CN214572822U - Linen washing device - Google Patents
Linen washing device Download PDFInfo
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- CN214572822U CN214572822U CN202120296892.XU CN202120296892U CN214572822U CN 214572822 U CN214572822 U CN 214572822U CN 202120296892 U CN202120296892 U CN 202120296892U CN 214572822 U CN214572822 U CN 214572822U
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- Y—GENERAL 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
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- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
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Abstract
The utility model discloses a linen washing device, which comprises a washing machine, an ionized water generator, a micro-nano bubble generator and an air supply system used for supplying hydrogen and/or ozone and/or air to the micro-nano bubble generator, and a controller, the acidic water outlet of the ionized water generator is connected with the inlet of the acidic water tank, the outlet of the acidic water tank is connected with the water inlet of the washing machine, the alkaline water outlet of the ionized water generator is connected with the inlet of the alkaline water tank through a third connecting pipe with a third control valve, the outlet of the alkaline water tank is connected with the water inlet of the washing machine through a fourth connecting pipe with a fourth control valve, the air supply system is characterized in that a bubble water outlet of the micro-nano bubble generator is connected with a water inlet of the washing machine, a water inlet of the micro-nano bubble generator is connected with a water outlet of the washing machine, and an air inlet of the micro-nano bubble generator is connected with an air outlet of the air supply system. The utility model has the advantages that: good decontamination effect, high washing efficiency, water and energy saving.
Description
Technical Field
The utility model relates to a washing equipment technical field, concretely relates to washing device.
Background
With the development of times, the pace of life of people becomes faster and faster, and people pay more attention to washing efficiency and cleaning effect when selecting washing equipment. In order to achieve a better washing effect without damaging the laundry, the conventional washing machine usually takes a long time to wash at the expense of washing efficiency. Therefore, it is highly desirable to invent a washing technology with good decontamination effect and high washing efficiency.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a linen washing device with good decontamination effect, high washing efficiency, water saving and energy saving.
In order to achieve the above purpose, the utility model adopts the following technical scheme: a linen washing device comprises a washing machine, an ionized water generator, a micro-nano bubble generator, an air supply system for supplying hydrogen and/or ozone and/or air to the micro-nano bubble generator, and a controller which is in signal connection with the washing machine, the ionized water generator, the micro-nano bubble generator and the air supply system at the same time, wherein the controller is used for controlling the washing machine, the ionized water generator, the micro-nano bubble generator and the air supply system; the acid water outlet of the ion water generator is connected with the inlet of the acid water tank through a first connecting pipe with a first control valve, the outlet of the acid water tank is connected with the water inlet of the washing machine through a second connecting pipe with a second control valve, the alkaline water outlet of the ion water generator is connected with the inlet of the alkaline water tank through a third connecting pipe with a third control valve, the outlet of the alkaline water tank is connected with the water inlet of the washing machine through a fourth connecting pipe with a fourth control valve, the bubble water outlet of the micro-nano bubble generator is connected with the water inlet of the washing machine, the water inlet of the micro-nano bubble generator is connected with the water outlet of the washing machine, and the air inlet of the micro-nano bubble generator is connected with the air outlet of the air supply system.
Further, the linen washing device comprises: a liquid level monitoring mechanism for monitoring the liquid level in the washing machine in real time is arranged in the washing machine, and the liquid level monitoring mechanism can send a monitored liquid level signal to a controller; during washing, when the controller obtains the liquid level in the washing machine through liquid level monitoring mechanism and rises to predetermineeing when starting the liquid level, the controller can control micro-nano bubble generator action, make micro-nano bubble generator take out the water in the washing machine and form and inject into the washing machine again after the micro-nano bubble water that contains hydrogen and/or ozone and/or air to when the controller obtains the liquid level in the washing machine through liquid level monitoring mechanism and drops to predetermineeing when stopping the liquid level, the controller can stop micro-nano bubble generator action.
