TWM378362U - Energy integration supply device - Google Patents

Energy integration supply device Download PDF

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Publication number
TWM378362U
TWM378362U TW98217258U TW98217258U TWM378362U TW M378362 U TWM378362 U TW M378362U TW 98217258 U TW98217258 U TW 98217258U TW 98217258 U TW98217258 U TW 98217258U TW M378362 U TWM378362 U TW M378362U
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TW
Taiwan
Prior art keywords
space
rewinding
supply device
switching valve
water heater
Prior art date
Application number
TW98217258U
Other languages
Chinese (zh)
Inventor
Samuel Yin
Original Assignee
Ruentex Eng & Constr Co Ltd
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
Application filed by Ruentex Eng & Constr Co Ltd filed Critical Ruentex Eng & Constr Co Ltd
Priority to TW98217258U priority Critical patent/TWM378362U/en
Publication of TWM378362U publication Critical patent/TWM378362U/en

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  • Detail Structures Of Washing Machines And Dryers (AREA)

Description

產生冷氣使室鱗低,與此_低溫冷雜賴為高溫冷媒; 第二管路切換閥400使壓縮機13〇自第一蒸發器11〇輸入高溫 ,媒’而後加以加壓;第四管路切換閥_使壓縮機13〇輸出 高溫冷媒至熱水器220 ’熱水器220利用高溫冷媒產生熱水, 與此同時高溫冷媒被轉換為低溫冷媒;第三管路切換閥5〇〇使 膨脹裝置140自熱水器220輸入低溫冷媒,而後加以降壓。此 時第-蒸發器110及熱水器22〇 _作動,一方面對室内提供 冷氣,另一方面提供熱水。 當工作於第二操作模式時,第一管路切換閥300使膨脹裝 置140輸出低溫冷媒至第一蒸發器11〇,以產生冷氣使室溫降 低’與此同時低溫冷媒被轉換為高溫冷媒;第二管路切換間 伽使壓賴130自第-蒸發器11〇輸入高溫冷媒,而後加以 ^壓;第四管路切換閥咖使壓縮機13〇輸出高溫冷媒至冷凝 益210 ’冷凝器21〇利用高溫冷媒產生熱風以供乾衣物,與此 同時冋溫冷媒被轉換為低溫冷媒;第三管路切換閥剛使膨脹 裝置140自冷凝器21〇輸入低溫冷媒,而後加以降壓。此時第 =蒸發器110及冷凝器210同時作動,一方面對室内提供冷 氣,另一方面提供熱風以烘乾衣物。 當操作於第三操作模式時,第一管路切換閥3〇〇使膨脹裝 置140輸出低溫冷媒至第二蒸發器12〇,以產生冷氣乾燥衣 物,與此同時低溫冷媒被轉換為高溫冷媒;第二管路切換閥 4〇〇使壓縮機130自第二蒸發器丨2()輸入高溫冷媒,而後加以 加壓’第四管路切換閥600使壓縮機130輸出高溫冷媒至熱水 器220,熱水器no利用高溫冷媒產生熱水,與此同時高溫冷 媒被轉換為低溫冷媒;第三管路切換閥500使膨脹裝置14〇自 熱水器220輸入低溫冷媒,而後加以降壓。此時第二蒸發这 i2〇及熱水器220同時作動,一方面提供冷風以乾燥衣物二】 一方面提供熱水。 本創作已由上述相關實施例加以描述,然而上述實施例僅 為實施本創作之範例。必需指㈣是’已揭露之實施例並未限 制本創作之範圍。相反地’包含於申請專利範圍之精神及範圍 之修改及均等設置均包含於本創作之範圍内。 【圖式簡單說明】 圓1為本創作能源整合供應裝置的一實施例的示意圖; 圖2為圖1所示能源整合供應裝置的熱水器的剖視圖; 圖3為圖1所示能源整合供絲置的使用實施例的示意圖。 【主要元件符號說明】 110第一蒸發器 120第二蒸發器 121迴繞管路 122風扇 130壓縮機 140膨脹裝置 210冷凝器 211迴繞管路The cold air is generated to make the chamber scale low, and the low temperature cold is caused by the high temperature refrigerant; the second pipeline switching valve 400 causes the compressor 13 to input the high temperature from the first evaporator 11 , and then pressurizes the medium; The road switching valve _ causes the compressor 13 to output high temperature refrigerant to the water heater 220. The water heater 220 generates hot water by using the high temperature refrigerant, and at the same time, the high temperature refrigerant is converted into a low temperature refrigerant; the third line switching valve 5 〇〇 causes the expansion device 140 to self The water heater 220 inputs a low temperature refrigerant and then depressurizes it. At this time, the first evaporator 110 and the water heater 22 are operated to provide cold air to the room and hot water on the other hand. When operating in the second