WO2024001712A1 - Laundry treatment apparatus, washing apparatus and washing device - Google Patents

Abstract

The present invention belongs to the field of laundry treatment, and in particular, relates to a laundry treatment apparatus, a washing apparatus and a washing device. The present invention aims to solve the problem in the prior art whereby bacteria are easily bred in a laundry treatment apparatus, resulting in laundry being polluted during treatment and producing an odor, and even endangering human health. To this end, the laundry treatment apparatus of the present invention comprises an apparatus housing, a microchannel plasma generator, a gas driving portion and a laundry accommodating portion, wherein the laundry accommodating portion is arranged inside the apparatus housing; a gas output end of the microchannel plasma generator is in communication with the laundry accommodating portion by means of a first gas channel; and the gas driving portion is configured to drive gas to enter the microchannel plasma generator by means of a gas input end. By means of the present invention, gas introduced into the microchannel plasma generator can be disinfected and sterilized, such that the bacteria, etc. in the laundry treatment apparatus and the resulting odor are eliminated.

Description

Clothes processing equipment and washing equipment and washing devices

This application claims the priority of Chinese patent application CN202210778879.7, submitted on June 30, 2022, with the invention name "Clothing Treatment Equipment", and also claims the priority of the Chinese patent application CN202210778879.7, submitted on June 30, 2022, with the invention name "Washing Equipment" The priority of Chinese patent application CN202210772771.7 is also claimed to be the priority of Chinese patent application CN202210771107.0 with the invention name "Washing Device" submitted on June 30, 2022. The entire content of the above Chinese patent application is incorporated by reference. in this application.

Technical field

The invention belongs to the technical field of clothing treatment, and specifically relates to a clothing treatment equipment, washing equipment and washing device.

Background technique

Clothing, food, housing and transportation are essential needs in people's lives today, and washing and caring for clothes are things that people often need to do. The washing machine frees people from the labor of washing clothes manually, which greatly facilitates people's lives.

Currently, pulsator washing machines and drum washing machines are commonly used for washing clothes. However, these washing machines used for washing clothes often come into contact with different dirty clothes. Moreover, after the dirt attached to the clothes is detached from the clothes, it first contacts the inside of the washing machine and is then discharged to the outside of the washing machine. If this happens for a long time, dirt from the clothes and some viruses or bacteria will easily adhere to the inside of the washing machine, such as between the mezzanines, and it will also easily breed many bacteria, mold, etc., which will not only produce odor and contaminate the next time Clothes to be washed also threaten human health.

Although some existing washing machines have the function of washing clothes and drying clothes at high temperatures, these functions are not suitable for clothes made of materials such as silk or wool that are not suitable for high-temperature processing. Moreover, it is difficult to achieve an ideal disinfection effect on the internal air ducts and other locations of these washing machines.

In addition to washing machines, currently common clothes processing equipment also includes clothes dryers, clothes care machines, etc. When these clothes dryers, clothes care machines and other equipment process clothes, the clothes to be processed do not necessarily have to have been cleaned. Yes, germs, etc. are likely to adhere to clothing. Moreover, the internal spaces of these clothing processing equipment are difficult to completely clean, such as the air ducts of clothes dryers and clothing care machines. Therefore, bacteria or mold are easy to breed, causing the treated clothes to produce odor.

Accordingly, this field needs a new kind of clothes treatment equipment, washing equipment and washing device to solve the problem in the prior art that the inside of the above clothes treatment equipment is easy to breed bacteria, etc., causing the clothes to be contaminated and produce odor during the treatment process. , and even endanger human health.

Contents of the invention

The present invention aims to solve the problem existing in the prior art that bacteria and the like are easy to breed inside the clothes processing equipment, causing the clothes to be contaminated during the treatment process, causing odor and even endangering human health.

In a first aspect, the present invention provides a clothing treatment equipment, which includes an equipment housing, a micro-channel plasma generator, a gas driving part and a clothing accommodating part, and the clothing accommodating part is provided inside the equipment housing;

The micro-channel plasma generator is provided with a gas input end and a gas output end, and the gas output end is connected to the clothing containing portion through a first gas channel;

The gas driving part is configured to drive gas into the micro-channel plasma generator through the gas input end. After the gas is processed in the micro-channel plasma generator, the gas enters into the micro-channel plasma generator through the gas output end. Clothing holder.

