battery; an inverted U-type hollow cover on which a cold water inlet and a hot water outlet are formed is arranged at the periphery of the thermocouple; and the water storage tank is respectively connected with the cold water inlet and the hot water outlet through a pipeline. The utility model has the advantages of safety, environmental protection and simple structure, and can completely meet the requirements for power and hot water usage in a family.

Description

A kind of solar vacuum superconductive device that can generate electricity and produce hot water

Technical field

The utility model relates to a kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT), and particularly a kind of thermal source temperature difference of utilizing is generated electricity, and can produce the solar vacuum superconductive device of hot water.

Background technology

The domestic solar generation technology adopts heat pipe that the temperature of the hot water in the solar storage water tank is generated electricity more at present, and but because the limitation of solar energy, wherein the temperature of hot water is only in 100 degree, basically can satisfy the requirement of generating, but the electric energy that heat energy produced is limited, be difficult to satisfy the needs of household electricity, so rest in theory substantially.Chinese patent application number is 200610102336.4 application for a patent for invention, discloses a kind of device that utilizes wind energy and solar water thermo-electric generation, and this contrive equipment relates to and utilizes wind energy, solar water thermo-electric generation aspect.Thermo-electric generation, utilize higher temperature (air) water to gasify at the mixed liquor in the mixed liquor closed conduit that easily liquefies, easily liquefaction mixed liquor steam promotes turbine generation in the easy liquefaction mixed liquor closed conduit, utilizing lower water of temperature or air to make easy liquefaction mixed liquor steam liquefaction, and then by higher (air) aqueous vaporization of temperature.The winter protection cover of dome-type, when sunlight strength reached or be higher than to a certain degree, the winter protection cover was opened, and had formed a concave mirror, and when sunlight strength was lower than to a certain degree, the winter protection cover was closed heating tube is incubated.But the complex structure of this device, cost is higher for family expenses.

Summary of the invention

The purpose of this utility model is intended to overcome the defective of prior art, provides a kind of simple in structure, generating efficiency height, the solar vacuum superconductive device that can generate electricity and produce hot water that can also use hot water to provide convenience for family when can satisfy the household electricity needs.

The solar vacuum superconductive device that can generate electricity and produce hot water described in the utility model, by vacuum tube, thermocouple, superconduct heat media, storage tank and accumulate bottle constitute, superconduct heat media is arranged in the vacuum tube, the sealed end of vacuum tube is connected with heat-transfer device, one end of heat-transfer device extend into vacuum tube inside, the other end then exposes to the vacuum tube sealed end, expose an end at heat-transfer device and be connected with thermocouple, thermocouple is connected with the accumulate bottle, the outer inverted U cover that is with at thermocouple, cover has cold water inlet and hot water outlet for hollow on it, storage tank is connected by pipeline with hot water outlet with cold water inlet respectively.

Around the described heat-transfer device exposed junction and top all is connected with thermocouple.

Described vacuum tube is at least one, contacts successively by heat collector.

Described heat-transfer device is tightly connected by O-ring seal and vacuum tube.

Described heat-transfer device is a hollow structure.On thermocouple, be connected with fin.

The solar vacuum superconductive device that can generate electricity and produce hot water described in the utility model, adopt super heat-conductive pipe to inhale the heat conduction energy, heat energy can be solar energy, it also can be the industrial exhaust heat thermal source, can also be the heat that cooking stove produces, because the heat-transfer rate of super heat-conductive pipe is fast, the efficient height, can give heat-transfer device with 99% thermal energy transfer in the vacuum tube, the hollow structure of heat-transfer device makes thermal loss minimum, heat-transfer device can be given thermocouple the temperature transfer that is higher than 120 degree in the vacuum tube, thermo-electric generation function by thermocouple, produce electric energy, in the accumulate bottle, when the user needed electricity consumption, by inverter the electric energy in the accumulate bottle being converted into 220V can use for the user with the electrical power storage that produced.Around heat-transfer device, reach the top and all be connected with thermocouple, to guarantee the maximization of heat energy utilization, periphery at thermocouple is connected with the inverted U cover, and water is arranged in the cover, can make full use of thermocouple thermo-electric generation performance, the heat that makes full use of in the thermocouple power generation process is come the interior water of heating mantles, the water of heating flows into storage tank through hot water outlet, and storage tank provides cold water by cold water inlet in covering, reciprocation cycle simultaneously, water in the heating storage tank uses in order to the user.The utility model is owing to adopt vacuum heat-pipe, can come out 99% thermal energy conduction in the vacuum tube, the temperature of its conduction can be up to 280 degree, maximally utilising heat energy generates electricity, also the installation Anywhere of thermal source can be had, utilize the temperature difference to generate electricity, also can provide daily life required hot water for the user easily simultaneously.The utility model safety and environmental protection, simple in structure, can satisfy household electricity fully and to the demand of hot water.

