TW201932768A - Water flow heater using cooling chip for heating capable of fully utilizing the heat energy of the cooling chip to heat water without requiring an external power supply - Google Patents

Water flow heater using cooling chip for heating capable of fully utilizing the heat energy of the cooling chip to heat water without requiring an external power supply Download PDF

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TW201932768A
TW201932768A TW107101746A TW107101746A TW201932768A TW 201932768 A TW201932768 A TW 201932768A TW 107101746 A TW107101746 A TW 107101746A TW 107101746 A TW107101746 A TW 107101746A TW 201932768 A TW201932768 A TW 201932768A
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water
heating
heat exchange
wafer
hydroelectric
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TW107101746A
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Chinese (zh)
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林世軒
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林世軒
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Abstract

Disclosed is a water flow heater using a cooling chip for heating, which includes: a hydraulic power generating set serving for receiving external water and generating electricity, and having a water inlet end and a water outlet end, wherein when water is inputted to the hydraulic power generating set through the water inlet end, the water drives the hydraulic power generating set to generate electricity and then flows out from the water outlet end; a heating pipeline having a water inlet port and a water outlet port, wherein the water inlet port of the heating pipeline is connected to the water outlet end of the hydraulic power generating set, so that the water flowing out from the water outlet end of the hydraulic power generating set is inputted to the water inlet port of the heating pipeline, and then flows out from the water outlet port of the heating pipeline; and a heating set connected in series inside the heating pipeline for heating the water in the heating pipeline, wherein the heating set has at least one heating device, each having a heat exchange case, and a water flow of the heating pipeline passes through the heat exchange case; and a cooling chip adhered at one side of the heat exchange case, wherein the electricity generated by the hydraulic power generating set is transferred to the cooling chip via a conductive wire and, when being electrically conducted, the cooling chip is able to heat the water flow of the heat exchange case, thereby raising a temperature of the water flow.

Description

以致冷晶片加熱之水流加熱器 Cooling wafer heating water heater

本發明係有關於水流加熱器,尤其是一種以致冷晶片加熱之水流加熱器。 This invention relates to water flow heaters, and more particularly to a water flow heater that heats a cooled wafer.

習知技術的致冷晶片,主要是用於冷卻之用,當該致冷晶片通電時,會將其一側所吸收的熱量傳導到另一側,以達到散熱的目的。 The prior art refrigerant chip is mainly used for cooling. When the refrigerant chip is energized, the heat absorbed by one side is conducted to the other side for heat dissipation.

惟上述習知的致冷晶片,在使用時所產生的熱能,往往是經由其他的冷卻機構如水冷的方式將該致冷晶片的高溫導出。因此該致冷晶片的熱能無法有效的利用。 However, the heat energy generated by the above-mentioned conventional refrigerant wafers during use is often derived from the high temperature of the cooled wafer via other cooling mechanisms such as water cooling. Therefore, the thermal energy of the cooled wafer cannot be effectively utilized.

目前已經有許多小型的加熱器可以安裝在水源(如水龍頭)上,惟這些傳統的加熱器都需要外接電源,以令其加熱功能可以運作。 There are already many small heaters that can be installed on water sources (such as faucets), but these traditional heaters require an external power source to make their heating function work.

因此本案發明人希望提出一種將致冷晶片的熱能應用於水流加熱器結構,而可同時達到充分利用致冷晶片的熱能,以加熱水溫,也達到無須外接電源的功效。 Therefore, the inventor of the present invention wishes to propose a method in which the thermal energy of the refrigerating wafer is applied to the structure of the water flow heater, and the thermal energy of the refrigerating wafer can be fully utilized to heat the water temperature, thereby achieving the effect of not requiring an external power source.

故本案希望提出一種嶄新的以致冷晶片加熱之水流加熱 器,以解決上述先前技術上的缺陷。 Therefore, this case hopes to propose a new type of water heating for cold wafer heating. In order to solve the above-mentioned drawbacks of the prior art.

