阅读说明：本技术 超声雾化蒸汽洗衣机的洗涤系统及其控制方法 (Washing system of ultrasonic atomization steam washing machine and control method thereof ) 是由 殷俊国 于 2019-12-29 设计创作，主要内容包括：本发明提供了超声雾化蒸汽洗衣机的洗涤系统及其控制方法,超声雾化蒸汽洗衣机的洗涤系统包括洗涤水汽雾化装置、洗涤动力提供装置和洗涤工作仓,超声雾化洗涤水或清洁水和新鲜空气混合形成雾化蒸汽,通过真空压力泵增压输送至洗涤仓,在洗涤仓内雾化蒸汽保持设定的温度和高压进入衣物纤维缝隙,溶解污染物、异味并稀释。本发明解决了生活中的实际问题,让不需要大动干戈水洗的衣物保持清爽干净的气息。尤其是羽绒服,大件衣物,超声雾化蒸汽洗涤、温度适宜、无机械磨损、不伤衣物,让衣物保持蓬松、干燥,让我们在生活中免除了不必要的麻烦,节省了时间,让我们的生活变得更轻松、更健康。(The invention provides a washing system of an ultrasonic atomization steam washing machine and a control method thereof, wherein the washing system of the ultrasonic atomization steam washing machine comprises a washing water vapor atomization device, a washing power supply device and a washing working chamber, ultrasonic atomization washing water or cleaning water and fresh air are mixed to form atomized steam, the atomized steam is pressurized and conveyed to the washing chamber through a vacuum pressure pump, the atomized steam in the washing chamber keeps a set temperature and high pressure and enters clothes fiber gaps, and pollutants and peculiar smell are dissolved and diluted. The invention solves the practical problem in life and ensures that the clothes which do not need to be washed by the water can keep fresh and clean smell. Especially down jackets and large clothes are washed by ultrasonic atomization steam, the temperature is proper, no mechanical abrasion exists, the clothes are not damaged, the clothes are kept fluffy and dry, unnecessary troubles are avoided in life, the time is saved, and the life of people is easier and healthier.)

1. Washing system of ultrasonic atomization steam washing machine, its characterized in that, including washing steam atomizing device, washing power supply unit and washing working bin:

the washing water vapor atomization device comprises a washing water atomization chamber (2), a washing water ultrasonic atomizer (30), a washing water atomization supply pipe (12) and an atomization steam supply pipe (16), wherein the washing water atomization chamber (2) is a storage water tank which stores a mixture of a washing agent and tap water and is used for atomization, the washing water ultrasonic atomizer (30) is equipment which is arranged at the bottom of the washing water atomization chamber (2) and is used for atomizing washing water, and the washing water atomization supply pipe (12) is a pipeline through which washing water vapor atomized by the washing water atomization chamber (2) enters the atomization steam supply pipe (16) and is connected with the atomization steam supply pipe (16) in series;

the washing power supply device comprises: the device comprises a vacuum pressure pump (37), a vacuum pressure pump air inlet (38) and a vacuum pressure pump air outlet (39), wherein the vacuum pressure pump (37) is an air pump for providing enough working positive air pressure and negative air pressure for a washing bin (40), and the outlet of an atomization steam supply pipe (16) is connected with the vacuum pressure pump air inlet (38);

the washing working bin comprises a washing bin (40), a washing bin air inlet pipe (47) and a washing bin air outlet pipe (49), wherein the washing bin air inlet pipe (47) is a channel for conveying atomized water vapor to the washing bin (40) by a vacuum pressure pump (37), one end of the washing bin air inlet pipe is connected with a vacuum pressure pump air outlet (39), one end of the washing bin air outlet pipe is connected with the washing bin (40), the washing bin air outlet pipe (49) is a channel for discharging the atomized water vapor outwards from the washing bin, and one end of the washing bin air outlet pipe is connected with the other end of the washing bin (40) and is connected.

2. The washing system of the ultrasonic atomization steam washing machine according to claim 1, characterized in that the washing water vapor atomization device comprises a cleaning water atomization chamber (3), a cleaning water ultrasonic atomizer (31) and a cleaning water atomization supply pipe (14), the cleaning water atomization chamber (3) is a storage water tank for storing tap water and atomizing the tap water, the cleaning water ultrasonic atomizer (31) is a device for atomizing the cleaning water which is arranged at the bottom of the cleaning water atomization chamber (3), the cleaning water atomization supply pipe (14) is a pipeline for the cleaning water vapor atomized by the cleaning water atomization chamber (3) to enter the atomization steam supply pipe (16), and a valve for connecting the channel of the atomization steam supply pipe (16) in series;

preferably, the washing water atomization supply pipe (12) is connected in series with a washing water atomization supply pipe electromagnetic valve (13) for controlling the passages of the washing water atomization supply pipe (12) and the atomization steam supply pipe (16);

the cleaning water atomization supply pipe (14) is connected in series with a cleaning water atomization supply pipe electromagnetic valve (15) for controlling the passage of the cleaning water atomization supply pipe (14) and the atomization steam supply pipe (16).