Description of drawings

Fig. 1 is the utility model structural representation.

Fig. 2 is the utility model structural representation.

Among the figure, 1-vacuum tube, 2-thermocouple, 3-superconduct heat media, 4-storage tank, 5-accumulate bottle, 6-heat-transfer device, 7-O-ring seal, 8-inverted U cover, 9-cold water inlet, 10-hot water outlet, 11-heat-collecting heat-preserving device, 12-fin.

Embodiment

Below by embodiment the utility model is further described, but is not limited to embodiment.

Embodiment 1

As shown in Figure 1, the solar vacuum superconductive device that can generate electricity and produce hot water described in the utility model, by vacuum tube, thermocouple 2, superconduct heat media 3, storage tank 4 and accumulate bottle 5 constitute, superconduct heat media 3 is arranged in the vacuum tube 1, the sealed end of vacuum tube 1 is connected with heat-transfer device 6, one end of heat-transfer device 6 extend into vacuum tube 1 inside, the other end then exposes to vacuum tube 1 sealed end, expose an end at heat-transfer device 6 and be connected with thermocouple 2, thermocouple 2 is connected with accumulate bottle 5, the outer inverted U cover 8 that is with at thermocouple 2, cover is hollow, cold water inlet 9 and hot water outlet 10 are arranged on it, and storage tank 4 is connected by pipeline with cold water inlet 9 and hot water outlet 10 respectively, and heat collector 11 has the polythene material foamed heat insulating.

Embodiment 2

The described solar vacuum superconductive device that can generate electricity and produce hot water, around heat-transfer device 6 exposed junctions and top all is connected with thermocouple 2.All the other are with embodiment 1.

Embodiment 3

As shown in Figure 2, the described solar vacuum superconductive device that can generate electricity and produce hot water, described vacuum tube 2 is at least one, contacts successively by heat collector 11, all the other are with embodiment 1.

Embodiment 4

The described solar vacuum superconductive device that can generate electricity and produce hot water, heat-transfer device 6 is tightly connected by O-ring seal 7 and vacuum tube 1, and all the other are with embodiment 1.

Embodiment 5

The described solar vacuum superconductive device that can generate electricity and produce hot water, heat-transfer device 6 is tightly connected by O-ring seal 7 and vacuum tube 1, and all the other are with embodiment 2.

Embodiment 6

The described solar vacuum superconductive device that can generate electricity and produce hot water, heat-transfer device 6 is tightly connected by O-ring seal 7 and vacuum tube 1, and all the other are with embodiment 3.

Embodiment 7

The described solar vacuum superconductive device that can generate electricity and produce hot water, described heat-transfer device 6 is a hollow structure.Be connected with fin 12 on thermocouple 2, all the other are with embodiment 6.

Claims (6)

1, a kind of solar vacuum superconductive device that can generate electricity and produce hot water, by vacuum tube, thermocouple, superconduct heat media, storage tank and accumulate bottle constitute, it is characterized in that, superconduct heat media is arranged in the vacuum tube, the sealed end of vacuum tube is connected with heat-transfer device, one end of heat-transfer device extend into vacuum tube inside, the other end then exposes to the vacuum tube sealed end, expose an end at heat-transfer device and be connected with thermocouple, thermocouple is connected with the accumulate bottle, at the outer inverted U cover that is with of thermocouple, covers and is hollow, cold water inlet and hot water outlet are arranged on it, and storage tank is connected by pipeline with hot water outlet with cold water inlet respectively.

2, the superconducting device that can generate electricity and produce hot water according to claim 1 is characterized in that around the described heat-transfer device exposed junction and top all is connected with thermocouple.

3, the superconducting device that can generate electricity and produce hot water according to claim 1 is characterized in that described vacuum tube is at least one, contacts successively by heat collector.

4, according to claim 1 or the 2 or 3 described superconducting devices that can generate electricity and produce hot water, it is characterized in that described heat-transfer device is tightly connected by O-ring seal and vacuum tube.

5, according to claim 1 or the 2 or 3 described superconducting devices that can generate electricity and produce hot water, it is characterized in that described heat-transfer device is a hollow structure.

6, according to claim 1 or the 2 or 3 described superconducting devices that can generate electricity and produce hot water, it is characterized in that, be connected with fin on the described thermocouple.

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