Further, the linen washing device comprises: the liquid level monitoring mechanism is an induction type water level sensor which is arranged on the washing machine and is in signal connection with the controller.
Through the implementation of the above technical scheme, the beneficial effects of the utility model are that: good decontamination effect, high washing efficiency, water and energy saving.
Drawings
Fig. 1 is a schematic view of the structure principle of a linen washing device of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.
As shown in figure 1, the utility model discloses a linen washing device, its structure includes: the device comprises a washing machine 1, an ionized water generator 2, a micro-nano bubble generator 3, an air supply system 4 for supplying hydrogen and/or ozone and/or air to the micro-nano bubble generator 3, and a controller 5 which is simultaneously in signal connection with the washing machine 1, the ionized water generator 2, the micro-nano bubble generator 3 and the air supply system 4, wherein the controller 5 is used for controlling the washing machine 1, the ionized water generator 2, the micro-nano bubble generator 3 and the air supply system 4; the acidic water outlet of the ionized water generator 2 is connected with the inlet of the acidic water tank 8 through a first connecting pipe 7 with a first control valve 6, the outlet of the acidic water tank 8 is connected with the water inlet of the washing machine 1 through a second connecting pipe 10 with a second control valve 9, the alkaline water outlet of the ionized water generator 2 is connected with the inlet of the alkaline water tank 13 through a third connecting pipe 12 with a third control valve 11, the outlet of the alkaline water tank 13 is connected with the water inlet of the washing machine 1 through a fourth connecting pipe 15 with a fourth control valve 14, the bubble water outlet of the micro-nano bubble generator 3 is connected with the water inlet of the washing machine 1 through a fifth connecting pipe 17, the water inlet of the micro-nano bubble generator 3 is connected with the water outlet of the washing machine 1 through a sixth connecting pipe 18, and the air inlet of the micro-nano bubble generator 3 is connected with the air outlet of the air supply system 4 through a seventh connecting pipe 19;
in the embodiment, a liquid level monitoring mechanism 16 for monitoring the liquid level in the washing machine 1 in real time is arranged in the washing machine 1, and the liquid level monitoring mechanism 16 can send the monitored liquid level signal to the controller 5; during washing, when the controller 5 obtains that the liquid level in the washing machine 1 rises to a preset starting liquid level through the liquid level monitoring mechanism 16, the controller 15 controls the micro-nano bubble generator 3 to be started, so that the micro-nano bubble generator 3 pumps washing water in the washing machine 1 out and forms bubble water containing hydrogen and/or ozone and/or air to be injected into the washing machine 1 again, and when the controller 5 obtains that the liquid level in the washing machine 1 falls to a preset stopping liquid level through the liquid level monitoring mechanism 16, the controller 5 stops the micro-nano bubble generator 3; in the present embodiment, the liquid level monitoring mechanism 16 is an inductive water level sensor mounted on the washing machine 1 and in signal connection with the controller 5;
the linen washing device can adopt different washing methods according to the needs, and comprises the following specific steps:
the first washing method comprises the following steps:
during washing, the micro-nano bubble generator 3 utilizes the washing water in the washing machine 1 and the air provided by the air supply system 4 to form micro-nano bubble water to wash linen in the washing machine;
the working process of the washing device adopting the washing method is as follows: when washing, washing water is introduced into the washing machine 1 from the water inlet, the inductive water level sensor can monitor the liquid level in real time and send the monitored liquid level signal to the controller 5 in the process that the washing water is continuously injected into the washing machine 1, when the controller 5 judges that the liquid level in the washing machine 1 rises to the preset starting liquid level, the controller 5 can control the micro-nano bubble generator 3 and the air supply system 4 to be started, after the micro-nano bubble generator 3 is started, the washing water in the washing machine 1 is pumped out from the water outlet and pumped into the micro-nano bubble generator 3 through the sixth connecting pipe 18, the washing water and air provided by the air supply system 4 form micro-nano bubble water, then the micro-nano bubble water is injected into the washing machine 1 again from the water inlet through the fifth connecting pipe 17, the washing water in the washing machine 1 is circularly foamed, and therefore, the linen in the washing machine is washed by the micro-nano bubble water, in the process of washing linen by micro-nano bubble water, micro-nano bubbles can permeate into linen fibers and adsorb to the surface of the linen, when the micro-nano bubbles explode, the explosion generated by the explosion can enable stains on the linen to lose surface activity and adsorption force, and the stains on the linen are separated from the linen through the air flotation effect of the micro-nano bubbles, so that the stains on the linen are cleaned.