3. The washing system of the ultrasonic atomization steam washing machine as claimed in claim 2, wherein the washing water vapor atomization device comprises a main water inlet pipe (1), a washing water atomization chamber water inlet pipe (4) and a cleaning water atomization chamber water inlet pipe (5), the main water inlet pipe (1) is a pipeline for water inlet of the washing machine, the washing water atomization chamber water inlet pipe (4) is a pipeline for connecting the main water inlet pipe (1) to supply water to the washing water atomization chamber (2), and the cleaning water atomization chamber water inlet pipe (5) is a pipeline for connecting the main water inlet pipe (1) to supply water to the cleaning water atomization chamber (3);

preferably, the washing water atomization chamber water inlet pipe electromagnetic valve (6) is a valve for controlling the main water inlet pipe (1) to supply water to the washing water atomization chamber (2), one end of the washing water atomization chamber water inlet pipe electromagnetic valve (7) is a valve for controlling the main water inlet pipe (1) to supply water to the cleaning water atomization chamber (3), and the other end of the cleaning water atomization chamber water inlet pipe electromagnetic valve (6) is connected with the main water inlet pipe (1) and is connected with the cleaning water atomization chamber water inlet pipe (5);

further preferably, the washing water vapor atomizing device comprises a washing water atomizing chamber low water level sensor (17), a washing water atomizing chamber high water level sensor (18), a cleaning water atomizing chamber low water level sensor (19) and a cleaning water atomizing chamber high water level sensor (20), wherein the washing water atomizing chamber low water level sensor (17) is used for detecting the lowest position of washing water and is arranged at the bottom of the washing water atomizing chamber (2), and the washing water atomizing chamber high water level sensor (18) is used for detecting the highest position of the washing water; the device is arranged at the upper part of a washing water atomization chamber (2), a low water level sensor (19) of the cleaning water atomization chamber is used for detecting the lowest position of cleaning water, and is arranged at the bottom of the cleaning water atomization chamber (2), a high water level sensor (20) of the cleaning water atomization chamber is used for detecting the highest position of the cleaning water, and is arranged at the upper part of the cleaning water atomization chamber (2);

still more preferably, the washing water vapor atomizing device comprises a detergent box (21), the detergent box (21) is a storage box for adding detergent to the washing water atomizing chamber (2), an external cover of the storage box is movably sealed, and an internal opening receives tap water conveyed by an outlet of a water inlet pipe (4) of the washing water atomizing chamber for washing and dissolving.

4. The washing system of the ultrasonic atomization steam washing machine as claimed in claim 2, wherein the washing water vapor atomization device comprises a main air inlet pipe (23), a washing water atomization chamber inlet pipe (24) and a cleaning water atomization chamber inlet pipe (25), the main air inlet pipe (23) is a pipeline for conveying filtered air, is connected with the washing water atomization chamber inlet pipe (24), and is respectively connected with the washing water atomization chamber inlet pipe (24) and the cleaning water atomization chamber inlet pipe (25); the air inlet pipe (24) of the washing water atomizing chamber is a pipeline for conveying filtered air to the washing water atomizing chamber (2), and an air outlet of the air inlet pipe is deep below the lowest water level of the washing water atomizing chamber (2); the air inlet pipe (25) of the clean water atomization chamber is a pipeline for conveying filtered air to the clean water atomization chamber (3), and an air outlet of the air inlet pipe is deep below the lowest water level of the clean water atomization chamber;

preferably, the washing water vapor atomization device comprises a washing water atomization chamber air leakage pipe (8), a washing water atomization chamber air leakage pipe electromagnetic valve (10), a cleaning water atomization chamber air leakage pipe (9) and a cleaning water atomization chamber air leakage pipe electromagnetic valve (11):

the washing water atomization chamber air release pipe (8) is a pressure reduction air release pipe for preventing air pressure from rising when water is supplied to the washing water atomization chamber (2), one end of the washing water atomization chamber air release pipe is connected with the washing water atomization chamber (2), the washing water atomization chamber air release pipe electromagnetic valve (10) is a valve for controlling the passage of the washing water atomization chamber air release pipe (8), one end of the washing water atomization chamber air release pipe electromagnetic valve is connected with an external space, and the other end of the washing water;

the cleaning water atomization chamber air release pipe (9) is a pressure reduction air release pipe for preventing air pressure from rising when water is supplied to the cleaning water atomization chamber (3), one end of the cleaning water atomization chamber air release pipe is connected with the cleaning water atomization chamber (3), a cleaning water atomization chamber air release pipe electromagnetic valve (11) is a valve for controlling the channel of the cleaning water atomization chamber air release pipe (9), one end of the cleaning water atomization chamber air release pipe electromagnetic valve is connected with the cleaning water atomization chamber air release pipe (9), and the other end of the cleaning water atomization chamber air release pipe electromagnetic valve is connected;

further preferably, the air filter (22) is an apparatus for filtering outside air, and the air outlet is connected with a main air inlet pipe (23).

5. The washing system of an ultrasonic atomizing steam washing machine according to claim 2, characterized in that said washing water vapor atomizing means comprises a washing water heater (26) and a cleaning water heater (27), said washing water heater (26) is a device installed at the bottom of the washing water atomizing chamber (2) for heating the washing water, said cleaning water heater (27) is a device installed at the bottom of the cleaning water atomizing chamber (3) for heating the cleaning water;

preferably, the washing water vapor atomizing device comprises a washing water temperature sensor (28) and a cleaning water temperature sensor (29), wherein the washing water temperature sensor (28) is a device which is arranged at the bottom of the washing water atomizing chamber (2) and is used for detecting the temperature of the washing water, and the cleaning water temperature sensor (29) is a device which is arranged at the bottom of the cleaning water atomizing chamber (3) and is used for detecting the temperature of the cleaning water.

6. The washing system of an ultrasonic atomizing steam washing machine according to claim 2, wherein said washing water vapor atomizing device comprises a washing water drain pipe (32), a washing water drain pipe solenoid valve (33), a cleaning water drain pipe solenoid valve (35), and a main drain pipe (36): the washing water drainage pipe (32) is a pipeline which is arranged at the bottom of the washing water atomization chamber (2) and used for draining and emptying redundant washing water; the washing water drain pipe electromagnetic valve (33) is a valve for controlling the passage of the washing water drain pipe (32) and is respectively connected with the washing water drain pipe (32) and the main drain pipe (36); the cleaning water drainage pipe (34) is a pipeline which is arranged at the bottom of the cleaning water atomization chamber (3) and used for draining and emptying redundant cleaning water; the electromagnetic valve (35) of the cleaning water drain pipe is a valve for controlling the passage of the cleaning water drain pipe (34); respectively connecting a cleaning water drain pipe (34) and a main drain pipe (36); the main drain pipe (36) is a main pipe for draining outside of the washing machine and is connected with the washing water drain pipe electromagnetic valve (33) and the cleaning water drain pipe electromagnetic valve (35).

