TW202405276A - System for washing laundry - Google Patents

Abstract

A system for washing laundry includes a cleaning fluid electrolytic hydrogen nanometer bubbles generation device for receiving tap water and electrolyzing the tap water to generate nanometer hydrogen bubbles and nanometer ionic water or alkaline electrolytic water together as a cleaning fluid; a recycled water nanometer bubbles generation device for receiving tap water and water recycled by the system and generating ozone nanometer bubbles from the water; and at least one washing machine capable of performing pre-wash, main wash, or rinse. In the pre-wash or rinse, the recycled water nanometer bubbles generation device supplies the tap water having ozone nanometer bubbles to each washing machine through a pre-wash or rinse line. In the main wash, the cleaning fluid electrolytic hydrogen nanometer bubbles generation device supplies the main solution to each washing machine through a cleaning fluid line.

Description

衣物洗滌系統 clothes washing system

本發明係關於一種衣物洗滌系統，特別是關於一種應用在洗衣工場內，衣物洗滌上的內循環清洗、汙水處理組合系統。 The present invention relates to a clothing washing system, in particular to an internal circulation cleaning and sewage treatment combined system used in clothing washing in a laundry factory.

傳統使用洗衣精或化學洗滌劑作為主要清潔去污材料，經過多年來的改進，清洗能力已經達到相當高的水準，但是洗滌劑成份使得廢水變得複雜，而不利於環境生態，洗滌劑中之介面活性劑容易在洗衣槽內結垢，而造成二次污染，以及洗滌劑殘餘量仍會傷害人體皮膚而引起過敏反應等缺點。 Laundry detergent or chemical detergents are traditionally used as the main cleaning and decontamination materials. After years of improvements, the cleaning ability has reached a very high level. However, the ingredients of detergents complicate wastewater, which is not conducive to the environment and ecology. Among detergents, Surfactants tend to scale in the laundry tank, causing secondary pollution, and residual amounts of detergent can still harm human skin and cause allergic reactions.

不需使用洗衣精或化學洗滌劑之衣物洗滌系統及其方法，成為追求環保與維護人體健康的重要課題，包括使用電解水/內米離子水、臭氧及或納米微氣泡水等技術來取代洗衣液或化學洗滌劑之衣物洗滌效果。不需要添加化學品作洗滌後污水處理。 Clothes washing systems and methods that do not require the use of laundry detergent or chemical detergents have become an important issue in the pursuit of environmental protection and maintenance of human health, including the use of technologies such as electrolyzed water/nano-ionized water, ozone and/or nano-bubble water to replace laundry Clothes washing effect of liquid or chemical detergent. There is no need to add chemicals for post-wash wastewater treatment.

習知一種複合式全自動洗衣機，包括一氯化鈉添加裝置及一電解裝置，透過控制氯化鈉濃度，使臭氧壓縮空氣與含有次氯酸根之電解水，送入洗衣槽中，與衣物共同攪拌而達成殺菌、漂白及去污之效果。 A compound fully automatic washing machine is known, which includes a sodium chloride adding device and an electrolysis device. By controlling the concentration of sodium chloride, ozone compressed air and electrolyzed water containing hypochlorite are sent into the washing tank to mix with the clothes. Stir to achieve sterilization, bleaching and decontamination effects.

另一習知之洗衣機，提供細緻氣泡產生裝置及控制裝置，其細緻氣泡主要含有納米氣泡，用來促進化學洗衣劑之溶解效率。 Another conventional washing machine provides a fine bubble generating device and a control device. The fine bubbles mainly contain nano-bubbles to promote the dissolution efficiency of chemical laundry detergent.

申請人之其他已申請之專利案，揭露電解產生納米離子水之裝置，以及納米微氣泡製造及清洗系統，然上述專利案並非用於衣物洗滌而是用於無機物件或製程物件，例如玻璃、藍寶石、矽、金屬、電子元件、陶瓷、晶圓等之清洗，但卻為無使用洗衣液或化學洗滌劑之衣物洗滌應用奠下突破的基礎。 The applicant's other patents that have been applied for disclose a device for producing nano-ionized water through electrolysis, as well as a nano-microbubble manufacturing and cleaning system. However, the above-mentioned patents are not used for clothes washing but for inorganic objects or process objects, such as glass, Cleaning of sapphires, silicon, metals, electronic components, ceramics, wafers, etc., but it lays the foundation for a breakthrough in clothing washing applications without the use of laundry detergent or chemical detergents.

