Device for generating power through temperature difference

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Publication number
CN201378816Y
Authority
CN
Grant status
Grant
Patent type
Prior art keywords
device
power
stove
generating
thermocouple
Prior art date
Application number
CN 200920111203
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.)
Filing date
Publication date
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Abstract

The utility model relates to a device for generating power through temperature difference, in particular to a device for generating power through the temperature difference of a heat source. The device comprises a stove, a thermocouple generation module, an accumulator jar and an inverter, wherein at least one thermocouple generation module is fixed outside the inner wall of the stove, a fan is arranged on the outer wall of the stove in the position corresponding to the thermocouple, the interlayer between the inner wall and the outer wall of the stove is a heat insulating layer, the thermocouple generation module is connected with the accumulator jar through a wire, and the accumulator jar is connected with a user end through the inverter. By using the device, 99 percent of afterheat in the stove can be used for generating power, so that the heat energy can be utilized to the maximum to generate power; as long as the thermocouple generation module is installed at the place of a heat source, the purpose of generating power through temperature difference can be achieved; the device has the advantages that the device is safe and environment protective, the structure is simple, and the device can completely meet the demand of household power utilization.

Description

一种利用温差发电的装置 A device using thermoelectric power generation

技术领域 TECHNICAL FIELD

一种利用温差发电的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。 An apparatus for generating relates to a thermoelectric power generation apparatus, particularly to a temperature difference between the heat source for power generation apparatus use. 背景技术 Background technique

目前家用太阳能发电技术多采用热管将太阳能储水箱中的热水的温度 Currently home solar power technology to use more heat pipe solar hot water storage tank temperature

来发电,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 To generate electricity, but rather due to the limitations of solar energy, in which the temperature is only in the IOO degrees, basically

满足发电的要求,但是热能所产生的电能有限,很难满足家庭用电的需要, 所以基本停留在理论上。 To meet the power requirements, but the heat generated by the power limited, it is difficult to meet the electricity needs of the family, so basically it remains theoretical. 特别是对于农村或边远地区太阳能不能普及的地方,电的供给本来就十分欠缺,采用家用或工业炉灶的余温进行发电的装置均由于设备的局限性,不能得到广泛的推广应用。 Particularly for rural or remote areas where the popularity of solar energy can not supply electricity already very lacking, domestic or industrial use stoves warmth of an apparatus for power generation are due to the limitations of the equipment, it can not be widely applied. 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利用温差发电的装置。 The utility model is aimed at overcoming the deficiencies of the prior art, to provide a simple, high power generation efficiency can satisfy the device uses the temperature difference between household electricity needs of power generation.

本实用新型所述利用温差发电的装置,由炉烛、热电偶发电模块、储电瓶和逆变器构成,至少一个热电偶发电模块固定在炉灶内壁外侧,在炉灶的外壁对应热电偶位置处有风扇,炉灶内壁和外壁之间的夹层为保温层,热电偶与储电瓶通过电线连接,储电瓶与用户端通过逆变器连接。 The utility model means the use of thermoelectric power generation by candle furnace, thermocouple photovoltaic module, storage battery and an inverter configuration, at least one thermocouple power module fixed to the outside of the inner wall of the stove, the stove in the outer wall at a position corresponding to the thermocouple sandwich fan, stove between inner and outer walls for insulation, and the storage battery via thermocouple wire connection, storage batteries and a user terminal connected through an inverter. 在储电瓶和热电偶之间连接的控制器,~ Storage controller between the battery and thermocouple connections ~

本实用新型所述的热电偶发电模块位于炉灶内壁的中间部位。 The utility model generation of the thermocouple module located in the middle of the stove wall. 所述的热电偶发电模块为l-6个绕炉灶内壁等距排列。 The thermocouple power module l-6 Ge arranged equidistantly around the inner wall of the stove. 所述的热风扇与热电偶一 The hot air fan with a thermocouple

一对应。 One correspondence.