7. The washing system of an ultrasonic atomizing steam washing machine according to any one of claims 1 to 6, characterized in that said washing chamber (40) has a highly sealed three-dimensional space for carrying out washing work;

preferably, the washing working chamber comprises a washing chamber air pressure sensor (51), and the washing chamber air pressure sensor (51) is a device which is arranged in the washing chamber (40) and is used for detecting washing air pressure;

preferably, the washing working chamber comprises a washing chamber temperature sensor (52A) and a washing chamber temperature sensor (52B), the washing chamber temperature sensor (52A) is a device which is arranged at the top in the washing chamber (40) and is used for detecting the temperature of atomized steam or air in the washing chamber, and the washing chamber infrared temperature sensor (52B) is a device which is arranged in the washing chamber (40) and is used for detecting the surface temperature of washed clothes;

preferably, the washing working chamber comprises a washing chamber convection radiant heater (53), the washing chamber convection radiant heater (53) is a plurality of devices with radiation heating devices at the top and installed at different positions in the washing chamber (40), and the bottom comprises a fan for heating atomized steam, heating air and heating washed clothes by radiation;

preferably, the washing working bin comprises a washing bin drain pipe (54) and a washing bin drain pipe electromagnetic valve (55), the washing bin drain pipe (54) is a channel which is arranged at the bottom of the washing bin (40) and used for discharging condensed water accumulated at the bottom of the bin and air leakage of the washing bin, and the washing bin drain pipe electromagnetic valve (55) is arranged;

preferably, the washing working chamber comprises a washing chamber cover (41), a washing chamber cover fastening valve (44) and a washing chamber cover observation hole (45), the washing chamber cover (41) is a chamber door for sealing the front surface of the washing chamber (40), and is provided with a washing chamber cover connecting piece (42) and a washing chamber cover fastening interface (43), the washing chamber cover connecting piece (42) is a hinge for movably connecting the washing chamber cover (41) and the washing chamber (40), the washing chamber cover fastening interface (43) is a U-shaped connecting port which is oppositely arranged at the other side of the washing chamber cover with the washing chamber cover connecting piece (42) and is matched with the washing chamber cover fastening valve (44), the washing chamber cover fastening valve (44) is arranged at the front surface of the washing chamber (40) and is matched with the washing chamber cover fastening interface (43) to tighten the washing chamber cover (41) to keep the washing chamber (40) highly sealed, and the washing chamber cover observation hole (45) is a transparent window which is arranged in the middle of the washing chamber cover (41) and is used for observing the working condition of the washing chamber A mouth;

preferably, the washing working chamber comprises a washing chamber lighting lamp (46), and the washing chamber lighting lamp (46) is a lighting device arranged in the washing chamber;

preferably, the washing working bin comprises a clothes supporting and hanging ring (78), the clothes supporting and hanging ring (78) is equipment for hanging clothes to be washed in the washing bin, and the clothes supporting and hanging ring is arranged in the middle of the top of the washing bin.

8. The washing system of an ultrasonic atomizing steam washing machine as claimed in claim 7, characterized in that it comprises an exhaust gas liquefaction recovery device, which comprises an exhaust gas pipe (56), an exhaust gas pipe electromagnetic valve (57), a negative oxygen ion generator (60), a primary liquefaction chamber (63), a primary liquefaction chamber filter screen (64), a secondary liquefaction chamber (66), a secondary liquefaction chamber filter screen (67), a secondary liquefaction chamber exhaust pipe (69):

the waste steam pipe (56) is a passage for conveying washing waste steam to the primary liquefaction chamber (63) by the vacuum pressure pump (37) and is provided with a waste steam pipe electromagnetic valve (57); the air inlet end is connected with an air outlet (39) of the vacuum pressure pump;

the waste steam pipe electromagnetic valve (57) is a valve for controlling the passage of the waste steam pipe (56); the air inlet end is connected in series with an air outlet (39) of the vacuum pressure pump and the air inlet end of the waste steam pipe (56);

the negative oxygen ion generator (60) is used for providing negative ions for the primary liquefaction chamber (63);

the primary liquefaction chamber (63) is a working space for carrying out primary gas-water separation on atomized steam, is communicated with the secondary liquefaction chamber (66), and is separated by a primary liquefaction chamber filter screen (64);

the primary liquefaction chamber filter screen (64) is a multi-layer superfine filter screen made of metal materials and is connected with the anode ground wire of the negative oxygen ion generator;

the secondary liquefaction chamber (66) is a working space for secondary water-gas separation;

the secondary liquefaction chamber filter screen (67) is secondary water-gas separation equipment made of a plurality of layers of superfine metal filter screens and high-density fiber filter screens; is arranged on the top of the secondary liquefaction chamber (66), wherein the metal filter screen is connected with the anode ground wire of the negative oxygen ion generator;

preferably, the waste gas liquefaction recovery device comprises a negative oxygen ion chamber air filter (58), an air booster pump (59), a negative oxygen ion chamber (61) and a negative oxygen ion gas conveying pipe (62):

the negative oxygen ion chamber air filter (58) is a device for providing dry and filtered air for the negative oxygen ion generator (60); the inlet is connected with the external space, and the outlet is connected with the air inlet of an air booster pump (59);

the air booster pump (59) is a device for providing high-pressure air flow for the negative oxygen ion generator; the air filter is provided with an air inlet and an air outlet, the air inlet is connected with an air filter (58) of the negative oxygen ion chamber, and the air outlet is connected with a negative oxygen ion chamber (61);