And a second washing method:
during washing, the micro-nano bubble generator 3 utilizes the washing water in the washing machine 1 and the hydrogen provided by the gas supply system 4 to form hydrogen-containing micro-nano bubble water to wash the linen in the washing machine;
the working process of the washing device adopting the washing method is as follows: when washing, the washing water is introduced into the washing machine 1 from the water inlet, the inductive water level sensor can monitor the liquid level in real time and send the monitored liquid level signal to the controller 5 in the process that the washing water is continuously injected into the washing machine 1, when the controller 5 judges that the liquid level in the washing machine 1 rises to the preset starting liquid level, the controller 5 can control the micro-nano bubble generator 3 and the gas supply system 4 to be started, after the micro-nano bubble generator 3 is started, the washing water in the washing machine 1 is pumped out from the water outlet and pumped into the micro-nano bubble generator 3 through the sixth connecting pipe 18, the washing water and the hydrogen provided by the gas supply system 4 form hydrogen-containing micro-nano bubble water, then the hydrogen-containing micro-nano bubble water is injected into the washing machine 1 again from the water inlet through the fifth connecting pipe 17, the washing water in the washing machine 1 is circularly foamed, and the linen in the washing machine is washed by the micro-nano bubble water, in the process of washing linen by micro-nano bubble water, micro-nano bubbles can permeate into linen fibers and be adsorbed on the surface of the linen, when the micro-nano bubbles explode, hydrogen in the micro-nano bubble water can be released, on one hand, the explosion generated by the explosion can enable stains on the linen to lose surface activity and adsorption force and be separated from the linen through the air flotation effect of the micro-nano bubbles, and on the other hand, the hydrogen can remove peculiar smell in the linen and sterilize the linen; thereby cleaning the stains on the linen.
And (3) a third washing method:
during washing, the micro-nano bubble generator 3 utilizes washing water in the washing machine 1 and ozone provided by the air supply system 4 to form ozone-containing micro-nano bubble water to wash linen in the washing machine;
the working process of the washing device adopting the washing method is as follows: when washing, the washing water is introduced into the washing machine 1 from the water inlet, the inductive water level sensor can monitor the liquid level in real time and send the monitored liquid level signal to the controller 5 in the process that the washing water is continuously injected into the washing machine 1, when the controller 5 judges that the liquid level in the washing machine 1 rises to the preset starting liquid level, the controller 5 can control the micro-nano bubble generator 3 and the air supply system 4 to be started, after the micro-nano bubble generator 3 is started, the washing water in the washing machine 1 is pumped out from the water outlet and pumped into the micro-nano bubble generator 3 through the sixth connecting pipe 18, the washing water and the ozone provided by the air supply system 4 form ozone-containing micro-nano bubble water, then the ozone-containing micro-nano bubble water is injected into the washing machine 1 again from the water inlet through the fifth connecting pipe 17, the washing water in the washing machine 1 is circularly foamed, and the linen in the washing machine is washed by the micro-nano bubble water, in the process of washing linen by micro-nano bubble water, micro-nano bubbles can permeate into linen fibers and be adsorbed on the surface of the linen, and when the micro-nano bubbles explode, ozone in the micro-nano bubble water can be released, so that on one hand, the explosion generated by the explosion can enable stains on the linen to lose surface activity and adsorption force and be separated from the linen through the air flotation effect of the micro-nano bubbles, and on the other hand, the ozone can remove peculiar smell in the linen and sterilize the linen; thereby cleaning the stains on the linen.
