TWM497760U - Solar energy refrigerant device for cooling and heating - Google Patents

Solar energy refrigerant device for cooling and heating Download PDF

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Publication number
TWM497760U
TWM497760U TW103217255U TW103217255U TWM497760U TW M497760 U TWM497760 U TW M497760U TW 103217255 U TW103217255 U TW 103217255U TW 103217255 U TW103217255 U TW 103217255U TW M497760 U TWM497760 U TW M497760U
Authority
TW
Taiwan
Prior art keywords
condenser
liquid
hot water
compressor
solar energy
Prior art date
Application number
TW103217255U
Other languages
Chinese (zh)
Inventor
Sui-Xiang Chen
Original Assignee
Sui-Xiang Chen
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 Sui-Xiang Chen filed Critical Sui-Xiang Chen
Priority to TW103217255U priority Critical patent/TWM497760U/en
Publication of TWM497760U publication Critical patent/TWM497760U/en
Priority to CN201520752033.1U priority patent/CN205037620U/en

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Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/44Heat exchange systems

Description

太陽能貯冷熱之冷媒裝置Solar energy storage and cooling device

本創作係一種以太陽趨動冷媒循環系統之裝置,尤指運用貯冰水桶和貯熱水桶貯存冷熱水者。This creation is a device that uses the sun to drive a refrigerant circulation system, especially those that use ice storage buckets and hot water storage tanks to store hot and cold water.

傳統使用太陽能趨動的冷媒循環系統並無使用貯冰水桶和貯熱水桶貯存冷熱水者。Traditionally, the use of solar-powered refrigerant circulation systems does not use ice storage buckets and hot water storage tanks to store hot and cold water.

一般太陽能板連接冰箱,以提供冰箱之壓縮機的電能已有多個研究,但需高容量的蓄電池儲存電能,才能提供冰箱夜間所需要的電能,如果提供冷氣機使用之電能,則蓄電池容量尚需比供應冰箱用之蓄電池增加許多倍,體積及價格也增加許多倍,此實應加以改善。本創作運用貯冰水桶和貯熱水桶,使白天太陽能提供壓縮機電能製造冰水及熱水,夜間則運用冰水產生冷氣(如同冰水機系統),如此蓄電池之容量可減少許多。Generally, solar panels are connected to refrigerators to provide power for the compressors of refrigerators. However, high-capacity batteries are required to store electrical energy to provide the power required for the refrigerator at night. If the power used by the air conditioner is provided, the battery capacity is still It needs to be many times larger than the battery for refrigerators, and the volume and price have increased many times. This should be improved. This creation uses ice storage buckets and hot water storage buckets to provide solar energy to provide compressor water to make ice water and hot water during the day, and ice water to generate cold air at night (like the chiller system), so the capacity of the battery can be reduced.

10‧‧‧太陽能板10‧‧‧ solar panels

11‧‧‧控制箱11‧‧‧Control box

12‧‧‧壓縮機12‧‧‧Compressor

13‧‧‧管路13‧‧‧ pipeline

14‧‧‧貯熱水桶14‧‧‧Storage hot water tank

15‧‧‧第一冷凝器15‧‧‧First condenser

16‧‧‧第二冷凝器16‧‧‧second condenser

17‧‧‧膨脹器17‧‧‧Expander

18‧‧‧貯冰水桶18‧‧‧ ice storage bucket

19‧‧‧蒸發器19‧‧‧Evaporator

20‧‧‧電線20‧‧‧Wire

第一圖 係本創作實施例之整體結構示意圖。The first figure is a schematic diagram of the overall structure of the present embodiment.

