^443145 101年10月03日修正替换頁 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係有關一種高效率全量型三效熱泵系統,尤 指一種進一步連結有冰水輔助降溫器與熱水輔助增溫器 之熱泵設計者。 【先前技術】 [0002] 按,冰熱水熱泵之工作原理,係以壓縮機不斷地抽 吸和壓缩冷媒,使冷媒在封閉系統中循環相變,而藉蒸 發器吸從熱能製造冰水,並由冷凝器釋放熱能製造熱水 ;於是,冰熱水熱泵除了能提供冰水進而產生冷氣,亦 能提供熱水作為洗澡熱水、泳池加溫及工業用熱水或是 進而產生暖氣。 [0003] 然而,若有冰水或是熱水需求超過常態負載設計之 突發狀兄,或有冰水或是熱水之蓄積受限於空間規劃而 無法大量蓄水之因素,一般型冰·熱水熱系就會有水溫無 法持續滿足需求之問題。 【新型内容】 [0004] 本創作之主要目的,係欲提供一種高效率全量型三 效熱果系統’而具有破保水溫持續滿足需求之功效。 [0005] 本創作之另一目的,則具有節能之功效。 [0006] 為達上述功效,本創作之結構特徵,係包括有:一 冷媒迴路管,連接於一壓縮機之高壓端與低壓端,而由 該壓縮機之高壓端至低壓端依序設置有冷凝器、膨脹閥 與蒸發器;一第一熱交換器,連接有補水管與冰水循環 10120880^^^^ A〇101 第3頁/共10頁 1013381237-0 M443145 101年10月03日核正替換頁 管,而該第一熱交換器與該蒸發器進行熱交換,該補水 管連接至給水源,且令該冰水循環管搭配風機而產生冷 氣;一第二熱交換器,連接有供水管與熱水出水管,而 該第二熱交換器與該冷凝器進行熱交換,該供水管連接 至給水源,該熱水出水管連接至熱水槽;以及一冰水輔 助降溫器,連結至該冰水循環管,而以一第一感溫計感 測該第一熱交換器之出水水溫,且將該第一感溫計與該 冰水輔助降溫器連接至一第一控制器,該第一控制器於 該第一熱交換器輸出之冰水冷度不足時,進一步令該冰 水輔助降溫器運轉,俾將冰水降溫至需求冷度者。 [0007] 此外,進一步設置一熱水輔助增溫器,該熱水輔助 增溫器藉一引水管連結至該熱水槽,而以一第二感溫計 感測該熱水槽之出水水溫,且將該第二感溫計與該熱水 輔助增溫器連接至一第二控制器,該第二控制器於該熱 水槽輸出之熱水熱度不足時,進一步令該熱水輔助增溫 器運轉,俾將熱水增溫至需求熱度。 [0008] 再者,該冰水輔助降溫器為冰水主機,該熱水輔助 增溫器為鍋爐。又,該第一熱交換器以板式或殼管式型 態與該蒸發器進行熱交換,該第二熱交換器以板式或殼 管式型態與該冷凝器進行熱交換。另,該冰水主機為氣 冷式冰水主機或水冷式冰水主機。 【實施方式】 [0009] [0010] 10120880^ 首先,請參閱「圖1」所示,本創作係包括有: 一冷媒迴路管10,連接於一壓縮機11之高壓端與低 壓端,而由該壓縮機11之高壓端至低壓端依序設置有冷 1013381237-0 A0101 第4頁/共10頁 M443145 _—_ 101年10月0 3日按正替换頁 凝器12、膨脹閥13與蒸發器14。 [0011] —第一熱交換器20,以板式或殼管式型態與該蒸發 器14進行熱交換,俾以利用冷媒蒸發過程吸收熱能之工 作原理將常溫水降溫成冰水,而該第一熱交換器20連接 有補水管21與冰水循環管22,該補水管21連接至補給常 溫水之給水源(圖未示),且令該冰水循環管22搭配風機 23而產生冷氣。 " [0012] 一第二熱交換器30,以板式或殼管式型態與該冷凝 φ 器12進行熱交換,俾以利用冷媒冷凝過程釋放熱能之工 作原理將常溫水升溫成熱水,而該第二熱交換器30連接 有供水管31與熱水出水管32,該供水管31連接至供給常 溫水之給水源(圖未示),該熱水出水管3 2連接至熱水槽 33 ° [0013] 一冰水輔助降溫器40,連結至該冰水循環管22,而 以一第一感溫計41感測該第一熱交換器20之出水水溫, 且將該第一感溫計41與該冰水輔助降溫器40連接至一第 一控制器42,該第一控制器42遂根據該第一感溫計41所 感測之出水水溫,而於該第一熱交換器2 0輸出之冰水冷 度不足時,進一步令該冰水輔助降溫器40運轉,俾將冰 水降溫至需求冷度;其中,該冰水輔助降溫器40可為氣 冷式冰水主機或是水冷式冰水主機。 [0014] 一熱水輔助增溫器50,藉一引水管53連結至該熱水 槽3 3,而以一第二感溫計51感測該熱水槽3 3之出水水溫 ,且將該第二感溫計51與該熱水辅助增溫器50連接至一 第二控制器52,該第二控制器52遂根據該第二感溫計51 10120880^^^ A0101 第5頁/共10頁 1013381237-0 M443145 [0015] [0016] [0017] [⑻ 18] [0019] 101年10月03日核正替换頁 所感測之出水水溫,而於該熱水槽33輸出之熱水熱度不 足時,進一步令該熱水輔助增溫器50運轉,俾將熱水增 溫至需求熱度:其中,該熱水輔助增溫器50可為鍋爐。 基於如是之構成,本創作之冰水輔助降溫器40與熱 水輔助增溫器50平時並不運轉,惟有當冰水或是熱水需 求超過常態之負載設計或是蓄水設計,該冰水輔助降溫 器40與該熱水輔助增溫器50才適時運轉,致使冰水達到 需求冷度或是熱水達到需求熱度;是以,本創作具有確 保水溫持續滿足需求之功效,另有無須提高熱泵負載設 計或是蓄水設計之節能功效。 综上所述,本創作所揭示之構造,為昔所無,且確 能達到功效之增進,並具可供產業利用性,完全符合新 型專利要件,祈請貴審查委員核賜專利,以勵創新,無 任德感。 惟,上述所揭露之圖式、說明,僅為本創作之較佳 實施例,大凡熟悉此項技藝人士,依本案精神範疇所作 之修飾或等效變化,仍應包括在本案申請專利範圍内。 【圖式簡單說明】 圖1係本創作之結構示意圖。 【主要元件符號說明】 10冷媒迴路管 11壓縮機 12冷凝器 13膨脹閥 丽·#單编號A0101 第6頁/共10頁 1013381237-0 M443145 _- 101年10月03日修正替換頁 14蒸發器 20第一熱交換器 21補水管 22冰水循環管 23風機 -。 30第二熱交換器 31供水管 32熱水出水管 33熱水槽 ® 40冰水補助降溫器 41第一感溫計 42第一控制器 50熱水辅助增溫器 51第二感溫計 52第二控制器 53引水管 10120880^^ A〇101 第7頁/共10頁 1013381237-0^443145 October 03, 101 revised replacement page 5, new description: [New technical field] [0001] This creation is related to a high-efficiency full-quantity three-effect heat pump system, especially a kind of further connection with ice water to assist cooling Heat pump designer with hot water auxiliary warmer. [Prior Art] [0002] According to the working principle of the ice hot water heat pump, the compressor continuously sucks and compresses the refrigerant, so that the refrigerant circulates and changes phase in the closed system, and the evaporator absorbs heat from the heat to make ice water. The hot water is released by the condenser to produce hot water; therefore, the ice hot water heat pump can provide hot water as bathing hot water, swimming pool heating, industrial hot water or heating, in addition to providing ice water to generate cold air. [0003] However, if ice water or hot water demand exceeds the sudden load of the normal load design, or the accumulation of ice water or hot water is limited by spatial planning, it is impossible to store a large amount of water. ·The hot water heating system will have the problem that the water temperature cannot continue to meet the demand. [New Content] [0004] The main purpose of this creation is to