申請人最近提出「衣物洗滌系統、納米微氣泡離子水產生裝置及衣物洗滌方法」之專利申請案，確實解決了使用化學洗滌劑所造成的環境污染問題。但此件已申請專利案，僅為適用於家庭或個人使用的單機版洗衣機，並不適合應用於作為自助洗衣店或洗衣工場內的多台洗衣機的系統架構。 The applicant recently filed a patent application for "clothes washing system, nano-microbubble ionized water generation device and clothing washing method", which has indeed solved the environmental pollution problem caused by the use of chemical detergents. However, this patent application is only for a stand-alone washing machine suitable for home or personal use, and is not suitable for use as a system architecture for multiple washing machines in self-service laundromats or laundry factories.

本發明之目的即在於提供一種衣物洗滌系統，係為一種應用在洗衣工場內，衣物洗滌上的內循環清洗、汙水處理組合系統。 The object of the present invention is to provide a clothes washing system, which is an internal circulation cleaning and sewage treatment combined system used in clothes washing in a laundry factory.

本發明之次一目的係在於提供一種衣物洗滌系統，無需使用洗衣液或化學洗滌劑，確實解決了使用化學洗滌劑所造成的環境污染問題。 A secondary object of the present invention is to provide a clothes washing system that does not require the use of laundry detergent or chemical detergents, thus truly solving the environmental pollution problem caused by the use of chemical detergents.

本發明之另一目的係在於提供一種衣物洗滌系統，其更可以增加衣物的清潔效果及減少清洗時間。 Another object of the present invention is to provide a clothes washing system that can increase the cleaning effect of clothes and reduce cleaning time.

可達成上述發明目的之衣物洗滌系統，包括有：一主洗液電解氫氣納米微氣泡產生裝置，能接收外界自來水，並將該外界自來水電解後，產出納米離子水/鹼性電解水和納米微氫氣氣泡，製成為一主洗液；一回收水納米微氣泡產生裝置，能接收外界自來水及系統 內部回收水，並於水中產生臭氧納米微氣泡；以及至少一台洗衣機，能自動執行預洗、主洗及漂洗等不同洗衣程序；當進行預洗/漂洗程序時，將該含臭氧納米微氣泡的自來水，由該回收水納米微氣泡產生裝置，經過一預/漂洗水供應管道，輸送至該洗衣機內，並進行衣物預/漂洗程序；當進行主洗程序時，主洗液從該主洗液電解氫氣納米微氣泡產生裝置，經過一主洗液供應管道，輸送至該洗衣機內，並進行衣物主洗程序。 The clothes washing system that can achieve the above-mentioned object of the invention includes: a main washing liquid electrolytic hydrogen nano-microbubble generating device, which can receive external tap water and electrolyze the external tap water to produce nano-ionized water/alkaline electrolyzed water and nano-ionized water. Micro hydrogen bubbles are made into a main washing liquid; a recycled water nano-micro bubble generating device can receive external tap water and system Water is recycled internally and ozone nano-microbubbles are generated in the water; and at least one washing machine can automatically perform different laundry processes such as pre-wash, main wash and rinse; when the pre-wash/rinse process is performed, the ozone-containing nano-micro bubbles are The tap water is transported from the recycled water nano-bubble generating device to the washing machine through a pre/rinsing water supply pipe, and the clothes pre/rinsing process is carried out; when the main washing process is performed, the main washing liquid is supplied from the main washing The liquid electrolytic hydrogen nano-microbubble generating device is transported to the washing machine through a main washing liquid supply pipe, and the main washing process of clothes is carried out.