所以本發明的目的係為解決上述習知技術上的問題,本發明中提出一種以致冷晶片加熱之水流加熱器,係將一水力發電機組結合一具有致冷晶片的加熱組而形成一加熱器,當外部的水流入該加熱器時,會先流經該水力發電機組而令該水力發電機組發電,並將所產生的電力輸入該加熱組,使得其致冷晶片產生熱能,因此當水從該水力發電機組流往該加熱組時,該加熱組即可應用致冷晶片的熱能對水流加熱,而形成熱水向外輸出。因此經由本案的結構可以有效利用致冷晶片的熱能,並且也達到加熱水溫的目的,而無須連接外部的電源。此為習知之加熱器所無法達成者。 Therefore, the object of the present invention is to solve the above problems in the prior art. In the present invention, a water flow heater for heating a cold wafer is proposed, which combines a hydroelectric generating unit with a heating group having a cooling chip to form a heater. When external water flows into the heater, it first flows through the hydroelectric generating set to cause the hydroelectric generating set to generate electricity, and the generated electric power is input into the heating group, so that the cooled wafer generates heat energy, so when the water is from When the hydro-generator unit flows to the heating group, the heating group can apply the heat energy of the refrigerating wafer to heat the water stream, and form hot water to output outward. Therefore, the structure of the present invention can effectively utilize the thermal energy of the cooled wafer and also achieve the purpose of heating the water temperature without connecting an external power source. This is a failure of the conventional heater.

為達到上述目的本發明中提出一種以致冷晶片加熱之水流加熱器,包含:一水力發電機組,用於接收外部輸入的水並進行發電,其包含一入水端及出水端;當外部的水經由該入水端輸入該水力發電機組,即會驅動該水力發電機組發電,並從該出水端流出;其中該水力發電機組包含至少一水力發電裝置,用於接收外部輸入的水並進行發電,其中各該水力發電裝置包含一入口端及一出口端;該入口端係接收來自該水力發電機組的入水端所輸入的水流,而該輸入的水流會驅動該水力發電裝置發電,並從該出口端流出,而從該出水端 流出;一加熱管路,包含一入水口及一出水口,該加熱管路的入水口連接該水力發電機組的出水端,該水力發電機組的出水端流出的水係輸入該加熱管路的入水口,再從該加熱管路的出水口流出;一加熱組串接於該加熱管路中,用於加熱該加熱管路中的水;該加熱組包含至少一加熱裝置,用於將從該水力發電機組的出水端輸出的水進一步加熱;其中各該加熱裝置包含:一熱交換箱具有中空結構,該加熱管路的水流係通過該熱交換箱;一致冷晶片貼附在該熱交換箱的一側,該致冷晶片經由導線連接各該水力發電裝置;各該水力發電裝置所產生的電力係經由對應之導線輸入該致冷晶片;其中該致冷晶片包含一冷端及一熱端,該熱端係面向該熱交換箱,當該致冷晶片通電時,該致冷晶片的熱端的溫度會升高,而對該熱交換箱中的水流加熱,使得該熱交換箱中的水流溫度升高。 In order to achieve the above object, the present invention provides a water flow heater for heating a cold wafer, comprising: a hydroelectric generating set for receiving externally input water and generating electricity, which comprises a water inlet end and a water outlet end; when the external water passes through The water inlet is input to the hydroelectric generating unit, which drives the hydroelectric generating set to generate electricity and flows out from the outlet end; wherein the hydroelectric generating set includes at least one hydroelectric generating device for receiving externally input water and generating electricity, wherein each The hydroelectric power generating device includes an inlet end and an outlet end; the inlet end receives a flow of water input from a water inlet end of the hydroelectric generating set, and the input water flow drives the hydroelectric generating device to generate electricity and flows out from the outlet end And from the water outlet a heating pipe comprising a water inlet and a water outlet, wherein the water inlet of the heating pipeline is connected to the water outlet of the hydroelectric generating unit, and the water flowing out of the water outlet of the hydroelectric generating unit is input into the heating pipeline. a nozzle that flows out from the water outlet of the heating pipe; a heating group is connected in series to the heating pipe for heating water in the heating pipe; the heating group includes at least one heating device for The water output from the water outlet of the hydroelectric generating unit is further heated; wherein each of the heating devices comprises: a heat exchange box having a hollow structure, the water flow of the heating pipe passing through the heat exchange box; and the uniform cold wafer attached to the heat exchange box On one side, the refrigerant chip is connected to each of the hydroelectric devices via wires; the power generated by each of the hydroelectric devices is input to the refrigerating wafer via a corresponding wire; wherein the refrigerating chip includes a cold end and a hot end The hot end faces the heat exchange box, and when the refrigerant chip is energized, the temperature of the hot end of the refrigerant chip rises, and the water flow in the heat exchange box is heated to make the heat exchange The water temperature rises.