provide a high-efficiency and full-volume three-effect hot fruit system, which has the effect of continuously maintaining the water temperature to meet the demand. [0005] Another purpose of this creation is to have the effect of energy saving. [0006] In order to achieve the above effects, the structural features of the present invention include: a refrigerant circuit tube connected to the high voltage end and the low voltage end of a compressor, and the high pressure end to the low pressure end of the compressor are sequentially disposed. Condenser, expansion valve and evaporator; a first heat exchanger, connected with a water supply pipe and ice water circulation 10120880^^^^ A〇101 Page 3 / Total 10 pages 1013381237-0 M443145 October 03, 101 Replacing the page tube, and the first heat exchanger exchanges heat with the evaporator, the water supply pipe is connected to the water supply source, and the ice water circulation pipe is matched with the fan to generate cold air; and the second heat exchanger is connected with the water supply pipe And a hot water outlet pipe, wherein the second heat exchanger is in heat exchange with the condenser, the water supply pipe is connected to a water supply source, the hot water outlet pipe is connected to the hot water tank; and an ice water auxiliary desuperheater is connected to the water supply pipe An ice water circulation pipe, wherein a temperature of the outlet water of the first heat exchanger is sensed by a first thermometer, and the first thermometer and the ice water auxiliary desuperheater are connected to a first controller, the first a controller outputting the first heat exchanger Insufficient water cooling degree, so that the ice water further auxiliary cooling device operation, to serve the needs of cold ice water to cool those degrees. [0007] Further, a hot water auxiliary warmer is further disposed, the hot water auxiliary warmer is connected to the hot water tank by a water conduit, and the water temperature of the hot water tank is sensed by a second thermometer. And connecting the second temperature sensor and the hot water auxiliary warmer to a second controller, the second controller further making the hot water auxiliary warmer when the hot water output of the hot water tank is insufficient Run, 增 warm the hot water to the demand heat. [0008] Furthermore, the ice water auxiliary desuperheater is an ice water main machine, and the hot water auxiliary warmer is a boiler. Further, the first heat exchanger exchanges heat with the evaporator in a plate or shell tube type, and the second heat exchanger exchanges heat with the condenser in a plate or shell type. In addition, the ice water host is an air-cooled ice water host or a water-cooled ice water host. [Embodiment] [0009] [0010] 10120880^ First, please refer to "Fig. 1", the creation system includes: a refrigerant circuit tube 10 connected to the high voltage end and the low voltage end of a compressor 11, and The high pressure end to the low pressure end of the compressor 11 are sequentially arranged with cold 1013381237-0 A0101 page 4 / total 10 pages M443145 ___ 101 October 3rd, according to the positive replacement page fuse 12, expansion valve 13 and evaporation 14. [0011] The first heat exchanger 20 exchanges heat with the evaporator 14 in a plate or shell-and-tube type, and uses the working principle of absorbing heat energy by the refrigerant evaporation process to cool the normal temperature water into ice water, and the first heat exchanger 20 A heat exchanger 20 is connected to the water supply pipe 21 and the ice water circulation pipe 22, and the water supply pipe 21 is connected to a water supply source (not shown) for supplying normal temperature water, and the ice water circulation pipe 22 is matched with the fan 23 to generate cold air. " [0012] A second heat exchanger 30 exchanges heat with the condensing φ 12 in a plate or shell tube type, and heats the normal temperature water into hot water