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Superconducting heat pipe power generating device

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Publication number
CN201378815Y
Authority
CN
Grant status
Grant
Patent type
Prior art keywords
superconducting heat
heat
power
pipe
heat pipe
Prior art date
Application number
CN 200920111175
Other languages
Chinese (zh)
Inventor
周雁冰
李泽明
Original Assignee
李泽明
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
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Abstract

The utility model discloses a superconducting heat pipe power generating device, relating to a power generating device, in particular to a device using heat source temperature difference to generate power, consisting of solar energy, a thermocouple, a superconducting heat pipe, a storage battery and an inverter, wherein, one end of the superconductive heat pipe is extended to the inner part of a solar energy vacuum pipe, the other end is connected with the thermocouple which is connected with the storage battery, and the storage battery is connected with a user terminal by the inverter. As the power generating device adopts the superconducting heat pipe, 99% of heat energy in the solar energy vacuum pipe can be conducted out, the conducting temperature can reach 280 DEG C, and the heat energy converted from the solar energy is maximized to generate power. The power generating device can also be installed at any places with heat sources to use the temperature difference to generate power. The utility model has the advantages of security, environmental protection and simple structure, and can fully meet the household power utilization.

Description

一种超导热管发电装置 A superconducting heat pipe power generation device

技术领域 TECHNICAL FIELD

一种超导热管发电装置涉及一种发电装置,特别涉及一种利用热源温差进行发电的装置。 A superconducting relates to a heat pipe generating means generating apparatus, particularly to a temperature difference between the heat source for power generation apparatus. 背景技术 Background technique

目前家用太阳能发电技术多釆用热管将太阳能储水箱中的热水的温度来 Household solar power technology currently preclude the use of multiple heat pipe solar hot water tank temperature to

发电,而但是由于太阳能的局限,其中的温度仅在ioo多度,基本上能满足 Power generation, but rather due to the limitations of solar energy, in which the temperature is only in ioo degrees, basically meet

发电的要求,但是热能所产生的电能有限,很难满足家庭用电的需要,所以 Power requirements, but the heat generated by the power limited, it is difficult to meet the electricity needs of the family, so

基本停留在理论上。 Basically remain theoretical. 中国专利申请号为200610102336.4的发明专利申请, 公开了一种利用风能和太阳能热水溘差发电的装置,此发明装置涉及到利用风能、太阳能热水温差发电方面。 Chinese Patent Application No. 200610102336.4 invention patent application, and discloses a device for wind and solar hot water generation using poor Charlie, this invention relates to apparatus utilizing wind power, solar hot water temperature difference power generation. 温差发电,利用较高温度(空气)水将在易液化混合液密闭管道内的混合液气化,易液化混合液蒸汽推动易液化混合液密闭管道内涡轮发电,在利用温度较低的水或空气使易液化混合液蒸汽液化,然后再被温度较高的(空气)水气化。 Thermoelectric power generation, the use of higher temperature (air) water inside the tubes sealed in a mixture of gasification easily liquefied mixture, a mixture of steam push within easily liquefied easily liquefied mixture in closed conduits turbine power generation using low-temperature water or air mixture so easily liquefied liquefied steam, and then by higher temperatures (air) water gasification. 半球型的防寒罩,当阳光强度达到或高于一定程度时,防寒罩打开,形成了一个凹面镜,当阳光强度低于一定程度时,防寒罩关闭对加热管进行保温。 Hemispherical cover the cold when the sun intensity at or above a certain level, cold hood open, forming a concave mirror when the sun intensity is below a certain level, close to the cold cover heating pipe insulation. 但是该装置的结构复杂,对于家用来说成本较高。 However, the complex structure of the device for home use higher cost. 发明内容 SUMMARY

本实用新型的目的旨在于克服现有技术的缺陷,提供一种结构简单,发电效率高,能满足家庭用电需要的超导热管发电装置。 The utility model is aimed at overcoming the deficiencies of the prior art, to provide a simple, high-efficiency power generation, superconducting heat pipe to meet the electricity needs of the power generation device families. 本实用新型所述的超导热管发电装置,由太阳能真空管、热电偶、超导热管、储电瓶和逆变器构成,太阳能真空管固定在支架上,超导热管的一端伸入到太阳能真空管的内部,另一端与热电偶连接,热电偶与储电瓶连接,储电瓶与用户端通过逆变器连接,热电偶、储电瓶与逆变器之间通过电线连接。 Superconducting heat pipe power generation device according to the utility model, solar vacuum tube, thermocouple, superconducting heat pipe, storage batteries and an inverter configuration, solar vacuum tube fixed to the bracket, one end of the superconducting heat pipe solar vacuum tube extending into the interior , and the other end is connected to the thermocouple, the thermocouple is connected with the storage battery, the storage battery and inverter are connected through the user, via a wire connection between the thermocouple, storage battery and the inverter.