由下文的說明可更進一步瞭解本發明的特徵及其優點,閱讀時並請參考附圖。 The features of the present invention and its advantages are further understood from the following description, and reference is made to the accompanying drawings.

10‧‧‧水力發電機組 10‧‧‧Hydraulic generating sets

11‧‧‧入水端 11‧‧‧ into the water

12‧‧‧出水端 12‧‧‧ water outlet

20‧‧‧水力發電裝置 20‧‧‧Hydroelectric installation

21‧‧‧入口端 21‧‧‧ entrance end

22‧‧‧出口端 22‧‧‧export end

30‧‧‧加熱管路 30‧‧‧heating line

31‧‧‧入水口 31‧‧‧ water inlet

32‧‧‧出水口 32‧‧‧Water outlet

35‧‧‧迴路 35‧‧‧ circuit

50‧‧‧第一水管 50‧‧‧First water pipe

52‧‧‧第二水管 52‧‧‧Second water pipe

70‧‧‧加熱裝置 70‧‧‧ heating device

72‧‧‧熱交換箱 72‧‧‧Hot exchange box

74‧‧‧致冷晶片 74‧‧‧Chilled wafer

76‧‧‧導熱片 76‧‧‧ Thermal sheet

80‧‧‧真空箱體 80‧‧‧vacuum cabinet

400‧‧‧加熱組 400‧‧‧heating group

741‧‧‧導線 741‧‧‧ wire

742‧‧‧冷端 742‧‧‧ cold end

743‧‧‧熱端 743‧‧‧ hot end

圖1顯示本案之元件組合示意圖。 Figure 1 shows a schematic diagram of the component combinations of the present case.

圖2顯示本案之加熱裝置之示意圖。 Figure 2 shows a schematic view of the heating device of the present invention.

圖3顯示本案之另一元件組合示意圖。 Figure 3 shows a schematic diagram of another component combination of the present invention.

圖4顯示本案之加熱裝置之另一示意圖。 Figure 4 shows another schematic view of the heating device of the present invention.

圖5顯示本案之另一元件組合示意圖。 Figure 5 shows a schematic diagram of another component combination of the present invention.

圖6顯示本案之另一元件組合示意圖。 Figure 6 shows a schematic diagram of another component combination of the present invention.

茲謹就本案的結構組成,及所能產生的功效與優點,配合圖式,舉本案之一較佳實施例詳細說明如下。 In view of the structural composition of the case, and the functions and advantages that can be produced, in conjunction with the drawings, a preferred embodiment of the present invention is described in detail below.

請參考圖1至圖6所示,顯示本發明之以致冷晶片加熱之水流加熱器,包含下列元件:一水力發電機組10,用於接收外部輸入的水並進行發電,其包含一入水端11及出水端12,該入水端11可用於連接一水龍頭10,而接收來自該水龍頭10的水。當外部的水經由該入水端11輸入該水力發電機組10,即會驅動該水力發電機組10發電,並從該出水端12流出。其中該入水端11經由一第一水管50連接該水龍頭10。 Referring to FIG. 1 to FIG. 6, a water flow heater for heating a cooled wafer of the present invention is shown, comprising the following components: a hydroelectric generating set 10 for receiving externally input water and generating electricity, which comprises a water inlet end 11 And a water outlet end 12, which can be used to connect a faucet 10 and receive water from the faucet 10. When external water is supplied to the hydroelectric generating set 10 via the water inlet end 11, the hydroelectric generating set 10 is driven to generate electricity and flows out from the water discharging end 12. The water inlet end 11 is connected to the faucet 10 via a first water pipe 50.