如上所述之衣物洗滌系統，更包括：一預/漂洗水過濾器，能經由一預/漂洗水回收管道，在預/漂洗完成後，接收該洗衣機排放的污水，進行固體污垢過濾。 The clothes washing system as mentioned above further includes: a pre/rinsing water filter, which can receive the sewage discharged by the washing machine after the pre/rinsing is completed through a pre/rinsing water recovery pipe to filter solid dirt.

如上所述之衣物洗滌系統，更包括：一預/漂洗水污水處理系統，能接收通過該預/漂洗水過濾器過濾後的該系統內部回收水，進行進一步的污水處理，完成處理後的該系統內部回收水，再注入該回收水納米微氣泡產生裝置，並於水中生成臭氧納米微氣泡。 The clothes washing system as mentioned above further includes: a pre/rinsing water sewage treatment system, which can receive the internal recycled water filtered by the pre/rinsing water filter, perform further sewage treatment, and complete the treated water. Water is recycled inside the system, and then the recycled water is injected into the nano-bubble generating device, and ozone nano-bubbles are generated in the water.

如上所述之衣物洗滌系統，更包括：一主洗液過濾器，能經由一主洗液回收管道，在主洗完成後，接收該洗衣機排放的污水，進行固體污垢過濾。 The clothes washing system as mentioned above further includes: a main washing liquid filter, which can receive the sewage discharged by the washing machine after the main washing is completed through a main washing liquid recovery pipe to filter solid dirt.

如上所述之衣物洗滌系統，更包括：一主洗液污水臭氧納米微氣泡污水處理裝置，能接收通過該主洗液過濾器過濾後的該系統內部回收水，進行進一步的臭氧納米微氣泡和電解結合污水處理，完成處理後的該系統內部回收水，再注入該主洗液電解氫氣納米微氣泡產生裝置。 The clothes washing system as mentioned above further includes: a main wash liquid sewage ozone nano-microbubble sewage treatment device, which can receive the internal recycled water filtered by the main wash liquid filter for further ozone nano-microbubble and Electrolysis is combined with sewage treatment. After the treatment is completed, water is recycled inside the system and then injected into the main washing liquid electrolytic hydrogen nano-microbubble generating device.

1:預/漂洗水過濾器 1: Pre/rinse water filter

2:預/漂洗水污水處理系統 2: Pre/rinse water sewage treatment system

3:回收水納米微氣泡產生裝置 3: Recycled water nano-microbubble generating device

4:主洗液過濾器 4: Main washing liquid filter

5:主洗液污水臭氧納米微氣泡污水處理裝置 5: Main wash liquid sewage ozone nano-microbubble sewage treatment device

6:主洗液電解氫氣納米微氣泡產生裝置 6: Main washing liquid electrolytic hydrogen nano-microbubble generating device

7:洗衣機 7: Washing machine

8:預/漂洗水供應管道 8: Pre/rinse water supply pipe

9:主洗液供應管道 9: Main lotion supply pipe

10:預/漂洗水回收管道 10: Pre/rinse water recovery pipe

11:主洗液回收管道 11: Main washing liquid recovery pipe

圖1為本發明衣物洗滌系統之系統架構示意圖。 Figure 1 is a schematic diagram of the system architecture of the clothes washing system of the present invention.

接下來，結合附圖，描述本案的實施例。附圖中，用相同的標號表示相同或近似的結構或單元。可預知的是，所述的實施例僅為本案部分的範例，不是全部的實施例。基於所述的範例能夠推演獲得其他的實施例，或視需要更改、變化的構造，均屬本案保護的範圍。 Next, embodiments of the present case will be described with reference to the drawings. In the drawings, the same reference numerals are used to represent the same or similar structures or units. It is foreseeable that the described embodiments are only some examples of this case, not all the embodiments. Based on the above example, other embodiments can be deduced, or the structure can be modified or changed as necessary, which all fall within the scope of protection of this case.