請參閱第一圖,本創作使用太陽能板(10)產生電能,經電線(20)傳輸到控制箱(11),由控制箱(11)控制是否需向壓縮機(12)輸出電力,當 壓縮機(12)獲得電力後就會壓縮並推動冷媒經管路(13)流到第一冷凝器(15),該第一冷凝器(15)與貯熱水桶(14)內之水等液體做熱交換,將水等液體溫度提升,而後冷媒再經管路(13)流經流到第二冷凝器(16)散逸多餘的熱量成為液態,而後冷媒經膨脹器(17)降壓後再流到蒸發器(19),該蒸發器(19)與貯冰水桶(18)中之水等液體做熱交換,將水等液體的溫度降低,而成為氣體,再經管路(13)流回壓縮機(12);本創作也可只使用貯熱水桶(14)或貯冷水桶(18)其中一個。Referring to the first figure, this creation uses solar panels (10) to generate electrical energy, which is transmitted to the control box (11) via wires (20), and the control box (11) controls whether it is necessary to output power to the compressor (12). After the compressor (12) obtains electric power, it compresses and pushes the refrigerant to flow through the pipeline (13) to the first condenser (15), and the first condenser (15) and the liquid in the hot water tank (14) are made of liquid or the like. Heat exchange, the temperature of the liquid such as water is raised, and then the refrigerant flows through the pipeline (13) to the second condenser (16) to dissipate excess heat into a liquid state, and then the refrigerant is depressurized by the expander (17) and then flows to The evaporator (19) exchanges heat with a liquid such as water in the ice storage bucket (18) to lower the temperature of the liquid such as water to become a gas, and then flows back to the compressor via the pipeline (13). (12); This creation may also use only one of the hot water tank (14) or the cold water tank (18).

10‧‧‧太陽能板10‧‧‧ solar panels

11‧‧‧控制箱11‧‧‧Control box

12‧‧‧壓縮機12‧‧‧Compressor

13‧‧‧管路13‧‧‧ pipeline

14‧‧‧貯熱水桶14‧‧‧Storage hot water tank

15‧‧‧第一冷凝器15‧‧‧First condenser

16‧‧‧第二冷凝器16‧‧‧second condenser

17‧‧‧膨脹器17‧‧‧Expander

18‧‧‧貯冰水桶18‧‧‧ ice storage bucket

19‧‧‧蒸發器19‧‧‧Evaporator

20‧‧‧電線20‧‧‧Wire

Claims (2)

一種太陽能貯冷熱之冷媒裝置,包括:至少一片太陽能板,該太陽能板以電線連接控制箱,控制箱再以電線連接壓縮機;至少一壓縮機,該壓縮機電源由控制箱而來,該壓縮機可壓縮和推動冷媒至第一冷凝器;至少一個第一冷凝器,該第一冷凝器以管路連接壓縮機,該第一冷凝器設置於貯熱水桶內,可以讓該第一冷凝器內之冷媒與貯熱水桶內之液體做熱交換,以提高該液體之溫度;一貯熱水桶,該貯熱水桶內設置有第一冷凝器及液體;一貯冰水桶,該貯冰水桶內設置有蒸發器及液體,該蒸發器可吸收液體之熱量,以降低液體之溫度,該蒸發器以管路連接壓縮機。A solar energy storage and cooling device comprises: at least one solar panel connected to a control box by wires, wherein the control box is connected to the compressor by wires; at least one compressor, the compressor power source is provided by the control box, the compression The machine can compress and push the refrigerant to the first condenser; at least one first condenser, the first condenser is connected to the compressor by a pipeline, and the first condenser is disposed in the hot water storage tank, and the first condenser can be The inside refrigerant exchanges heat with the liquid in the hot water tank to increase the temperature of the liquid; a hot water tank, the first condenser and the liquid are disposed in the hot water tank; and an ice storage bucket in the ice storage bucket An evaporator and a liquid are provided, the evaporator can absorb the heat of the liquid to lower the temperature of the liquid, and the evaporator is connected to the compressor by a pipeline. 依申請專利範圍第1項所速之太陽能貯冷熱之冷媒裝置,其中,貯熱水桶和貯冰水桶可只使用其中一個。According to the first aspect of the patent application, the solar energy storage heat and cold refrigerant device can use only one of the hot water storage tank and the ice storage water bucket.
TW103217255U 2014-09-27 2014-09-27 Solar energy refrigerant device for cooling and heating TWM497760U (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
TW103217255U TWM497760U (en) 2014-09-27 2014-09-27 Solar energy refrigerant device for cooling and heating
CN201520752033.1U CN205037620U (en) 2014-09-27 2015-09-25 Solar cold and hot storage refrigerant device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
TW103217255U TWM497760U (en) 2014-09-27 2014-09-27 Solar energy refrigerant device for cooling and heating

Publications (1)

Publication Number Publication Date
TWM497760U true TWM497760U (en) 2015-03-21

Family

ID=53188273

Family Applications (1)

Application Number Title Priority Date Filing Date
TW103217255U TWM497760U (en) 2014-09-27 2014-09-27 Solar energy refrigerant device for cooling and heating

Country Status (2)

Country Link
CN (1) CN205037620U (en)
TW (1) TWM497760U (en)

Also Published As

Publication number Publication date
CN205037620U (en) 2016-02-17

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