上述的該水龍頭10僅是作為該入水端11可連接的水源之一例,其並不用於限制本案的範圍,凡是該入水端11可連接的任何水源皆在本案的範圍中。 The faucet 10 described above is only one example of a water source connectable to the water inlet end 11, and is not intended to limit the scope of the present invention. Any water source to which the water inlet end 11 can be connected is within the scope of the present invention.

其中該水力發電機組10可包含至少一水力發電裝置20,用於接收外部輸入的水並進行發電,其中各該水力發電裝置20包含一入口端21及一出口端22(如圖1所示)。該入口端21係接收來自該水力發電機組10的入水端11所輸入的水流, 而該輸入的水流會驅動該水力發電裝置20發電,並從該出口端22流出,而從該出水端12流出。 The hydroelectric generating set 10 can include at least one hydroelectric generating device 20 for receiving externally input water and generating electricity, wherein each of the hydroelectric generating devices 20 includes an inlet end 21 and an outlet end 22 (as shown in FIG. 1). . The inlet end 21 receives the water flow input from the water inlet end 11 of the hydroelectric generating set 10, The input water flow drives the hydroelectric generating device 20 to generate electricity, and flows out from the outlet end 22, and flows out from the water outlet end 12.

其中該水力發電裝置20的結構為習知技術所熟知者,所以不贅述其細節。 The structure of the hydropower unit 20 is well known to those skilled in the art, so the details thereof will not be described.

一加熱管路30,包含一入水口31及一出水口32,該加熱管路的入水口31連接該水力發電機組10的出水端12,該水力發電機組10的出水端12流出的水係輸入該加熱管路的入水口31,再從該加熱管路的出水口32流出。 A heating pipe 30 includes a water inlet port 31 and a water outlet 32. The water inlet port 31 of the heating pipe is connected to the water outlet end 12 of the hydroelectric generating set 10, and the water system input from the water outlet end 12 of the hydroelectric generating set 10 is input. The water inlet 31 of the heating pipe flows out from the water outlet 32 of the heating pipe.

一加熱組400串接於該加熱管路30中,用於加熱該加熱管路30中的水。該加熱組400包含至少一加熱裝置70,用於將從該水力發電機組10的出水端12輸出的水進一步加熱。其中各該加熱裝置70包含:一熱交換箱72具有中空結構,該加熱管路30的水流係通過該熱交換箱72。 A heating group 400 is connected in series to the heating line 30 for heating the water in the heating line 30. The heating group 400 includes at least one heating device 70 for further heating the water output from the water outlet end 12 of the hydro-generator set 10. Each of the heating devices 70 includes a heat exchange box 72 having a hollow structure through which the water flow of the heating line 30 passes.

一致冷晶片74貼附在該熱交換箱72的一側,該致冷晶片74經由導線741連接各該水力發電裝置20。各該水力發電裝置20所產生的電力係經由對應之導線741輸入該致冷晶片74。如圖2所示,其中該致冷晶片74包含一冷端742及一熱端743,該熱端743係面向該熱交換箱72,係當該致冷晶片74 通電時,該致冷晶片74的熱端743的溫度會升高,而對該熱交換箱72中的水流加熱,使得該熱交換箱72中的水流溫度升高。 A uniform cold wafer 74 is attached to one side of the heat exchange tank 72, and the refrigerant wafer 74 is connected to each of the hydroelectric power generating units 20 via a wire 741. The electric power generated by each of the hydroelectric devices 20 is input to the refrigerating wafer 74 via a corresponding wire 741. As shown in FIG. 2, the refrigerating wafer 74 includes a cold end 742 and a hot end 743 facing the heat exchange box 72 as the refrigerating wafer 74. When energized, the temperature of the hot end 743 of the chilled wafer 74 rises, and the flow of water in the heat exchange tank 72 heats, causing the temperature of the water stream in the heat exchange tank 72 to rise.