所述的热电偶上有保温层,在热电偶的外侧四周有散热片。 There is insulation on the thermocouple, the thermocouple is surrounded on the outside of the heat sink. 热电偶与至少一根超导热管固定连接。 Thermocouple connected to a superconducting heat pipe is fixed at least.

所述的热电偶与储电瓶之间连接有控制器。 With a controller between the thermocouple and the storage battery connections.

本实用新型所述的超导热管发电装置,采用超导热管来吸导太阳能真空管 Superconducting heat pipe power generation device according to the utility model, using superconducting heat pipe solar vacuum tube to suck guide

中的热能,由于超导热管的导热速度快,效率高,可以将太阳能真空管中99% 的热能传递给用热端,热损失极小,超导热管能把太阳能真空管中的高于120 Thermal energy due to thermal superconducting heat pipe fast speed, high efficiency, solar vacuum tube 99% of the heat transfer to the hot end, minimal heat loss, can superconducting heat pipe solar vacuum tube is higher than 120

度的温度传递给热电偶,通过热电偶的温差发电功能,产生电能,将所产生的电能储存在储电瓶中,在用户需要用lfe的时候,通过逆变器将储电瓶中的电能转化为220V即可供用户使用。 The temperature of the thermocouple to pass through the thermocouple thermoelectric power generation capabilities to produce electricity, the generated electric energy stored in the storage battery, the user need lfe when the storage battery through the inverter converted into electrical energy 220V available to users. 在f诸电瓶储和热电偶之间连接的控制器, 可有效防止因电压差异而损坏储电瓶。 F controller between various storage battery and thermocouple connections, which can effectively prevent damage to the storage battery voltage differences. 本实用新型由于采用超导热管,能把太阳能真空管中99%的热能传导出来,其传导的温度可高达280度,最大限 The utility model using superconducting heat pipe, solar vacuum tube can 99% of the heat conduction out of its conduction temperatures up to 280 degrees, the maximum limit

度地利用光能转化的热能来发电,也可在存在热源的任何地方安装,利用温差进行发电,本实用新型安全环保,结构简单,完全能满足家庭用电,如果利用工业预热发电则可以部分补充工业用电。 Degree of conversion of light energy use thermal energy to generate electricity, but also heat sources exist anywhere in the installation, use the temperature difference power generation, the utility model safety and environmental protection, simple structure, fully able to meet domestic electricity, if you can use up electric power generation industry part of the supplementary industrial electricity. 附图说明 BRIEF DESCRIPTION

图l为本实用新型结构示意图。 Figure l-based utility model structure diagram. 图中,1-太阳能真空管,2-储电瓶,3-支架,4-电线,5-散热片,6-控制器,7-保温层,8-热电偶,9-超导热管。 Symbols 1 vacuum tube solar energy, storage battery 2-, 3- stents, wires 4-, 5- fins, the controller 6-, 7- insulation, thermocouple 8-, 9- superconducting heat pipe. 具体实施方式 detailed description

下面通过实施例对本实用新型作进一步的说明,但不限于实施例。 The following examples of the utility model is further illustrated, but is not limited to the embodiments. 实施例1 Example 1

如图1所示,本实用新型所述的超导热管发电装置,由太阳能真空管l、 As shown in Figure 1, the superconducting heat pipe power generation device according to the utility model, the solar vacuum tube l,

热电偶8、超导热管9、储电瓶2和逆变器构成,太阳能真空管1固定在支架3上,超导热管9的一端伸入到太阳能真空管1的内部,另一端与热电偶8连接,热电偶8与储电瓶2连接,储电瓶2与用户端通过逆变器连接,热电偶8、储电瓶2与逆变器之间通过电线4连接,热电偶8上有保温层7, 在热电偶8的外侧四周有散热片5。 Thermocouple 8, the superconducting heat pipe 9, 2 storage batteries and an inverter configuration, solar vacuum tube 1 is fixed on the bracket 3, one end of the superconducting heat pipe 9 extends into the interior of the solar vacuum tube 1 and the other end connected to the thermocouple 8, thermocouple 82 is connected to the storage battery, the storage battery 2 and the user terminal is connected through an inverter, connected by wires between the thermocouple 4 8, 2 storage battery and the inverter, thermocouple insulation 7 8, the thermoelectric even outside of the four weeks of the heat sink 8 5. 热电偶8与至少一根超导热管9固定连接。 Thermocouple 8 is fixedly connected to at least one superconducting heat pipe 9. 所述的热电偶8与储电瓶之间连接有控制器6。 The thermocouple 8 is connected between the storage battery and the controller 6. 实施例2 Example 2