在以下描述中，方向用語如「上」、「下」、「左」、「右」、「前」、「後」、「內」、「外」與「側面」，只是參照附圖的方向。方向用語的使用，是為了更好的、更清楚的描述且理解本案，不明示或暗示所述的裝置或元件必須具備特定的方位、構造和操作，故不能理解為對本案技術內容的限制。 In the following description, directional terms such as "upper", "lower", "left", "right", "front", "rear", "inside", "outside" and "side" only refer to the direction of the drawings. . The use of directional terms is for a better and clearer description and understanding of this case. It does not express or imply that the devices or components described must have specific orientations, structures, and operations, and therefore cannot be understood as limiting the technical content of this case.

除非特定且明確的規範和限定，在以下描述中，「安裝」、「相連」、「連接」或「設在…上」應做廣義理解，例如固定連接、拆卸式連接、一體連接、機械連接、直接地相連、間接地相連或是兩個元件內部的連接。對屬於本案領域的技術人員而言，憑藉普通知識或經驗能夠理解上述術語在各個實施例，甚至於本案具體的含義。 Unless there are specific and clear specifications and limitations, in the following description, "installed", "connected", "connected" or "located on" should be understood in a broad sense, such as fixed connection, detachable connection, integral connection, mechanical connection , directly connected, indirectly connected or internally connected between two components. For those skilled in the field of this case, they can understand the specific meaning of the above terms in each embodiment and even this case based on common knowledge or experience.

請參閱圖1，本發明所提供之衣物洗滌系統，主要包括有：一主洗液電解氫氣納米微氣泡產生裝置6，能接收外界自來水，並將該外界自來水電解後，產出納米離子水/鹼性電解水和納米微氫氣氣泡，製成為一主洗液；一回收水納米微氣泡產生裝置3，能接收外界自 來水及系統內部回收水，並於水中產生臭氧納米微氣泡；以及至少一台洗衣機7，能自動執行預洗、主洗及漂洗等不同洗衣程序；當進行預洗/漂洗程序時，將該含臭氧納米微氣泡的自來水，由該回收水納米微氣泡產生裝置3，經過一預/漂洗水供應管道8，輸送至該洗衣機7內，並進行衣物預/漂洗程序；當進行主洗程序時，主洗液從該主洗液電解氫氣納米微氣泡產生裝置6，經過一主洗液供應管道9，輸送至該洗衣機7內，並進行衣物主洗程序。 Please refer to Figure 1. The clothes washing system provided by the present invention mainly includes: a main washing liquid electrolytic hydrogen nano-bubble generating device 6, which can receive external tap water and electrolyze the external tap water to produce nano-ion water/ Alkaline electrolyzed water and nano-micro hydrogen bubbles are made into a main washing liquid; a recycled water nano-micro bubble generating device 3 can receive external natural gas. Water is recycled from incoming water and inside the system, and ozone nano-microbubbles are generated in the water; and at least one washing machine 7 can automatically perform different laundry procedures such as prewash, main wash and rinse; when performing the prewash/rinse procedure, the The tap water containing ozone nano-microbubbles is transported from the recycled water nano-microbubble generating device 3 through a pre/rinsing water supply pipe 8 to the washing machine 7, and the clothes pre/rinsing process is performed; when the main washing process is performed , the main washing liquid is transported from the main washing liquid electrolytic hydrogen nano-bubble generating device 6 through a main washing liquid supply pipe 9 to the washing machine 7, and the main washing process of clothes is performed.

本發明所提供之衣物洗滌系統，共主要操作流程敘述如下： The main operating procedures of the clothes washing system provided by the present invention are described as follows:

1.系統起動：自來水通過軟性器注入主洗液電解氫氣納米微氣泡產生裝置6。電解裝置電解起動，軟性自來水被電解後產出納米離子水/鹼性電解水和納米微氫氣氣泡，裝置參數由檢測裝置監控：電流、電壓、水流速、陽極電解槽內電解質濃度，各參數達標後，主洗液準備完成並儲存於裝置內。納米微氫氣氣泡比其他氣體之納米微氣泡表面電荷更高，清洗力更強。 1. System startup: tap water is injected into the main washing liquid electrolytic hydrogen nano-microbubble generating device 6 through the softener. The electrolysis device starts electrolysis, and the soft tap water is electrolyzed to produce nano-ionized water/alkaline electrolyzed water and nano-micro hydrogen bubbles. The device parameters are monitored by the detection device: current, voltage, water flow rate, electrolyte concentration in the anode electrolyzer, and all parameters are up to standard. Finally, the main wash solution is prepared and stored in the device. Nano-micro hydrogen bubbles have a higher surface charge than nano-micro bubbles of other gases and have stronger cleaning power.