本实用新型所述的利用温差发电的装置,釆用家用或工业用炉灶作为热能,将温差发电模块直接安装在炉灶的内壁上,温差发电模块采用热电偶,热电偶的技术较成熟,是利用温差发电的理想设备,由于热电偶发电模块直接安装在炉灶的内壁中间部位上,当炉灶生火起热时,该处的温度最高,所获得的热效率最高,可以将燃烧而得的热能传递给热电偶发电模块作为发电的热能,在炉灶的外壁上有热风扇与热电偶模块一一对应,可有效地对热电偶模块进行散热,延长热电偶模块的使用寿命,在炉灶内壁和外壁之间的夹层为保温层,保温层可使炉灶中传出的热全部供给热电偶以转化为电能,热损失极小,炉灶将热传递给热电偶模块,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,在用户需要用电的时候,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 device uses the temperature difference between the generation of the utility model, preclude the use of household or industrial stoves as heat, a thermoelectric power generation module is mounted directly on the inner wall of the stove, thermoelectric power generation module using a thermocouple technology is more mature, the use of ideal for thermoelectric power generation, since the thermocouple power module directly mounted on the inner wall of the middle of the stove, when the heat from the stove fire, where the temperature, thermal efficiency obtained the highest combustion can be obtained by heat transfer to the thermoelectric even as the power generation module heat the outer wall of the hot stove with thermocouple module fan correspondence, thermocouple module can effectively dissipate heat, extend the life of the thermocouple module, between the inner and outer walls of the stove dissection insulation layer, thermal insulation stoves can supply all came in the thermocouple into electricity, heat loss is extremely small, stove transferring heat to the thermocouple module, the thermocouple thermoelectric power generation capabilities to produce electricity, will generated electric energy stored in the storage battery, the user needs electricity when the storage battery through the inverter into 220V electrical energy available to users. 在储电瓶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 Controller and thermocouple connection between the storage battery, which can effectively prevent damage due to voltage differences in electrical storage

瓶。 bottle. 本实用新型能把炉灶中99%的余热用于发电,最大限度地利用热能来 The utility model can hob 99% of the waste heat for power generation, to maximize the use of energy

发电,只要在存在热源的任何地方安装热电偶发电模块,均可达到利用温差进行发电的目的,本实用新型安全环保,结构简单,完全能满足家庭用电。 Power generation, as long as any place in the presence of a heat source installed thermocouple power generation module, can achieve the purpose of the use of temperature difference power generation, safety and environmental protection advantages of simple structure, fully able to meet domestic 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,l-炉灶,2-热电偶发电模块,3-储电瓶,4-电线,5-炉灶内壁, 6-风扇,7-保温层,8-炉灶外壁具体实施方式 Figure, l- stove, 2 thermocouple power module, a 3-storage battery, 4-wire, 5-stove inside wall, 6 fan, 7 insulation, 8 stoves outer 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 -

本实用新型所述利用温差发电的装置,由炉灶l、热电偶发电模块2、 Thermoelectric power generation apparatus of the present utility model utilized by the stove l, thermocouple power module 2,

储电瓶3和逆变器构成,至少一个热电偶发电模块2固定在炉灶内壁5 外侧,,热电偶发电模块2位于炉灶内壁5的中间部位。 Storage battery and an inverter 3 constitute, at least one thermocouple power module 2 is fixed to the outside of the inner wall of the stove 5 ,, thermocouple power generating module 2 located in the middle of the inner wall 5 of the stove. 在炉灶外壁8对应热电偶位置处有风扇6,风扇6与热电偶发电模块2 —一对应。 8 corresponds to the outer wall of the thermocouple positions stove fan 6, the fan 62 and thermocouple power module - one correspondence. 炉灶内壁3和外壁之间的夹层为保温层7,热电偶发电模块2与储电瓶3通过电线4连接,储电瓶3与用户端通过逆变器连接。 Mezzanine stove inner wall 3 and an outer wall between the insulation layer 7, thermocouple power module 2 and the storage battery 3 is connected via a wire 4, the storage battery 3 is connected to the client through the inverter. 在储电瓶3和热电偶发电模块之间连接有控制器。 3 between the storage battery and thermocouple power module is connected to the controller. 实施例2 Example 2