And a fourth washing method:
during washing, the micro-nano bubble generator 3 utilizes washing water in the washing machine 1 and hydrogen and ozone provided by the gas supply system 4 to form micro-nano bubble water containing hydrogen and ozone to wash linen in the washing machine;
the working process of the washing device adopting the washing method is as follows: when washing, washing water is introduced into the washing machine 1 from the water inlet, the inductive water level sensor can monitor the liquid level in real time and send the monitored liquid level signal to the controller 5 in the process that the washing water is continuously injected into the washing machine 1, when the controller 5 judges that the liquid level in the washing machine 1 rises to the preset starting liquid level, the controller 5 can control the micro-nano bubble generator 3 and the air supply system 4 to be started, after the micro-nano bubble generator 3 is started, the washing water in the washing machine 1 is pumped out from the water outlet and pumped into the micro-nano bubble generator 3 through the sixth connecting pipe 18, the washing water and the ozone provided by the air supply system 4 form micro-nano bubble water containing hydrogen and ozone, then the micro-nano bubble water is injected into the washing machine 1 again from the water inlet through the fifth connecting pipe 17 to circularly foam the washing water in the washing machine 1, so that the linen in the washing machine is washed by the micro-nano bubble water, in the process of washing linen by micro-nano bubble water, micro-nano bubbles can permeate into linen fibers and are adsorbed to the surface of the linen, when the micro-nano bubbles explode, hydrogen and ozone in the micro-nano bubble water can be released, on one hand, the explosion generated by the explosion can enable stains on the linen to lose surface activity and adsorption force and be separated from the linen through the air flotation effect of the micro-nano bubbles, and on the other hand, the hydrogen and the ozone can remove peculiar smell in the linen and sterilize the linen; thereby cleaning the stains on the linen.
And a fifth washing method:
when washing, the ionized water formed by the ionized water generator is used for washing the linen in the washing machine;
the working process of the washing device adopting the washing method is as follows: when washing, the washing water is introduced into the ionized water generator 2, the controller 5 starts the ionized water generator 2, opens the first control valve 6, the third control valve 11 and the fourth control valve 14, the ionized water is ionized into acidic ionized water and alkaline ionized water after the ionized water generator 2 is started, the acidic ionized water enters the acidic water tank 8 through the first connecting pipe 7 for storage, the alkaline ionized water enters the alkaline water tank 13 through the third connecting pipe 12, and then is injected into the washing machine 1 from the water inlet through the fourth connecting pipe 15, the inductive water level sensor monitors the liquid level in real time and sends the monitored liquid level signal to the controller 5 in the process that the alkaline ionized water is continuously injected into the washing machine 1, when the controller 5 judges that the liquid level in the washing machine 1 rises to the preset starting liquid level, the controller 5 controls the fourth control valve 14 to be closed, so that the alkaline ionized water is used for washing linen in the washing machine, when the linen is washed by the alkaline ionized water, the surface activity and the adsorption force of stains on the linen are lost, the stains are separated from the linen, and therefore the stains on the linen are cleaned; after the washing is finished, discharging the alkaline ionized water in the washing machine 1 from a water outlet of the washing machine 1, then opening a second control valve 9 to inject the acidic ionized water in the acidic water tank 6 into the washing machine 1 through a second connecting pipe 10, and rinsing the washed linen; and (5) dewatering the linen after rinsing.