the negative oxygen ion chamber (61) is an installation space of a negative high-voltage discharge end of the negative oxygen ion generator (60) and is provided with an air inlet and an air outlet; the air inlet is connected with the air outlet of the air booster pump (59), and the air outlet is connected with the negative oxygen ion air pipe (62);

the negative oxygen ion gas pipe (62) is a channel for conveying negative ions to the primary liquefaction chamber (63);

preferably, the outlet of the washing bin water drain pipe electromagnetic valve (55) is connected with a waste steam pipe (56) and directly drains water to the primary liquefaction chamber (63);

preferably, the waste gas liquefaction recovery device comprises a primary liquefaction chamber drain pipe (65), a secondary liquefaction chamber drain pipe (68) and a liquefaction chamber drain pipe electromagnetic valve (70):

the primary liquefaction chamber drain pipe (65) is a channel which is arranged at the bottom of the primary liquefaction chamber (63) and is used for discharging condensed wastewater; the outlet is connected with a liquefaction chamber drain pipe electromagnetic valve (70);

the secondary liquefaction chamber drain pipe (68) is a channel which is arranged at the bottom of the secondary liquefaction chamber (66) and is used for discharging condensed waste water; the outlet of the primary liquefaction chamber drain pipe (65) is converged and connected with a liquefaction chamber drain pipe electromagnetic valve (70);

the liquefaction chamber drain pipe electromagnetic valve (70) is a valve for controlling the passage of the primary liquefaction chamber drain pipe (65) and the secondary liquefaction chamber drain pipe (68), and the liquefaction chamber drain pipe electromagnetic valve (70) is connected with the main drain pipe (36);

preferably, the waste gas liquefaction recovery device comprises a drying air inlet pipe (71) and a drying air inlet pipe electromagnetic valve (72):

the drying air inlet pipe (71) is an air inlet channel for providing dry air for the washing bin (40), one end of the drying air inlet pipe is connected with an air outlet of the negative oxygen ion chamber air filter (58), and the other end of the drying air inlet pipe is connected with a drying air inlet pipe electromagnetic valve (72);

the drying air inlet pipe electromagnetic valve (72) is a valve for controlling air filtered by the negative oxygen ion chamber air filter (58) to enter the air inlet (38) of the vacuum pressure pump, one end of the drying air inlet pipe electromagnetic valve is connected with the drying air inlet pipe (71), and the other end of the drying air inlet pipe electromagnetic valve is connected with the atomized steam supply pipe (16).

9. A method of controlling a washing system of an ultrasonic atomizing steam washing machine as set forth in any one of claims 1 to 8, comprising: the ultrasonic atomization washing water and the filtered fresh air are mixed to form atomization steam, the atomization steam is pressurized and conveyed to the washing bin through the vacuum pressure pump, the atomization steam in the washing bin keeps a set temperature and a set high pressure and enters gaps of clothes fibers, and pollutants and peculiar smell are dissolved and diluted.

10. The method of controlling a washing system of an ultrasonic atomizing steam washing machine according to claim 9, comprising: forming a vacuum negative pressure environment for the washing bin through a vacuum pressure pump, discharging waste steam with pollutants and peculiar smell dissolved in clothes fibers out of the washing bin, separating water and gas by filtering the waste steam through negative ion precipitation and secondary precipitation, and respectively discharging the separated water and gas out of the washing machine;

preferably, the method further comprises a drying process, in the drying process, after being filtered, outside air is pressurized and conveyed to the washing bin through a vacuum pressure pump, the air and the washed clothes in the washing bin are heated, the air and the washed clothes are kept at a set temperature and high pressure and enter gaps of the clothes fibers, the air and the water are mixed and diluted into moisture, then a vacuum negative pressure environment is formed through the vacuum pressure pump again, the surface temperature of the washed clothes is kept below the set washing temperature and above a water negative pressure boiling point in the negative pressure environment through a radiation heating mode, and the moisture in the clothes fibers is quickly evaporated and discharged out of the washing bin.

Technical Field

The invention relates to a washing method and a washing system of a washing machine, in particular to a washing system of an ultrasonic atomization steam washing machine and a control method thereof.

Background

The clothes which are just washed are worn for one day, and are really free from dirt or obvious in pollution, but have different smells, and are uncomfortable to feel, and the clothes are washed immediately, so that the time is wasted, and the clothes are not environment-friendly. Or after the clothes just washed pass through a smoker dining office, the clothes are full of smoke smell without stains, which is very annoying. And so on, and the inventor has designed a respiratory type air washing and purifying device (patent application No. 2018111932101). The product has obvious effect on removing peculiar smell, but needs longer time for removing some intractable peculiar smell. The obvious stain and dust removal effect is not obvious, so the invention is produced at the same time.

Disclosure of Invention

The invention provides a washing system of an ultrasonic atomization steam washing machine, and particularly adopts the following technical scheme:

the washing system of the ultrasonic atomization steam washing machine comprises a washing water vapor atomization device, a washing power supply device and a washing working bin:

the washing water vapor atomization device comprises a washing water atomization chamber (2), a washing water ultrasonic atomizer (30), a washing water atomization supply pipe (12) and an atomization steam supply pipe (16), wherein the washing water atomization chamber (2) is a storage water tank which stores a mixture of a washing agent and tap water and is used for atomization, the washing water ultrasonic atomizer (30) is equipment which is arranged at the bottom of the washing water atomization chamber (2) and is used for atomizing washing water, and the washing water atomization supply pipe (12) is a pipeline through which washing water vapor atomized by the washing water atomization chamber (2) enters the atomization steam supply pipe (16) and is connected with the atomization steam supply pipe (16) in series;