如图1所示,本实用新型所述利用温差发电的装置,所述的热电偶发电模块2为2个绕炉灶内壁等距排列,其余同实施例l。 1, the utility model means the use of thermoelectric power generation, the power generation module thermocouple 2 2 equidistant arrangement around the inner wall of the stove, and the rest in Example l. 实施例3 Example 3

如图2所示,利用温差发电的装置,所述的热电偶发电模块2为4 个绕炉灶内壁等距排列,其余同实施例l。 As illustrated, a thermoelectric power generation unit, the photovoltaic module 2 to the thermocouple 4 are arranged equidistantly around the inner wall of the stove, and the rest with Example l 2. 实施例4 Example 4

一种利用温差发电的装置,所述的热电偶发电模块2为6个绕炉灶内壁等距排列,其余同实施例1。 An apparatus for use in a thermoelectric power generation, the power generation module 2 of the thermocouple 6 are arranged equidistantly around the inner wall of the stove, and the rest with Example 1.

Claims (5)

1、一种利用温差发电的装置,由炉灶、热电偶发电模块、储电瓶和逆变器构成,其特征在于,至少一个热电偶发电模块固定在炉灶内壁外侧,在炉灶外壁对应热电偶发电模块位置处有风扇,炉灶内壁和外壁之间的夹层为保温层,热电偶发电模块与储电瓶通过电线连接,储电瓶与用户端通过逆变器连接。 A thermoelectric power generation apparatus utilized, by the stove, thermocouple photovoltaic module, storage battery and an inverter configuration, wherein at least one thermocouple power module is fixed on the outside of the inner wall of the stove, the stove in the outer wall of the corresponding thermocouple power module position have mezzanine fan, stove between inner and outer walls for insulation, thermocouple power generation module and the storage battery through a wire connected to the storage battery and the user terminal is connected through an inverter.
2、 根据权利要求l所述利用温差发电的装置,其特征在于,所述的热电偶发电模块位于炉灶内壁的中间部位。 2, the use according to claim l thermoelectric power generation apparatus, characterized in that the thermocouple is located in the middle of the power module of the inner wall of the stove.
3、 根据权利要求l所述利用温差发电的装置,其特征在于,所述的热电偶发电模块为l-6个绕炉灶内壁等距排列。 3, The use according to claim l thermoelectric power generation apparatus, characterized in that said thermocouples generating module l-6 universal measure word are arranged equidistantly around the inner wall of the stove.
4、 根据权利要求l所述利用温差发电的装置,其特征在于,所述的热风扇与热电偶发电模块一一对应。 4, The use according to claim l thermoelectric power generation apparatus, characterized in that said fan and heat generating modules correspond to the thermocouple.
5、 根据权利要求l所述利用温差发电的装置,其特征在于,在储电瓶和热电偶发电模块之间连接的控制器, 5, the use according to claim l thermoelectric power generation apparatus, characterized in that, between the storage battery and the controller generating modules connected thermocouple,

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2306535A3 (en) * 2009-10-02 2013-03-13 BSH Bosch und Siemens Hausgeräte GmbH Domestic appliance with a component that heats up during operation and a device supplied with electrical energy and method for supplying a device of a domestic appliance with electrical energy
CN102364695A (en) * 2011-06-30 2012-02-29 常州天合光能有限公司 Cooling structure for reducing photovoltaic generating assembly temperature
US9506656B2 (en) 2013-10-01 2016-11-29 International Clean Energy Solutions, Ltd. Cooking stove
CN103629702A (en) * 2013-11-08 2014-03-12 中国人民解放军总后勤部建筑工程研究所 Radiating heating furnace with annular flue
CN103629701A (en) * 2013-11-08 2014-03-12 中国人民解放军总后勤部建筑工程研究所 Strong-exhaust type cooking furnace
CN103629701B (en) * 2013-11-08 2015-12-09 中国人民解放军总后勤部建筑工程研究所 A strongly row-type cooking stoves
CN103629702B (en) * 2013-11-08 2015-12-16 中国人民解放军总后勤部建筑工程研究所 A toroidal flue radiation heaters
CN103888028A (en) * 2014-03-21 2014-06-25 成都航天烽火精密机电有限公司 Efficient heat difference power generation furnace

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