mode of operation, the first line switching valve 300 causes the expansion device 140 to output low temperature refrigerant to the first evaporator 11A to generate cold air to lower the room temperature while the low temperature refrigerant is converted into a high temperature refrigerant; The second pipeline switching gamma pressure 130 is input from the first evaporator 104 into the high temperature refrigerant, and then is pressed; the fourth pipeline switching valve causes the compressor 13 to output the high temperature refrigerant to the condensation benefit 210 'condenser 21 〇 High-temperature refrigerant is used to generate hot air for drying clothes, and at the same time, the tempering refrigerant is converted into a low-temperature refrigerant; the third line switching valve just causes the expansion device 140 to be input into the low-temperature refrigerant from the condenser 21, and then is depressurized. At this time, the evaporator 105 and the condenser 210 are simultaneously operated to supply cold air to the inside of the room and hot air to dry the clothes on the other hand. When operating in the third mode of operation, the first line switching valve 3 causes the expansion device 140 to output low temperature refrigerant to the second evaporator 12A to generate cold air drying laundry, while the low temperature refrigerant is converted into a high temperature refrigerant; The second pipeline switching valve 4 causes the compressor 130 to input the high temperature refrigerant from the second evaporator 丨 2 (), and then pressurizes the 'fourth pipeline switching valve 600 to cause the compressor 130 to output the high temperature refrigerant to the water heater 220, the water heater The high-temperature refrigerant generates hot water, and at the same time, the high-temperature refrigerant is converted into a low-temperature refrigerant; the third line switching valve 500 causes the expansion device 14 to input the low-temperature refrigerant from the water heater 220, and then depressurizes. At this time, the second evaporation of the i2 〇 and the water heater 220 simultaneously act to provide cold air to dry the laundry on the one hand] to provide hot water on the one hand. This creation has been described by the above related embodiments, but the above embodiments are merely examples for implementing the present creation. It must be said that (4) is 'the disclosed embodiment does not limit the scope of this creation. To the contrary, modifications and equivalent arrangements are intended to be included within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 2 is a cross-sectional view of a water heater of the energy integrated supply device of FIG. 1; FIG. 3 is a cross-sectional view of the energy integrated device of FIG. A schematic of the use of the embodiments. [Main component symbol description] 110 first evaporator 120 second evaporator 121 rewinding pipe 122 fan 130 compressor 140 expansion device 210 condenser 211 rewinding pipe

Claims (1)