the washing power supply device comprises: the device comprises a vacuum pressure pump (37), a vacuum pressure pump air inlet (38) and a vacuum pressure pump air outlet (39), wherein the vacuum pressure pump (37) is an air pump for providing enough working positive air pressure and negative air pressure for a washing bin (40), and the outlet of an atomization steam supply pipe (16) is connected with the vacuum pressure pump air inlet (38);

the washing working bin comprises a washing bin (40), a washing bin air inlet pipe (47) and a washing bin air outlet pipe (49), wherein the washing bin air inlet pipe (47) is a channel for conveying atomized water vapor to the washing bin (40) by a vacuum pressure pump (37), one end of the washing bin air inlet pipe is connected with a vacuum pressure pump air outlet (39), one end of the washing bin air outlet pipe is connected with the washing bin (40), the washing bin air outlet pipe (49) is a channel for discharging the atomized water vapor outwards from the washing bin, and one end of the washing bin air outlet pipe is connected with the other end of the washing bin (40) and is connected.

Furthermore, the washing water vapor atomization device comprises a cleaning water atomization chamber (3), a cleaning water ultrasonic atomizer (31) and a cleaning water atomization supply pipe (14), wherein the cleaning water atomization chamber (3) is a storage water tank for storing tap water and atomizing the tap water, the cleaning water ultrasonic atomizer (31) is equipment for atomizing cleaning water arranged at the bottom of the cleaning water atomization chamber (3), the cleaning water atomization supply pipe (14) is a pipeline for introducing cleaning water vapor atomized by the cleaning water atomization chamber (3) into the atomization steam supply pipe (16), and a valve for connecting a channel of the atomization steam supply pipe (16) in series;

preferably, the washing water atomization supply pipe (12) is connected in series with a washing water atomization supply pipe electromagnetic valve (13) for controlling the passages of the washing water atomization supply pipe (12) and the atomization steam supply pipe (16);

the cleaning water atomization supply pipe (14) is connected in series with a cleaning water atomization supply pipe electromagnetic valve (15) for controlling the passage of the cleaning water atomization supply pipe (14) and the atomization steam supply pipe (16).

Furthermore, the washing water vapor atomization device comprises a main water inlet pipe (1), a washing water atomization chamber water inlet pipe (4) and a cleaning water atomization chamber water inlet pipe (5), wherein the main water inlet pipe (1) is a washing machine water inlet pipeline, the washing water atomization chamber water inlet pipe (4) is a pipeline which is connected with the main water inlet pipe (1) and supplies water to the washing water atomization chamber (2), and the cleaning water atomization chamber water inlet pipe (5) is a pipeline which is connected with the main water inlet pipe (1) and supplies water to the cleaning water atomization chamber (3);

preferably, the washing water atomization chamber water inlet pipe electromagnetic valve (6) is a valve for controlling the main water inlet pipe (1) to supply water to the washing water atomization chamber (2), one end of the washing water atomization chamber water inlet pipe electromagnetic valve (7) is a valve for controlling the main water inlet pipe (1) to supply water to the cleaning water atomization chamber (3), and the other end of the cleaning water atomization chamber water inlet pipe electromagnetic valve (6) is connected with the main water inlet pipe (1) and is connected with the cleaning water atomization chamber water inlet pipe (5);

further preferably, the washing water vapor atomizing device comprises a washing water atomizing chamber low water level sensor (17), a washing water atomizing chamber high water level sensor (18), a cleaning water atomizing chamber low water level sensor (19) and a cleaning water atomizing chamber high water level sensor (20), wherein the washing water atomizing chamber low water level sensor (17) is used for detecting the lowest position of washing water and is arranged at the bottom of the washing water atomizing chamber (2), and the washing water atomizing chamber high water level sensor (18) is used for detecting the highest position of the washing water; the device is arranged at the upper part of a washing water atomization chamber (2), a low water level sensor (19) of the cleaning water atomization chamber is used for detecting the lowest position of cleaning water, and is arranged at the bottom of the cleaning water atomization chamber (2), a high water level sensor (20) of the cleaning water atomization chamber is used for detecting the highest position of the cleaning water, and is arranged at the upper part of the cleaning water atomization chamber (2);

still more preferably, the washing water vapor atomizing device comprises a detergent box (21), the detergent box (21) is a storage box for adding detergent to the washing water atomizing chamber (2), an external cover of the storage box is movably sealed, and an internal opening receives tap water conveyed by an outlet of a water inlet pipe (4) of the washing water atomizing chamber for washing and dissolving.

Furthermore, the washing water vapor atomization device comprises a main air inlet pipe (23), a washing water atomization chamber inlet pipe (24) and a cleaning water atomization chamber inlet pipe (25), wherein the main air inlet pipe (23) is a pipeline for conveying filtered air, is connected with the washing water atomization chamber inlet pipe (24), and is respectively connected with the washing water atomization chamber inlet pipe (24) and the cleaning water atomization chamber inlet pipe (25); the air inlet pipe (24) of the washing water atomizing chamber is a pipeline for conveying filtered air to the washing water atomizing chamber (2), and an air outlet of the air inlet pipe is deep below the lowest water level of the washing water atomizing chamber (2); the air inlet pipe (25) of the clean water atomization chamber is a pipeline for conveying filtered air to the clean water atomization chamber (3), and an air outlet of the air inlet pipe is deep below the lowest water level of the clean water atomization chamber;

preferably, the washing water vapor atomization device comprises a washing water atomization chamber air leakage pipe (8), a washing water atomization chamber air leakage pipe electromagnetic valve (10), a cleaning water atomization chamber air leakage pipe (9) and a cleaning water atomization chamber air leakage pipe electromagnetic valve (11):