And a sixth washing method:
when in washing, firstly, the micro-nano bubble water containing hydrogen and ozone formed by the micro-nano bubble generator is used for carrying out primary washing on the linen in the washing machine, and then the ionized water formed by the ionized water generator is used for carrying out secondary washing on the linen in the washing machine;
the working process of the washing device adopting the washing method is as follows:
micro-nano bubble water that contains hydrogen and ozone that micro-nano bubble generator formed just washes the linen in the washing machine: firstly, washing water is introduced into the washing machine 1 from a water inlet, an inductive water level sensor can monitor the liquid level in real time and send a monitored liquid level signal to a controller 5 in the process that the washing water is continuously injected into the washing machine 1, when the controller 5 judges that the liquid level in the washing machine 1 rises to a preset starting liquid level, the controller 5 can control the micro-nano bubble generator 3 and an air supply system 4 to be started, after the micro-nano bubble generator 3 is started, the washing water in the washing machine 1 is pumped out from a water outlet and pumped into the micro-nano bubble generator 3 through a sixth connecting pipe 18, the washing water and the ozone provided by the air supply system 4 form micro-nano bubble water containing hydrogen and ozone, then the micro-nano bubble water is injected into the washing machine 1 again from the water inlet through a fifth connecting pipe 17 to circularly bubble the washing water in the washing machine 1, so that the linen in the washing machine is washed by the micro-nano bubble water, in the process of washing linen by micro-nano bubble water, micro-nano bubbles can permeate into linen fibers and are adsorbed to the surface of the linen, when the micro-nano bubbles explode, hydrogen and ozone in the micro-nano bubble water can be released, on one hand, the explosion generated by the explosion can enable stains on the linen to lose surface activity and adsorption force and be separated from the linen through the air flotation effect of the micro-nano bubbles, and on the other hand, the hydrogen and the ozone can remove peculiar smell in the linen and sterilize the linen;
then, the ionized water formed by the ionized water generator 2 is utilized to carry out secondary washing on the linen in the washing machine: introducing washing water into an ionized water generator 2, starting the ionized water generator 2 by a controller 5, opening a first control valve 6, a third control valve 11 and a fourth control valve 14, ionizing the washing water into acidic ionized water and alkaline ionized water after the ionized water generator 2 is started, allowing the acidic ionized water to enter an acidic water tank 8 through a first connecting pipe 7 for storage, allowing the alkaline ionized water to enter an alkaline water tank 13 through a third connecting pipe 12, injecting the alkaline ionized water into a washing machine 1 from a water inlet through a fourth connecting pipe 15, in the process of continuously injecting the alkaline ionized water into the washing machine 1, monitoring the liquid level in real time by an inductive water level sensor, sending a monitored liquid level signal to the controller 5, and when the controller 5 judges that the liquid level in the washing machine 1 rises to a preset starting liquid level, controlling the fourth control valve 14 to be closed by the controller 5, so as to wash linen in the washing machine by the alkaline ionized water, when the linen is washed by the alkaline ionized water, the surface activity and the adsorption force of stains on the linen are lost, the stains are separated from the linen, and therefore the stains on the linen are cleaned; after the washing is finished, discharging the alkaline ionized water in the washing machine 1 from a water outlet of the washing machine 1, then opening a second control valve 9 to inject the acidic ionized water in the acidic water tank 6 into the washing machine 1 through a second connecting pipe 10, and rinsing the washed linen; and (5) dewatering the linen after rinsing.