In the preferred technical solution of the above-mentioned laundry treatment equipment, the micro-channel plasma generator includes a housing, a positive electrode and a negative electrode are provided in the housing, and a micro-channel is provided between the positive electrode and the negative electrode; the gas The output end and the gas input end are both located on the housing.

In the preferred technical solution of the above-mentioned laundry treatment equipment, the diameter of the micro-channel is 0.01 mm to 1 mm; and/or,

The ratio of the length of the microchannel to the diameter of the microchannel is 10:1˜1:1.

In the preferred technical solution of the above-mentioned laundry treatment equipment, the gas driving part is a fan or an air pump; and/or,

The gas driving part is provided at the gas input end.

In a preferred technical solution of the above-mentioned laundry treatment equipment, the gas input end is also communicated with the laundry accommodating portion through a second gas channel.

In a preferred technical solution of the above-mentioned laundry treatment equipment, the second gas channel is further provided with a lint filter.

In the preferred technical solution of the above-mentioned laundry treatment equipment, the first gas channel is further provided with a valve; and/or,

The clothes accommodating part is also provided with an exhaust port.

In the preferred technical solution of the above-mentioned clothes treatment equipment, the clothes treatment equipment is a pulsator washing machine, a clothes dryer or a clothes care machine; or,

The micro-channel plasma generator is provided between the device housing and the clothing receiving portion; or,

An ozone elimination part is also provided between the gas output end and the clothes accommodating part.

In a preferred technical solution of the above-mentioned clothes treatment equipment, the clothes treatment equipment is a drum washing machine, and the clothes accommodating part is a drum.

In the preferred technical solution of the above-mentioned laundry treatment equipment, the drum includes an outer cylinder and an inner cylinder, and the first gas channel is connected with the outer cylinder; or,

The laundry treatment equipment is also provided with a window pad, the window pad is connected to the drum, and the first gas channel is connected to the window pad.

The technical solution of the present invention provides a clothes treatment equipment. The clothes treatment equipment includes an equipment casing, a micro-channel plasma generator, a gas driving part and a clothes accommodating part. The clothes accommodating part is located inside the equipment casing;

The micro-channel plasma generator is provided with a gas input end and a gas output end, and the gas output end is connected with the clothing accommodating part through the first gas channel;

The gas driving part is configured to drive the gas into the micro-channel plasma generator through the gas input end. The gas is processed in the micro-channel plasma generator and then enters the clothing accommodating part through the gas output end.

The laundry treatment equipment of the present invention can sterilize the gas flowing into the micro-channel plasma generator, thereby eliminating bacteria in the laundry treatment equipment and the odor generated thereby.

In a second aspect, the present invention provides a washing equipment. The washing equipment includes an equipment housing, a micro-channel plasma generator and a clothing receiving part, and the clothing holding part is provided inside the equipment housing;

The micro-channel plasma generator is provided with a liquid input end and a liquid output end, and the liquid output end is connected to the clothing containing portion through a first liquid channel;

The liquid entering the micro-channel plasma generator from the liquid input end is processed and then enters the clothing containing portion through the liquid output end.

In the preferred technical solution of the above-mentioned washing equipment, the micro-channel plasma generator includes a housing, a positive electrode and a negative electrode are provided in the housing, and a micro-channel is provided between the positive electrode and the negative electrode; the liquid output The liquid input end and the liquid input end are both located on the housing.

In the preferred technical solution of the above-mentioned washing equipment, the diameter of the micro-channel is 0.01 mm ~ 1 mm; and/or,

The ratio of the length of the microchannel to the diameter of the microchannel is 10:1˜1:1.

In the preferred technical solution of the above-mentioned washing equipment, the micro-channel plasma generator is provided between the equipment housing and the clothes accommodating part; and/or,

An ozone elimination part is also provided between the liquid output end and the clothes accommodating part.

In a preferred technical solution of the above washing equipment, the washing equipment is a drum washing machine, and the clothes accommodating part is a drum.

In the preferred technical solution of the above washing equipment, the drum includes an outer drum and an inner drum, and the first liquid channel is connected to the outer drum; or,

The washing equipment is also provided with a window pad, the window pad is connected to the drum, and the first liquid channel is connected to the window pad.