the washing water atomization chamber air release pipe (8) is a pressure reduction air release pipe for preventing air pressure from rising when water is supplied to the washing water atomization chamber (2), one end of the washing water atomization chamber air release pipe is connected with the washing water atomization chamber (2), the washing water atomization chamber air release pipe electromagnetic valve (10) is a valve for controlling the passage of the washing water atomization chamber air release pipe (8), one end of the washing water atomization chamber air release pipe electromagnetic valve is connected with an external space, and the other end of the washing water;

the cleaning water atomization chamber air release pipe (9) is a pressure reduction air release pipe for preventing air pressure from rising when water is supplied to the cleaning water atomization chamber (3), one end of the cleaning water atomization chamber air release pipe is connected with the cleaning water atomization chamber (3), a cleaning water atomization chamber air release pipe electromagnetic valve (11) is a valve for controlling the channel of the cleaning water atomization chamber air release pipe (9), one end of the cleaning water atomization chamber air release pipe electromagnetic valve is connected with the cleaning water atomization chamber air release pipe (9), and the other end of the cleaning water atomization chamber air release pipe electromagnetic valve is connected;

further preferably, the air filter (22) is an apparatus for filtering outside air, and the air outlet is connected with a main air inlet pipe (23).

Furthermore, the washing water vapor atomizing device comprises a washing water heater (26) and a cleaning water heater (27), wherein the washing water heater (26) is a device which is arranged at the bottom of the washing water atomizing chamber (2) and is used for heating the washing water, and the cleaning water heater (27) is a device which is arranged at the bottom of the cleaning water atomizing chamber (3) and is used for heating the cleaning water;

preferably, the washing water vapor atomizing device comprises a washing water temperature sensor (28) and a cleaning water temperature sensor (29), wherein the washing water temperature sensor (28) is a device which is arranged at the bottom of the washing water atomizing chamber (2) and is used for detecting the temperature of the washing water, and the cleaning water temperature sensor (29) is a device which is arranged at the bottom of the cleaning water atomizing chamber (3) and is used for detecting the temperature of the cleaning water.

Furthermore, the washing water vapor atomization device comprises a washing water drainage pipe (32), a washing water drainage pipe electromagnetic valve (33), a cleaning water drainage pipe electromagnetic valve (35) and a main drainage pipe (36): the washing water drainage pipe (32) is a pipeline which is arranged at the bottom of the washing water atomization chamber (2) and used for draining and emptying redundant washing water; the washing water drain pipe electromagnetic valve (33) is a valve for controlling the passage of the washing water drain pipe (32) and is respectively connected with the washing water drain pipe (32) and the main drain pipe (36); the cleaning water drainage pipe (34) is a pipeline which is arranged at the bottom of the cleaning water atomization chamber (3) and used for draining and emptying redundant cleaning water; the electromagnetic valve (35) of the cleaning water drain pipe is a valve for controlling the passage of the cleaning water drain pipe (34); respectively connecting a cleaning water drain pipe (34) and a main drain pipe (36); the main drain pipe (36) is a main pipe for draining outside of the washing machine and is connected with the washing water drain pipe electromagnetic valve (33) and the cleaning water drain pipe electromagnetic valve (35).

Furthermore, the washing bin (40) is provided with a highly sealed three-dimensional space for washing;

preferably, the washing working chamber comprises a washing chamber air pressure sensor (51), and the washing chamber air pressure sensor (51) is a device which is arranged in the washing chamber (40) and is used for detecting washing air pressure;

preferably, the washing working chamber comprises a washing chamber temperature sensor (52A) and a washing chamber temperature sensor (52B), the washing chamber temperature sensor (52A) is a device which is arranged at the top in the washing chamber (40) and is used for detecting the temperature of atomized steam or air in the washing chamber, and the washing chamber infrared temperature sensor (52B) is a device which is arranged in the washing chamber (40) and is used for detecting the surface temperature of washed clothes;

preferably, the washing working chamber comprises a washing chamber convection radiant heater (53), the washing chamber convection radiant heater (53) is a plurality of devices with radiation heating devices at the top and installed at different positions in the washing chamber (40), and the bottom comprises a fan for heating atomized steam, heating air and heating washed clothes by radiation;

preferably, the washing working bin comprises a washing bin drain pipe (54) and a washing bin drain pipe electromagnetic valve (55), the washing bin drain pipe (54) is a channel which is arranged at the bottom of the washing bin (40) and used for discharging condensed water accumulated at the bottom of the bin and air leakage of the washing bin, and the washing bin drain pipe electromagnetic valve (55) is arranged;

preferably, the washing working chamber comprises a washing chamber cover (41), a washing chamber cover fastening valve (44) and a washing chamber cover observation hole (45), the washing chamber cover (41) is a chamber door for sealing the front surface of the washing chamber (40), and is provided with a washing chamber cover connecting piece (42) and a washing chamber cover fastening interface (43), the washing chamber cover connecting piece (42) is a hinge for movably connecting the washing chamber cover (41) and the washing chamber (40), the washing chamber cover fastening interface (43) is a U-shaped connecting port which is oppositely arranged at the other side of the washing chamber cover with the washing chamber cover connecting piece (42) and is matched with the washing chamber cover fastening valve (44), the washing chamber cover fastening valve (44) is arranged at the front surface of the washing chamber (40) and is matched with the washing chamber cover fastening interface (43) to tighten the washing chamber cover (41) to keep the washing chamber (40) highly sealed, and the washing chamber cover observation hole (45) is a transparent window which is arranged in the middle of the washing chamber cover (41) and is used for observing the working condition of the washing chamber A mouth;

preferably, the washing working chamber comprises a washing chamber lighting lamp (46), and the washing chamber lighting lamp (46) is a lighting device arranged in the washing chamber;

preferably, the washing working bin comprises a clothes supporting and hanging ring (78), the clothes supporting and hanging ring (78) is equipment for hanging clothes to be washed in the washing bin, and the clothes supporting and hanging ring is arranged in the middle of the top of the washing bin.