The washing method comprises the following steps:
when washing, firstly, washing water is ionized into acid ionized water and alkaline ionized water through an ionized water generator, then, the alkaline ionized water is formed into micro-nano alkaline ion bubble water containing hydrogen and/or ozone and/or air through a micro-nano bubble generator, the micro-nano alkaline ion bubble water is used for washing clothes in the washing machine, and the acid ionized water is beneficial to rinsing the washed clothes during rinsing;
the working process of the washing device adopting the washing method is as follows:
when washing, washing water is introduced into the ionized water generator 2, the controller 5 starts the ionized water generator 2, opens the first control valve 6, the third control valve 11 and the fourth control valve 14, the ionized water is ionized into acidic ionized water and alkaline ionized water after the ionized water generator 2 is started, the acidic ionized water enters the acidic water tank 8 through the first water inlet pipe 7 to be stored, the alkaline ionized water enters the alkaline water tank 13 through the third connecting pipe 12, and then is injected into the washing machine 1 from the water inlet through the fourth connecting pipe 15, the inductive water level sensor monitors the liquid level in real time and sends the monitored liquid level signal to the controller 5 in the process that the alkaline ionized water is continuously injected into the washing machine 1, when the controller 5 judges that the liquid level in the washing machine 1 rises to the preset starting liquid level, the controller 5 controls the fourth control valve 14 to be closed and the micro-nano bubble generator 3 to be started, after the micro-nano bubble generator 3 is started, alkaline ion water in the washing machine 1 is pumped out from a water outlet and pumped into the micro-nano bubble generator 3 through a sixth connecting pipe 18, the pumped alkaline ion water is re-injected into the washing machine 1 from a water inlet through a fifth connecting pipe 17 to circularly bubble the alkaline ion water in the washing machine 1, so that clothes in the washing machine are washed by the micro-nano alkaline ion bubble water, in the process of washing the clothes by the micro-nano alkaline ion bubble water, micro-nano alkaline ion bubbles can permeate into clothes fibers and be adsorbed onto the surfaces of the clothes, when the micro-nano bubbles are exploded, the hydrogen and ozone in the alkaline ion bubble water are released, and the explosion generated by the explosion can convert the hydrogen and the ozone into OH free radicals, Under triple actions of OH free radicals and alkaline ions, stains on clothes lose surface activity and adsorption force, and are separated from the clothes through the air flotation action of micro-nano bubbles, so that the stains on the clothes are cleaned, and peculiar smell and sterilization effects in the clothes can be removed;
after washing is finished, discharging alkaline ion bubble water in the washing machine 1 from a water outlet of the washing machine 1, when the controller 5 judges that the liquid level in the washing machine 1 is reduced to a preset stop liquid level, stopping the micro-nano bubble generator 3 and opening the second control valve 9 by the controller 5, and injecting acidic ion water in the acidic water tank 8 into the washing machine 1 through the second water inlet pipe 10 to rinse washed clothes; and dewatering the clothes after rinsing.
The utility model has the advantages that: good decontamination effect, high washing efficiency, water and energy saving.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any modifications or equivalent changes made in accordance with the technical spirit of the present invention are also within the scope of the present invention.
Claims (3)
1. A linen washing device is characterized in that: the device comprises a washing machine, an ionized water generator, a micro-nano bubble generator, an air supply system for supplying hydrogen and/or ozone and/or air to the micro-nano bubble generator, and a controller which is in signal connection with the washing machine, the ionized water generator, the micro-nano bubble generator and the air supply system at the same time, wherein the controller is used for controlling the washing machine, the ionized water generator, the micro-nano bubble generator and the air supply system; the acid water outlet of the ion water generator is connected with the inlet of the acid water tank through a first connecting pipe with a first control valve, the outlet of the acid water tank is connected with the water inlet of the washing machine through a second connecting pipe with a second control valve, the alkaline water outlet of the ion water generator is connected with the inlet of the alkaline water tank through a third connecting pipe with a third control valve, the outlet of the alkaline water tank is connected with the water inlet of the washing machine through a fourth connecting pipe with a fourth control valve, the bubble water outlet of the micro-nano bubble generator is connected with the water inlet of the washing machine, the water inlet of the micro-nano bubble generator is connected with the water outlet of the washing machine, and the air inlet of the micro-nano bubble generator is connected with the air outlet of the air supply system.