其中該熱交換箱72可設有導熱片76位於該致冷晶片74的一側,如圖2所示。該導熱片76用於增加該致冷晶片74的導熱面積,而提高升溫效果。 The heat exchange box 72 may be provided with a heat conducting sheet 76 on one side of the refrigerant wafer 74, as shown in FIG. The heat conductive sheet 76 serves to increase the heat transfer area of the refrigerant wafer 74 to improve the temperature increasing effect.

其中該加熱管路30位於該熱交換箱72中的部分可形成曲折的迴路35(如圖4所示),而增加該加熱管路30位於該熱交換箱72內的部分的長度,以增加加熱效率。 Wherein the portion of the heating pipe 30 located in the heat exchange box 72 can form a tortuous circuit 35 (as shown in FIG. 4), and increase the length of the portion of the heating pipe 30 located in the heat exchange box 72 to increase Heating efficiency.

當該水龍頭10開啟時,即會將水輸入該水力發電機組10,而令該水力發電機組10發電而將電力輸出到該加熱組400,使得該加熱組400產生熱能而對該加熱管路30加熱,因此當水從該水力發電機組10輸出而通過該加熱管路30後,水溫會上升而形成熱水,而從該加熱管路30的出水口32流出,因此可以達到加熱該水龍頭10的水的效果。本案應用該水力發電機組10作為該加熱組400的供電來源,因此該加熱組400無須另外連接外部的電源。 When the faucet 10 is turned on, water is input to the hydro-generator set 10, and the hydro-generator set 10 is generated to output electric power to the heating group 400, so that the heating group 400 generates thermal energy to the heating pipe 30. Heating, so when water is output from the hydro-generator 10 and passes through the heating line 30, the water temperature rises to form hot water, and flows out of the water outlet 32 of the heating line 30, so that the faucet 10 can be heated. The effect of the water. In the present case, the hydro-generator set 10 is used as a power source for the heating group 400, so the heating group 400 does not need to be connected to an external power source.

本案尚可包含一真空箱體80包覆住該加熱組400(如圖5所示),該真空箱體80內部係抽真空而形成真空狀態,而使得該加熱組400具有更佳的加熱效果。 The present invention may further comprise a vacuum box 80 covering the heating group 400 (as shown in FIG. 5), the vacuum box body 80 is evacuated to form a vacuum state, so that the heating group 400 has better heating effect. .

本案的應用例中,該至少一加熱裝置70可為多個加熱裝置70,而該多個加熱裝置70以串接的方式串接在該加熱管路30中(如圖3所示)。 In the application example of the present application, the at least one heating device 70 may be a plurality of heating devices 70, and the plurality of heating devices 70 are serially connected in the heating pipe 30 (as shown in FIG. 3).

如圖6所示,該至少一水力發電裝置20可以為多個水力發電裝置20,其中該水力發電機組10的入水端11係為最靠近該水龍頭10的水力發電裝置20的入口端21;其中該水力發電機組10的出水端12係為最遠離該水龍頭10的水力發電裝置20的出口端22;其中相鄰的不同水力發電裝置20之間分別經由第二水管52互相連接,各該第二水管52的一端係連接上一級的水力發電裝置20的出口端22,另一端則連接下一級的水力發電裝置20的入口端21。 As shown in FIG. 6, the at least one hydropower generating device 20 may be a plurality of hydroelectric generating devices 20, wherein the water inlet end 11 of the hydroelectric generating set 10 is the inlet end 21 of the hydroelectric generating device 20 closest to the faucet 10; The water outlet end 12 of the hydroelectric generating set 10 is the outlet end 22 of the hydroelectric generating device 20 farthest from the faucet 10; wherein the adjacent different hydroelectric generating devices 20 are connected to each other via a second water pipe 52, each of which is second One end of the water pipe 52 is connected to the outlet end 22 of the hydroelectric power unit 20 of the upper stage, and the other end is connected to the inlet end 21 of the hydroelectric power unit 20 of the next stage.