M378362 -第四管路切換閥,該第四管路切換閥連接於該壓縮機、該熱 水器及該冷凝器之間,使該壓縮機選擇性輸出該高溫冷媒至該 熱水器或該冷凝器’進而使該熱水器及該冷凝器交互運作。 6.如申請專利範圍第5項所述的能源整合供應裝置,其中該能源 整合供應裝置選擇性地操作於一第一操作模式、一第二操作模 式及-第三操作模式;當操作於該第—操作模式時,該第一蒸 發器及該熱水關時作動’以產生該冷氣使室溫降低且利用該 熱能提供—熱水;紅作於該第二操作模式時,該第-蒸發器 及該冷凝H同時侧,以產生該冷紐室溫降做彻該敎能 烘乾衣物;當操作於鮮三操作模式時,該第二蒸發器及該熱 水器同時作動’以產生該冷氣乾燥衣物且利用該熱能提供一熱 7. 如申請專利細第5項所述的能源整合供應裝置,其中該第二 =發器包含-迴繞管路及—風扇,該迴繞管路的—端連接师 广管路切換閥,另-端則連接於該第二管路切換闕’該迴^ =的中段部份於-平面上往復迴繞多次而形成—迴繞部,該 風扇设置於該迴繞部的一側而與該迴繞部平行。 人 8. 如申請專利範圍第5項所述的能源整合供應裝置 風扇,該迴繞管路的-端連接於該 、閥另-端則連接於該第四管路切換閥,該 :::一平面上往_燒多次而形成-迴繞部,該= 5又置於該迴繞部的一側而與該迴繞部平行。 頌 水槽、—鱗流板及-盤管,該水槽_成一空間; 11 M378362 該熱導流板設置於該水槽内而將該空間分隔為一第一空間及 一第二空間,並於該熱導流板的兩侧分別形成一第一間隙及一 第二間隙連通該第一空間及該第二空間;該盤管設置於該第一 空間中,利用該高溫冷媒加熱該水槽中的一液體,該液體藉由 該第一間隙及該第二間隙進行冷熱循環。 12M378362 - a fourth pipeline switching valve, the fourth pipeline switching valve is connected between the compressor, the water heater and the condenser, so that the compressor selectively outputs the high temperature refrigerant to the water heater or the condenser The water heater and the condenser are operated alternately. 6. The energy integration supply device of claim 5, wherein the energy integration supply device selectively operates in a first mode of operation, a second mode of operation, and a third mode of operation; In the first operation mode, the first evaporator and the hot water are activated to generate 'the cold air to lower the room temperature and provide the hot water by using the heat energy; and the red is used in the second operation mode, the first evaporation And the side of the condensation H to generate the cold room temperature to reduce the drying of the clothes; when operating in the fresh three operation mode, the second evaporator and the water heater simultaneously act to generate the cold air drying The clothing and the use of the heat energy to provide a heat. 7. The energy integration supply device of claim 5, wherein the second hair device comprises a rewinding pipe and a fan, and the end of the rewinding pipe is connected a wide pipe switching valve, the other end is connected to the second pipe switch 阙 'the middle portion of the return ^ = reciprocatingly rewinds a plurality of times on the - plane to form a wrap portion, the fan is disposed at the wrap portion One side is parallel to the wrap. 8. The energy integrated supply device fan according to claim 5, wherein the end of the rewinding line is connected to the end of the valve, and the other end of the valve is connected to the fourth line switching valve, the::: The plane is fired a plurality of times to form a rewinding portion, which is placed on one side of the rewinding portion and parallel to the rewinding portion.颂Sink, slats and coils, the sink _ into a space; 11 M378362 The heat deflector is disposed in the sink to divide the space into a first space and a second space, and the heat A first gap and a second gap are respectively formed on the two sides of the deflector to communicate the first space and the second space; the coil is disposed in the first space, and the liquid in the water tank is heated by the high temperature refrigerant The liquid undergoes a thermal cycle through the first gap and the second gap. 12
TW98217258U 2009-09-18 2009-09-18 Energy integration supply device TWM378362U (en)

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TW98217258U TWM378362U (en) 2009-09-18 2009-09-18 Energy integration supply device

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Application Number Priority Date Filing Date Title
TW98217258U TWM378362U (en) 2009-09-18 2009-09-18 Energy integration supply device

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TWM378362U true TWM378362U (en) 2010-04-11

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI831104B (en) * 2020-12-23 2024-02-01 新加坡商環保地球控股私人有限公司 Condensing unit

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI831104B (en) * 2020-12-23 2024-02-01 新加坡商環保地球控股私人有限公司 Condensing unit

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