2.系統起動：自來水注入回收水納米微氣泡產生裝置3，裝置起動並於水中產生臭氧納米微氣泡，並儲存於裝置內。臭氧納米微氣泡能增加自來水的清潔能力外，也同時含有強大的氧化效果。此效果除了能有消毒殺菌外，對特定污垢有強大的清潔效果。把臭氧切割成納米臭氧微氣泡，可以加長存在水中時間，增加表面接觸面積而加快反應，並可減少臭氧用量。 2. System startup: Inject tap water into the recycled water nano-bubble generating device 3. The device starts and generates ozone nano-bubbles in the water and stores them in the device. Ozone nano-microbubbles can not only increase the cleaning ability of tap water, but also have a strong oxidizing effect. This effect not only disinfects and sterilizes, but also has a powerful cleaning effect on specific dirt. Cutting ozone into nano-ozone microbubbles can extend the time it exists in water, increase the surface contact area to speed up the reaction, and reduce the amount of ozone used.

3.清洗流程：衣物放置於洗衣機7內並啟動自動清洗， 清洗流程為：預洗→脫水1→主洗→脫水2→漂洗→脫水3。 3. Cleaning process: Place the clothes in the washing machine 7 and start automatic cleaning. The cleaning process is: pre-wash → dehydration 1 → main wash → dehydration 2 → rinse → dehydration 3.

- 預洗： - Pre-wash:

含臭氧納米微氣泡的自來水由回收水納米微氣泡產生裝置3經過預/漂洗水供應管道8輸送至洗衣機7內，並進行衣物第一道清洗。 The tap water containing ozone nano-bubbles is transported from the recycled water nano-bubble generating device 3 to the washing machine 7 through the pre/rinsing water supply pipe 8, and the first washing of the clothes is performed.

-脫水1： -Dehydration 1:

預洗完成後，洗衣機7進行脫水和排水，污水經過預/漂洗水回收管道10，輸送至預/漂洗水過濾器1進行固體污垢過濾，並注入預/漂洗水污水處理系統2進行污水處理，污水處理包括生物化學物理法。處理後回水再注入回收水納米微氣泡產生裝置3並於水中生成臭氧納米微氣泡。 After the prewash is completed, the washing machine 7 performs dehydration and drainage. The sewage passes through the pre/rinse water recovery pipe 10, is transported to the pre/rinse water filter 1 for solid dirt filtration, and is injected into the pre/rinse water sewage treatment system 2 for sewage treatment. Wastewater treatment includes biochemical and physical methods. After treatment, the returned water is injected into the recycled water nano-microbubble generating device 3 to generate ozone nano-microbubbles in the water.

-主洗： -Main wash:

主洗液從主洗液電解氫氣納米微氣泡產生裝置6，經過主洗液供應管道9，輸送至洗衣機7內，並進行衣物第二道主清洗。 The main washing liquid is transported from the main washing liquid electrolytic hydrogen nano-microbubble generating device 6 through the main washing liquid supply pipe 9 to the washing machine 7 and performs the second main cleaning of the clothes.

-脫水2： -Dehydration 2:

主洗完成後，洗衣機7進行脫水和排水、污水經過主洗液回收管道11，輸送至主洗液過濾器4進行固體污垢過濾，並注入主洗液污水臭氧納米微氣泡污水處理裝置5進行臭氧納米微氣泡和電解結合進行污水處理。此高级氧化處理技術能使污水脫色、減低COD、加快氧化處理速度。 After the main washing is completed, the washing machine 7 performs dehydration and drainage, and the sewage passes through the main washing liquid recovery pipe 11 and is transported to the main washing liquid filter 4 for solid dirt filtration, and is injected into the main washing liquid sewage ozone nano-microbubble sewage treatment device 5 for ozone Nano-microbubbles and electrolysis are combined for wastewater treatment. This advanced oxidation treatment technology can decolorize wastewater, reduce COD, and speed up oxidation treatment.