本案的優點在於將一水力發電機組結合一具有致冷晶片的加熱組而形成一加熱器,當外部的水流入該加熱器時,會先流經該水力發電機組而令該水力發電機組發電,並將所產生的電力輸入該加熱組,使得其致冷晶片產生熱能,因此當水從該水力發電機組流往該加熱組時,該加熱組即可應用致冷晶片的熱能對水流加熱,而形成熱水向外輸出。因此經由本案的結構可以有效利用致冷晶片的熱能,並且也達到加熱水溫的目的,而無須連接外部的電源。此為習知之加熱器所無法達成者。 The advantage of the present invention is that a hydro-generator set is combined with a heating group having a refrigerating wafer to form a heater. When external water flows into the heater, it will first flow through the hydro-generator set to cause the hydro-generator unit to generate electricity. And inputting the generated electric power into the heating group, so that the refrigerating wafer generates thermal energy, so when water flows from the hydroelectric generating set to the heating group, the heating group can apply the thermal energy of the refrigerating wafer to heat the water stream, and The hot water is formed to be output to the outside. Therefore, the structure of the present invention can effectively utilize the thermal energy of the cooled wafer and also achieve the purpose of heating the water temperature without connecting an external power source. This is a failure of the conventional heater.

綜上所述,本案人性化之體貼設計,相當符合實際需求。 其具體改進現有缺失,相較於習知技術明顯具有突破性之進步優點,確實具有功效之增進,且非易於達成。本案未曾公開或揭露於國內與國外之文獻與市場上,已符合專利法規定。 In summary, the humanized design of this case is quite in line with actual needs. The specific improvement of the existing defects is obviously a breakthrough improvement advantage compared with the prior art, and it has an improvement in efficacy and is not easy to achieve. The case has not been disclosed or disclosed in domestic and foreign literature and market, and has complied with the provisions of the Patent Law.

上列詳細說明係針對本發明之一可行實施例之具體說明,惟該實施例並非用以限制本發明之專利範圍,凡未脫離本發明技藝精神所為之等效實施或變更,均應包含於本案之專利範圍中。 The detailed description of the preferred embodiments of the present invention is intended to be limited to the scope of the invention, and is not intended to limit the scope of the invention. The patent scope of this case.

Claims (7)