2. A linen washing device as defined in claim 1, wherein: a liquid level monitoring mechanism for monitoring the liquid level in the washing machine in real time is arranged in the washing machine, and the liquid level monitoring mechanism can send a monitored liquid level signal to a controller; during washing, when the controller obtains the liquid level in the washing machine through liquid level monitoring mechanism and rises to predetermineeing when starting the liquid level, the controller can control micro-nano bubble generator action, make micro-nano bubble generator take out the water in the washing machine and form and inject into the washing machine again after the micro-nano bubble water that contains hydrogen and/or ozone and/or air to when the controller obtains the liquid level in the washing machine through liquid level monitoring mechanism and drops to predetermineeing when stopping the liquid level, the controller can stop micro-nano bubble generator action.
3. A linen washing device as defined in claim 2, wherein: the liquid level monitoring mechanism is an induction type water level sensor which is arranged on the washing machine and is in signal connection with the controller.
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| CN202120296892.XU CN214572822U (en) | 2021-02-02 | 2021-02-02 | Linen washing device |
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| CN202120296892.XU CN214572822U (en) | 2021-02-02 | 2021-02-02 | Linen washing device |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN114481555A (en) * | 2022-02-17 | 2022-05-13 | 安徽工程大学 | Multifunctional washing machine for efficient cleaning and sterilizing |
| CN114768567A (en) * | 2022-03-29 | 2022-07-22 | 江苏海狮机械股份有限公司 | Micro-nano scrubbing bubble water preparation device and parameter control method |
| CN114775226A (en) * | 2022-03-29 | 2022-07-22 | 江苏海狮机械股份有限公司 | Washing device based on micro-nano bubble water and washing method thereof |
| CN114772805A (en) * | 2022-03-29 | 2022-07-22 | 江苏海狮机械股份有限公司 | Micro-nano bubble washing discharge water treatment device and treatment method thereof |
| CN114797521A (en) * | 2022-03-29 | 2022-07-29 | 江苏海狮机械股份有限公司 | Micro-nano hydrogen bubble water generation system and operation control method thereof |
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2021
- 2021-02-02 CN CN202120296892.XU patent/CN214572822U/en active Active
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN114481555A (en) * | 2022-02-17 | 2022-05-13 | 安徽工程大学 | Multifunctional washing machine for efficient cleaning and sterilizing |
| CN114768567A (en) * | 2022-03-29 | 2022-07-22 | 江苏海狮机械股份有限公司 | Micro-nano scrubbing bubble water preparation device and parameter control method |
| CN114775226A (en) * | 2022-03-29 | 2022-07-22 | 江苏海狮机械股份有限公司 | Washing device based on micro-nano bubble water and washing method thereof |
| CN114772805A (en) * | 2022-03-29 | 2022-07-22 | 江苏海狮机械股份有限公司 | Micro-nano bubble washing discharge water treatment device and treatment method thereof |
| CN114797521A (en) * | 2022-03-29 | 2022-07-29 | 江苏海狮机械股份有限公司 | Micro-nano hydrogen bubble water generation system and operation control method thereof |
| CN114768567B (en) * | 2022-03-29 | 2024-02-06 | 江苏海狮机械股份有限公司 | Micro-nano washing bubble water preparation device and parameter control method |
| CN114797521B (en) * | 2022-03-29 | 2024-02-06 | 江苏海狮机械股份有限公司 | Micro-nano hydrogen bubble generation system and operation control method thereof |
| CN114775226B (en) * | 2022-03-29 | 2024-07-23 | 江苏海狮机械股份有限公司 | Washing method of washing device based on micro-nano bubble water |
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Effective date of registration: 20230705 Address after: 215619 1-2/F, Building 19, 129 Lexing South Road, Leyu Town, Zhangjiagang City, Suzhou City, Jiangsu Province Patentee after: Jiangsu Jingrui Environmental Protection Technology Co.,Ltd. Address before: 215619 Jiangsu Haishi Machinery Co.,Ltd., No. 2 Lehong Road, Leyu Town, Zhangjiagang, Suzhou City, Jiangsu Province Patentee before: JIANGSU SEA-LION MACHINERY Co.,Ltd. |