Further, the device comprises an exhaust gas liquefaction recovery device, wherein the exhaust gas liquefaction recovery device comprises an exhaust gas pipe (56), an exhaust gas pipe electromagnetic valve (57), a negative oxygen ion generator (60), a primary liquefaction chamber (63), a primary liquefaction chamber filter screen (64), a secondary liquefaction chamber (66), a secondary liquefaction chamber filter screen (67) and a secondary liquefaction chamber exhaust pipe (69):

the waste steam pipe (56) is a passage for conveying washing waste steam to the primary liquefaction chamber (63) by the vacuum pressure pump (37) and is provided with a waste steam pipe electromagnetic valve (57); the air inlet end is connected with an air outlet (39) of the vacuum pressure pump;

the waste steam pipe electromagnetic valve (57) is a valve for controlling the passage of the waste steam pipe (56); the air inlet end is connected in series with an air outlet (39) of the vacuum pressure pump and the air inlet end of the waste steam pipe (56);

the negative oxygen ion generator (60) is used for providing negative ions for the primary liquefaction chamber (63);

the primary liquefaction chamber (63) is a working space for carrying out primary gas-water separation on atomized steam, is communicated with the secondary liquefaction chamber (66), and is separated by a primary liquefaction chamber filter screen (64);

the primary liquefaction chamber filter screen (64) is a multi-layer superfine filter screen made of metal materials and is connected with the anode ground wire of the negative oxygen ion generator;

the secondary liquefaction chamber (66) is a working space for secondary water-gas separation;

the secondary liquefaction chamber filter screen (67) is secondary water-gas separation equipment made of a plurality of layers of superfine metal filter screens and high-density fiber filter screens; is arranged on the top of the secondary liquefaction chamber (66), wherein the metal filter screen is connected with the anode ground wire of the negative oxygen ion generator;

preferably, the waste gas liquefaction recovery device comprises a negative oxygen ion chamber air filter (58), an air booster pump (59), a negative oxygen ion chamber (61) and a negative oxygen ion gas conveying pipe (62):

the negative oxygen ion chamber air filter (58) is a device for providing dry and filtered air for the negative oxygen ion generator (60); the inlet is connected with the external space, and the outlet is connected with the air inlet of an air booster pump (59);

the air booster pump (59) is a device for providing high-pressure air flow for the negative oxygen ion generator; the air filter is provided with an air inlet and an air outlet, the air inlet is connected with an air filter (58) of the negative oxygen ion chamber, and the air outlet is connected with a negative oxygen ion chamber (61);

the negative oxygen ion chamber (61) is an installation space of a negative high-voltage discharge end of the negative oxygen ion generator (60) and is provided with an air inlet and an air outlet; the air inlet is connected with the air outlet of the air booster pump (59), and the air outlet is connected with the negative oxygen ion air pipe (62);

the negative oxygen ion gas pipe (62) is a channel for conveying negative ions to the primary liquefaction chamber (63);

preferably, the outlet of the washing bin water drain pipe electromagnetic valve (55) is connected with a waste steam pipe (56) and directly drains water to the primary liquefaction chamber (63);

preferably, the waste gas liquefaction recovery device comprises a primary liquefaction chamber drain pipe (65), a secondary liquefaction chamber drain pipe (68) and a liquefaction chamber drain pipe electromagnetic valve (70):

the primary liquefaction chamber drain pipe (65) is a channel which is arranged at the bottom of the primary liquefaction chamber (63) and is used for discharging condensed wastewater; the outlet is connected with a liquefaction chamber drain pipe electromagnetic valve (70);

the secondary liquefaction chamber drain pipe (68) is a channel which is arranged at the bottom of the secondary liquefaction chamber (66) and is used for discharging condensed waste water; the outlet of the primary liquefaction chamber drain pipe (65) is converged and connected with a liquefaction chamber drain pipe electromagnetic valve (70);

the liquefaction chamber drain pipe electromagnetic valve (70) is a valve for controlling the passage of the primary liquefaction chamber drain pipe (65) and the secondary liquefaction chamber drain pipe (68), and the liquefaction chamber drain pipe electromagnetic valve (70) is connected with the main drain pipe (36).

Preferably, the waste gas liquefaction recovery device comprises a drying air inlet pipe (71) and a drying air inlet pipe electromagnetic valve (72):

the drying air inlet pipe (71) is an air inlet channel for providing dry air for the washing bin (40), one end of the drying air inlet pipe is connected with an air outlet of the negative oxygen ion chamber air filter (58), and the other end of the drying air inlet pipe is connected with a drying air inlet pipe electromagnetic valve (72);

the drying air inlet pipe electromagnetic valve (72) is a valve for controlling air filtered by the negative oxygen ion chamber air filter (58) to enter the air inlet (38) of the vacuum pressure pump, one end of the drying air inlet pipe electromagnetic valve is connected with the drying air inlet pipe (71), and the other end of the drying air inlet pipe electromagnetic valve is connected with the atomized steam supply pipe (16).

The second invention of the invention aims to provide a control method of a washing system of an ultrasonic atomization steam washing machine, and concretely adopts the following technical scheme:

a control method of a washing system of an ultrasonic atomizing steam washing machine, comprising: the ultrasonic atomization washing water and the filtered fresh air are mixed to form atomization steam, the atomization steam is pressurized and conveyed to the washing bin through the vacuum pressure pump, the atomization steam in the washing bin keeps a set temperature and a set high pressure and enters gaps of clothes fibers, and pollutants and peculiar smell are dissolved and diluted.