by utilizing the working principle of releasing heat energy by the condensation process of the refrigerant. The second heat exchanger 30 is connected to a water supply pipe 31 and a hot water outlet pipe 32. The water supply pipe 31 is connected to a water supply source (not shown) for supplying normal temperature water, and the hot water outlet pipe 32 is connected to the hot water tank 33. [0013] An ice water auxiliary desuperheater 40 is coupled to the ice water circulation pipe 22, and senses the water temperature of the first heat exchanger 20 by a first temperature sensor 41, and the first temperature is sensed. The meter 41 and the ice water auxiliary desuperheater 40 are connected to a first controller 42. The first controller 42 is based on the effluent water temperature sensed by the first thermometer 41, and is in the first heat exchanger 2. When the output of the ice water is insufficient, the ice water auxiliary desuperheater 40 is further operated, and the ice water is cooled to the required coldness; wherein the ice water auxiliary desuperheater 40 can be an air-cooled ice water host or water cooled. Ice water host. [0014] a hot water auxiliary warmer 50 is connected to the hot water tank 33 by a water conduit 53, and the water temperature of the hot water tank 3 3 is sensed by a second temperature meter 51, and the first The second temperature sensor 51 and the hot water auxiliary warmer 50 are connected to a second controller 52, and the second controller 52 is according to the second temperature sensor 51 10120880^^^ A0101 page 5 / total 10 pages 1013381237-0 M443145 [0015] [0018] [(8) 18] [0019] On October 3, 101, the effluent water temperature sensed by the replacement page is verified, and when the hot water output from the hot water tank 33 is insufficient Further, the hot water auxiliary warmer 50 is operated to warm the hot water to a required heat: wherein the hot water auxiliary warmer 50 can be a boiler. Based on the composition, the ice water auxiliary desuperheater 40 and the hot water auxiliary warmer 50 of the present invention do not operate normally, but only when the ice water or the hot water demand exceeds the normal load design or the water storage design, the ice water The auxiliary desuperheater 40 and the hot water auxiliary warmer 50 are operated in a timely manner, so that the ice water reaches the required coldness or the hot water reaches the required heat; therefore, the creation has the effect of ensuring that the water temperature continues to meet the demand, and there is no need to Improve the energy efficiency of heat pump load design or water storage design. In summary, the structure revealed by this creation is unprecedented, and it can achieve the improvement of efficacy, and it can be used for industrial utilization. It fully complies with the new patent requirements, and invites your review committee to grant patents. Innovation, no sense of morality. However, the drawings and descriptions disclosed above are only preferred embodiments of the present invention. Modifications or equivalent changes made by those skilled in the art in accordance with the spirit of the present invention should still be included in the scope of the patent application. [Simple description of the diagram] Figure 1 is a schematic diagram of the structure of the creation. [Main component symbol description] 10 refrigerant circuit tube 11 compressor 12 condenser 13 expansion valve Li · #单号 A0101 Page 6 / Total 10 pages 1013831037-0 M443145 _- October 03, 101 revised replacement page 14 evaporation 20 first heat exchanger 21 water supply pipe 22 ice water circulation pipe 23 fan-. 30 second heat exchanger 31 water supply pipe 32 hot water outlet pipe 33 hot water tank® 40 ice water subsidy desuperheater 41 first temperature meter 42 first controller 50 hot water auxiliary warmer 51 second temperature meter 52 Two controller 53 water conduit 10120880^^ A〇101 Page 7 / Total 10 pages 1013831210-0