一種以致冷晶片加熱之水流加熱器,包含:一水力發電機組,用於接收外部輸入的水並進行發電,其包含一入水端及出水端;當外部的水經由該入水端輸入該水力發電機組,即會驅動該水力發電機組發電,並從該出水端流出;其中該水力發電機組包含至少一水力發電裝置,用於接收外部輸入的水並進行發電,其中各該水力發電裝置包含一入口端及一出口端;該入口端係接收來自該水力發電機組的入水端所輸入的水流,而該輸入的水流會驅動該水力發電裝置發電,並從該出口端流出,而從該出水端流出;一加熱管路,包含一入水口及一出水口,該加熱管路的入水口連接該水力發電機組的出水端,該水力發電機組的出水端流出的水係輸入該加熱管路的入水口,再從該加熱管路的出水口流出;一加熱組串接於該加熱管路中,用於加熱該加熱管路中的水;該加熱組包含至少一加熱裝置,用於將從該水力發電機組的出水端輸出的水進一步加熱;其中各該加熱裝置包含:一熱交換箱具有中空結構,該加熱管路的水流 係通過該熱交換箱;一致冷晶片貼附在該熱交換箱的一側,該致冷晶片經由導線連接各該水力發電裝置;各該水力發電裝置所產生的電力係經由對應之導線輸入該致冷晶片;其中該致冷晶片包含一冷端及一熱端,該熱端係面向該熱交換箱,當該致冷晶片通電時,該致冷晶片的熱端的溫度會升高,而對該熱交換箱中的水流加熱,使得該熱交換箱中的水流溫度升高。 A water flow heater for heating a cold wafer, comprising: a hydroelectric generating set for receiving externally input water and generating electricity, comprising a water inlet end and a water outlet end; when external water is input into the hydroelectric generating unit via the water inlet end The hydroelectric generating set is driven to generate electricity and flows out from the water outlet end; wherein the hydroelectric generating set includes at least one hydroelectric generating device for receiving externally input water and generating electricity, wherein each of the hydroelectric generating devices includes an inlet end And an outlet end; the inlet end receives the water flow input from the water inlet end of the hydroelectric generating set, and the input water flow drives the hydroelectric generating device to generate electricity, and flows out from the outlet end, and flows out from the water outlet end; a heating pipe includes a water inlet and a water outlet, wherein the water inlet of the heating pipeline is connected to the water outlet of the hydroelectric generating unit, and the water flowing out of the water outlet of the hydroelectric generating unit is input into the water inlet of the heating pipeline. And flowing out from the water outlet of the heating pipeline; a heating group is connected in series in the heating pipeline for heating water in the heating pipeline; Heating groups comprising at least one heating device for further heating the water from the outlet end of the hydro unit output; wherein each of said heating apparatus comprising: a heat exchange cabinet has a hollow structure, the heating water line Passing through the heat exchange box; a uniform cold wafer is attached to one side of the heat exchange box, and the refrigerant chip is connected to each of the hydroelectric power generating devices via wires; the electric power generated by each of the hydroelectric power generating devices is input through a corresponding wire a refrigerated wafer; wherein the refrigerating wafer comprises a cold end and a hot end, the hot end facing the heat exchange box, and when the refrigerating wafer is energized, the temperature of the hot end of the refrigerating wafer is increased, and The flow of water in the heat exchange tank is heated such that the temperature of the water stream in the heat exchange tank rises. 如申請專利範圍第1項所述之以致冷晶片加熱之水流加熱器,其中該熱交換箱設有導熱片位於該致冷晶片的一側;該導熱片用於增加該致冷晶片的導熱面積,而提高升溫效果。 A water flow heater for heating a cold wafer as described in claim 1, wherein the heat exchange box is provided with a heat conductive sheet on one side of the refrigerant wafer; the heat conductive sheet is used to increase a heat transfer area of the cold wafer And improve the heating effect. 如申請專利範圍第1項所述之以致冷晶片加熱之水流加熱器,其中該至少一加熱裝置為多個加熱裝置,而該多個加熱裝置以串接的方式串接在該加熱管路中。 The water flow heater for heating a cold wafer according to claim 1, wherein the at least one heating device is a plurality of heating devices, and the plurality of heating devices are serially connected in the heating pipe in series. . 如申請專利範圍第1項所述之以致冷晶片加熱之水流加熱器,其中該至少一水力發電裝置為多個水力發電裝置。 A water flow heater for heating a cold wafer as described in claim 1 wherein the at least one hydroelectric power generating device is a plurality of hydroelectric power generating devices. 如申請專利範圍第1項所述之以致冷晶片加熱之水流加熱器,其中該入水端用於連接一水龍頭;該入水端經由一第一水管連接該水龍頭。 A water flow heater for heating a cold wafer as described in claim 1 wherein the water inlet end is used to connect a water tap; the water inlet end is connected to the water tap via a first water pipe. 如申請專利範圍第1項所述之以致冷晶片加熱之水流加熱器,其中該加熱管路位於該熱交換箱中的部分形成曲折的迴路,而增加該加熱管路位於該熱交換箱內的部分的長度,以增加加熱效率。 A water flow heater for heating a cold wafer as described in claim 1, wherein the portion of the heating pipe located in the heat exchange box forms a tortuous circuit, and the heating pipe is located in the heat exchange box. Part of the length to increase heating efficiency. 如申請專利範圍第1項所述之以致冷晶片加熱之水流加熱器,尚包含一真空箱體包覆住該加熱組,該真空箱體內部係抽真空而形成真空狀態,而使得該加熱組具有更佳的加熱效果。 The water flow heater for heating the cold wafer according to the first aspect of the patent application, further comprising a vacuum box covering the heating group, wherein the vacuum box is evacuated to form a vacuum state, so that the heating group Has a better heating effect.
TW107101746A 2018-01-17 2018-01-17 Water flow heater using cooling chip for heating capable of fully utilizing the heat energy of the cooling chip to heat water without requiring an external power supply TW201932768A (en)

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