Further, the control method of the washing system of the ultrasonic atomization steam washing machine comprises the following steps: forming a vacuum negative pressure environment for the washing bin through a vacuum pressure pump, discharging waste steam with pollutants and peculiar smell dissolved in clothes fibers out of the washing bin, separating water and gas by filtering the waste steam through negative ion precipitation and secondary precipitation, and respectively discharging the separated water and gas out of the washing machine;

preferably, the method further comprises a drying process, in the drying process, after being filtered, outside air is pressurized and conveyed to the washing bin through a vacuum pressure pump, the air and the washed clothes in the washing bin are heated, the air and the washed clothes are kept at a set temperature and high pressure and enter gaps of the clothes fibers, the air and the water are mixed and diluted into moisture, then a vacuum negative pressure environment is formed through the vacuum pressure pump again, the surface temperature of the washed clothes is kept below the set washing temperature and above a water negative pressure boiling point in the negative pressure environment through a radiation heating mode, and the moisture in the clothes fibers is quickly evaporated and discharged out of the washing bin.

The invention discloses a washing system of an ultrasonic atomization steam washing machine, which comprises: the device comprises a washing water vapor atomization device, a washing power supply device, a washing working bin, a waste vapor liquefaction recovery device, a PLC comprehensive control device and a main frame. Ultrasonically atomizing washing water or mixing cleaning water with fresh air to form atomized steam, pressurizing and conveying the atomized steam to a washing bin through a vacuum pressure pump, keeping the atomized steam in the washing bin at a set temperature and a set high pressure, allowing the atomized steam to enter fiber gaps of clothes, dissolving pollutants and peculiar smell, and diluting; then forming a vacuum negative pressure environment for the washing bin through the vacuum pressure pump again, rapidly discharging waste steam with pollutants and peculiar smell dissolved in the clothes fiber out of the washing bin, separating water and gas from the waste steam through negative ion precipitation and secondary precipitation filtration, respectively discharging the waste steam out of the washing machine, and drying the washed clothes in a radiation heating mode under the negative pressure environment. The washing clothes are dried quickly and the damage to the clothes is small, and the washing clothes are particularly suitable for large-volume clothes such as single down jackets, overcoat and the like.

The invention solves the practical problem in life and ensures that the clothes which do not need to be washed by the water can keep fresh and clean smell. Especially down jackets and large clothes are washed by ultrasonic atomization steam, the temperature is proper, no mechanical abrasion exists, the clothes are not damaged, the clothes are kept fluffy and dry, unnecessary troubles are avoided in life, the time is saved, and the life of people is easier and healthier.

Drawings

Fig. 1 is a perspective view of the internal structure.

In the figure, 1, a main water inlet pipe, 2, a washing water atomizing chamber, 3, a cleaning water atomizing chamber, 4, a washing water atomizing chamber water inlet pipe, 5, a cleaning water atomizing chamber water inlet pipe, 6, a washing water atomizing chamber water inlet pipe electromagnetic valve, 7, a cleaning water atomizing chamber water inlet pipe electromagnetic valve, 8, a washing water atomizing chamber air release pipe, 9, a cleaning water atomizing chamber air release pipe, 10, a washing water atomizing chamber air release pipe electromagnetic valve, 11, a cleaning water atomizing chamber air release pipe electromagnetic valve, 12, a washing water atomizing supply pipe, 13, a washing water atomizing supply pipe supply electromagnetic valve, 14, a cleaning water atomizing supply pipe, 15, a cleaning water atomizing supply pipe electromagnetic valve, 16, an atomizing steam supply pipe, 17, a washing water atomizing chamber low water level sensor, 18, a washing water atomizing chamber high water level sensor, 19, a cleaning water atomizing chamber low water level sensor, 20, a cleaning water atomizing chamber high water level sensor, 21, a washing agent box, 22. Air filter, 23 main air inlet pipe, 24 washing water atomization chamber inlet pipe, 25 cleaning water atomization chamber inlet pipe, 26 washing water heater, 27 cleaning water heater, 28 washing water temperature sensor, 29 cleaning water temperature sensor, 30 washing water ultrasonic atomizer, 31 cleaning water ultrasonic atomizer, 32 washing water drain pipe, 33 washing water drain pipe electromagnetic valve, 34 cleaning water drain pipe, 35 cleaning water drain pipe electromagnetic valve, 36 main drain pipe, 37 vacuum pressure pump, 38 vacuum pressure pump air inlet, 39 vacuum pressure pump air outlet, 40 washing chamber, 41 washing chamber cover, 42 washing chamber cover connecting piece, 43 washing chamber cover fastening interface, 44 washing chamber cover fastening valve, 45 washing chamber cover observation hole, 46 washing chamber lighting lamp, 47 washing chamber inlet pipe, 48 washing chamber inlet pipe electromagnetic valve, 49. Exhaust pipe of washing chamber, 50 electromagnetic valve of exhaust pipe of washing chamber, 51 electromagnetic valve of air pressure sensor of washing chamber, 52A temperature sensor of washing chamber, 52B infrared temperature sensor of washing chamber, 53 convection radiation heater of washing chamber, 54 water outlet pipe of washing chamber, 55 electromagnetic valve of water outlet pipe of washing chamber, 56 exhaust pipe, 57 electromagnetic valve of exhaust pipe, 58 electromagnetic valve of negative oxygen ion chamber, 59 air booster pump, 60 negative oxygen ion generator, 61 negative oxygen ion chamber, 62 negative oxygen ion gas pipe, 63 primary liquefying chamber, 64 filtering net of primary liquefying chamber, 65 draining pipe of primary liquefying chamber, 66 secondary liquefying chamber, 67 filtering net of secondary liquefying chamber, 68 draining pipe of secondary liquefying chamber, 69 exhaust pipe of secondary liquefying chamber, 70 electromagnetic valve of liquefying chamber, 71 drying gas inlet pipe, 72 electromagnetic valve of drying gas inlet pipe, 73.PLC integrated control circuit, 74 power input interface, 75 power switch, 76 man-machine conversation button, 77 status display panel, 78 clothes support ring, 79 rack and shell.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.