- 漂洗： - Rinse:

含臭氧納米微氣泡的自來水由回收水納米微氣泡產生裝置3經過預/漂洗水供應管道8輸送至洗衣機7內，並進行衣物第三道清洗-漂洗。 The tap water containing ozone nano-bubbles is transported from the recycled water nano-bubble generating device 3 to the washing machine 7 through the pre/rinsing water supply pipe 8, and performs the third washing process of clothes - rinsing.

-脫水3： -Dehydration 3:

漂洗完成後，洗衣機7進行脫水和排水，污水經過預/漂洗水回收管道10，輸送至預/漂洗水過濾器1進行固體污垢過濾，並注入預/漂洗水污水處理系統2進行污水處理，污水處理包括生物化學物理法。處理後回水再注入回收水納米微氣泡產生裝置3並於水中生成臭氧納米微氣泡。 After rinsing is completed, the washing machine 7 performs dehydration and drainage. The sewage passes through the pre/rinse water recovery pipe 10, is transported to the pre/rinse water filter 1 for solid dirt filtration, and is injected into the pre/rinse water sewage treatment system 2 for sewage treatment. Treatments include biochemical and physical methods. After treatment, the returned water is injected into the recycled water nano-microbubble generating device 3 to generate ozone nano-microbubbles in the water.

4.清洗結束：衣物自動清洗完成後，取出並輸送至乾衣設備。洗衣機7再進行下批次衣服清潔。 4. Cleaning is completed: After the clothes are automatically cleaned, they are taken out and transported to the drying equipment. Washing machine 7 then cleans the next batch of clothes.

本發明所提供之衣物洗滌系統，與習用技術相互比較時，更具有下列之優點： The clothes washing system provided by the present invention has the following advantages when compared with conventional technologies:

(1)提供一種衣物洗滌系統，係為一種應用在洗衣工場內，衣物洗滌上的內循環清洗、汙水處理組合系統。 (1) Provide a clothes washing system, which is an internal circulation cleaning and sewage treatment combined system used in clothes washing in a laundry factory.

(2)無需使用洗衣液或化學洗滌劑，確實解決了使用化學洗滌劑所造成的環境污染問題。 (2) There is no need to use laundry detergent or chemical detergents, which indeed solves the environmental pollution problem caused by the use of chemical detergents.

(3)更可以增加衣物的清潔效果及減少清洗時間。 (3) It can also increase the cleaning effect of clothes and reduce cleaning time.

在不背離本案廣義的概念下，熟習此項技術者能理解，並對上開的實施例進行改變。因此，本案不限於說明書揭示的特定實施例，舉凡根據本案精神與技術範疇所為的修改，均應為申請專利範圍界定的文字內容所涵蓋和保護。 Those skilled in the art can understand and make changes to the above embodiments without departing from the broad concept of the present invention. Therefore, this case is not limited to the specific embodiments disclosed in the specification. All modifications made based on the spirit and technical scope of this case should be covered and protected by the textual content defined in the scope of the patent application.

1:預/漂洗水過濾器 1: Pre/rinse water filter

2:預/漂洗水污水處理系統 2: Pre/rinse water sewage treatment system

3:回收水納米微氣泡產生裝置 3: Recycled water nano-microbubble generating device

4:主洗液過濾器 4: Main washing liquid filter

5:主洗液污水臭氧納米微氣泡污水處理裝置 5: Main wash liquid sewage ozone nano-microbubble sewage treatment device

6:主洗液電解氫氣納米微氣泡產生裝置 6: Main washing liquid electrolytic hydrogen nano-microbubble generating device

7:洗衣機 7: Washing machine

8:預/漂洗水供應管道 8: Pre/rinse water supply pipe

9:主洗液供應管道 9: Main lotion supply pipe

10:預/漂洗水回收管道 10: Pre/rinse water recovery pipe

11:主洗液回收管道 11: Main washing liquid recovery pipe

Claims (5)