如图2所示,所述的超导热管发电装置,超导热管9与热电偶8呈八字形排列,其余同实施例1。 2, the superconducting heat pipe power generation device, the superconducting heat pipe 9 and 8 thermocouple was eight-shaped arrangement, and the rest in Example 1. 实施例3 Example 3

所述的超导fe管发电装置,三根超导热管9与热电偶8呈品字形连接, 其余同实施例1。 Fe tube superconducting power generation device, wherein the three superconducting heat pipe 9 and 8 thermocouple was connected to a triangle, and the rest in Example 1. 实施例4 Example 4

所述的超导热管发电装置,若干根超导热管平行或矩阵排列,其余同实施例1。 Superconducting heat pipe of the power generation device, a plurality of parallel heat pipes or root superconducting matrix arrangement, and the rest with Example 1.

实施例5 Example 5

所述的超导热管发电装置,将超导热管伸入工业余热源,另一端与热电偶8连接,其余同实施例1。 Superconducting heat pipe power generation device, wherein the super heat conduction pipe extending into the industrial waste heat source, and the other end connected to the thermocouple 8, remaining the same as in Example 1.

Claims (5)

1、一种超导热管发电装置,由太阳能、热电偶、超导热管、储电瓶和逆变器构成,其特征在于,超导热管的一端伸入到太阳能真空管的内部,另一端与热电偶连接,热电偶与储电瓶连接,储电瓶与用户端通过逆变器连接。 1, heat pipe power generation device, solar, thermocouple, superconducting heat pipe, and an inverter constituting the storage battery, characterized in that one end of the superconducting heat pipe extends into the interior of a superconducting solar vacuum tube, the other end of the thermocouple connection, thermocouples and storage battery connected to the storage battery and the user terminal is connected through an inverter.
2、 根据权利要求l所述的超导热管发电装置,其特征在于,所述的热电偶上有散热片。 2, heat pipe superconducting power apparatus according to claim l, characterized in that the heat sink on the thermocouple.
3、 根据权利要求l所述的超导热管发电装置,其特征在于,所述的热电偶与至少一根超导热管.固定连接。 3, the heat pipe according to claim superconducting power generating apparatus according to claim l, characterized in that said at least one thermocouple superconducting heat pipe. Fixedly attached.
4、 根据权利要求l所述的超导热管发电装置,其特征在于,外露于太阳能真空管和热电偶之间的超导热管上包覆有保温隔热层。 4, superconducting heat pipe according to claim power generation device according to claim l, wherein the exposed insulation layer in coated with superconducting heat pipe solar vacuum tube and a thermocouple between.
5、 根据权利要求l所述的超导热管发电装置,其特征在于,所述的超导热管与太阳能集热装置连接。 5, the heat pipe according to claim superconducting power apparatus according to claim l, characterized in that the superconducting heat pipe solar heat collecting apparatus and said connection.

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101877561A (en) * 2010-04-02 2010-11-03 武汉市天下春商贸有限公司 Solar energy comprehensive utilization system
CN101877561B (en) * 2010-04-02 2016-08-31 武汉市天下春商贸有限公司 Solar energy utilization system
CN101858310A (en) * 2010-04-15 2010-10-13 刘君才 Hot wind power generation system employing superconductive tube
CN102072565A (en) * 2011-02-14 2011-05-25 赵杰 Thermoelectric generation solar water heater
CN102072565B (en) 2011-02-14 2013-03-13 赵杰 Thermoelectric generation solar water heater
CN103312229A (en) * 2013-06-14 2013-09-18 苏州金科信汇光电科技有限公司 Light absorbing device
CN103296933A (en) * 2013-06-28 2013-09-11 苏州市牛勿耳关电器科技有限公司 Solar heat power generation device utilizing Internet of Things
CN103326626A (en) * 2013-06-28 2013-09-25 苏州市牛勿耳关电器科技有限公司 Intelligent solar thermal power generating equipment

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