一種衣物洗滌系統，包括： A clothes washing system including: 一主洗液電解氫氣納米微氣泡產生裝置，能接收外界自來水，並將該外界自來水電解後，產出納米離子水/鹼性電解水和納米微氫氣氣泡，製成為一主洗液； A main washing liquid electrolytic hydrogen nano-micro bubble generating device can receive external tap water and electrolyze the external tap water to produce nano-ion water/alkaline electrolyzed water and nano-micro hydrogen bubbles to make a main washing liquid; 一回收水納米微氣泡產生裝置，能接收外界自來水及系統內部回收水，並於水中產生臭氧納米微氣泡；以及 A recycled water nano-microbubble generating device that can receive external tap water and recycled water within the system, and generate ozone nano-microbubbles in the water; and 至少一台洗衣機，能自動執行預洗、主洗及漂洗等不同洗衣程序；當進行預洗/漂洗程序時，將該含臭氧納米微氣泡的自來水，由該回收水納米微氣泡產生裝置，經過一預/漂洗水供應管道，輸送至該洗衣機內，並進行衣物預/漂洗程序；當進行主洗程序時，主洗液從該主洗液電解氫氣納米微氣泡產生裝置，經過一主洗液供應管道，輸送至該洗衣機內，並進行衣物主洗程序。 At least one washing machine can automatically perform different laundry procedures such as pre-wash, main wash and rinse; when performing the pre-wash/rinse procedure, the tap water containing ozone nano-microbubbles is passed through the recycled water nano-microbubble generating device. A pre/rinsing water supply pipe is transported to the washing machine and the clothes are pre/rinsed. When the main washing process is performed, the main washing liquid is electrolyzed from the main washing liquid to the hydrogen nano-microbubble generating device and passes through a main washing liquid. The supply pipe is transported to the washing machine and the main washing process of clothes is carried out. 如請求項1所述之衣物洗滌系統，更包括：一預/漂洗水過濾器，能經由一預/漂洗水回收管道，在預/漂洗完成後，接收該洗衣機排放的污水，進行固體污垢過濾。 The clothes washing system as described in claim 1 further includes: a pre/rinsing water filter, which can receive the sewage discharged by the washing machine after the pre/rinsing is completed through a pre/rinsing water recovery pipe to filter solid dirt. . 如請求項2所述之衣物洗滌系統，更包括：一預/漂洗水污水處理系統，能接收通過該預/漂洗水過濾器過濾後的該系統內部回收水，進行進一步的污水處理，完成處理後的該系統內部回收水，再注入該回收水納米微氣泡產生裝置，並於水中生成臭氧納米微氣泡。 The clothes washing system as described in claim 2 further includes: a pre/rinse water sewage treatment system, which can receive the internal recycled water filtered by the pre/rinse water filter for further sewage treatment to complete the treatment. Afterwards, water is recycled inside the system, and then the recycled water is injected into the nano-microbubble generating device, and ozone nano-microbubbles are generated in the water. 如請求項1所述之衣物洗滌系統，更包括：一主洗液 過濾器，能經由一主洗液回收管道，在主洗完成後，接收該洗衣機排放的污水，進行固體污垢過濾。 The clothes washing system as described in claim 1 further includes: a main washing liquid filter, which can receive the sewage discharged by the washing machine after the main washing is completed through a main washing liquid recovery pipe to filter solid dirt. 如請求項4所述之衣物洗滌系統，更包括：一主洗液污水臭氧納米微氣泡污水處理裝置，能接收通過該主洗液過濾器過濾後的該系統內部回收水，進行進一步的臭氧納米微氣泡和電解結合污水處理，完成處理後的該系統內部回收水，再注入該主洗液電解氫氣納米微氣泡產生裝置。 The clothes washing system as described in claim 4 further includes: a main wash liquid sewage ozone nano-microbubble sewage treatment device, which can receive the internal recycled water of the system filtered by the main wash liquid filter for further ozone nano-bubble treatment. Microbubbles and electrolysis combine sewage treatment. After the treatment is completed, the water is recycled inside the system and then injected into the main washing liquid electrolytic hydrogen nano-microbubble generating device.

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