In the preferred technical solution of the above washing equipment, the first liquid channel is also provided with a control valve; and/or,

The micro-channel plasma generator is also provided with a gas input end, and the gas input end is also provided with a gas valve.

In the preferred technical solution of the above-mentioned washing equipment, a liquid inlet valve is provided at the liquid input end; and/or,

The liquid input end is connected to an external water source through a second liquid channel.

In the preferred technical solution of the above-mentioned washing equipment, the liquid input end is connected with the clothes containing part through a third liquid channel, and the third liquid channel is further provided with a liquid-driven pump.

In a preferred technical solution of the above washing equipment, the third liquid channel is further provided with a lint filter.

The technical solution of the present invention provides a washing equipment. The washing equipment includes an equipment casing, a micro-channel plasma generator and a clothes accommodating part. The clothes accommodating part is located inside the equipment casing;

The micro-channel plasma generator is provided with a liquid input end and a liquid output end, and the liquid output end is connected with the clothing containing part through the first liquid channel;

The liquid that enters the micro-channel plasma generator from the liquid input end is processed and then enters the clothing accommodating part through the liquid output end.

The washing equipment of the present invention can sterilize the liquid introduced into the micro-channel plasma generator. When the liquid input end of the micro-channel plasma generator is directly connected to the external water source, it can avoid the input of contaminated liquid from outside the washing equipment into the washing equipment, causing contamination of clothes and washing equipment, and avoid the breeding of bacteria in the washing equipment and the resulting The odor generated by this; when the liquid input end of the micro-channel plasma generator is also connected to the clothes accommodating part, the liquid in the clothes accommodating part can be cyclically sterilized, and the contamination of clothes and washing equipment can also be avoided, and washing can be eliminated. Bacteria in the equipment and the resulting odor.

In a third aspect, the present invention provides a washing device, which includes a device housing, a photooxidant generator, and a clothing storage portion, and the clothing storage portion is provided inside the device housing;

The photooxidant generator is provided with a liquid input end and a liquid output end, and the liquid output end is connected to the clothing containing portion through a first liquid channel;

The liquid entering the photooxidant generator from the liquid input end is processed and then enters the clothes containing portion through the liquid output end.

In the preferred technical solution of the above-mentioned washing device, the photooxidant generator includes a housing and an ultraviolet lamp portion located inside the housing; both the liquid output end and the liquid input end are located in the housing. .

In the preferred technical solution of the above-mentioned washing device, the ultraviolet lamp part includes an ultraviolet lamp tube, a ballast connected to the ultraviolet lamp tube, and a protective tube set on the outside of the ultraviolet lamp tube; or,

The ultraviolet lamp part includes an ultraviolet lamp tube and a ballast connected to the ultraviolet lamp tube; or,

The ultraviolet lamp part is detachably connected to the housing; or,

The ultraviolet lamp part is sealedly connected to the housing.

In the preferred technical solution of the above-mentioned washing device, a liquid inlet valve is provided at the liquid input end; or,

The liquid input end is connected to the external water source through the second liquid channel; or,

The photooxidant generator is also provided with a gas input end, and the gas input end is also provided with a gas valve; or,

The angle between the liquid input end and the liquid output end is α, 30 degrees ≤ α ≤ 150 degrees; or,

The angle between the liquid input end and the liquid output end is α, 60 degrees ≤ α ≤ 120 degrees; or,

The liquid input end and the liquid output end are vertical; or,

The photooxidant generator is provided between the device housing and the clothing containing portion; or,

The drain end of the clothes accommodating part is provided with a micro-channel plasma generator. The micro-channel plasma generator includes an ion generating shell. A positive electrode and a negative electrode are provided in the ion generating shell. Between the positive electrode and the negative electrode, There are micro-channels therebetween, the input end of the ion-generating shell is connected to the drain end of the clothes accommodating part, and the output end of the ion-generating shell is connected to the outside.

In a preferred technical solution of the above-mentioned washing device, the liquid input end is connected to the clothes accommodating part through a third liquid channel, and the third liquid channel is further provided with a liquid-driven pump.

In the preferred technical solution of the above-mentioned washing device, the third liquid channel is also provided with a lint filter; and/or,

The liquid output end is also connected to the outside through a fourth liquid channel. The fourth liquid channel is provided with a fourth valve; the first liquid channel is provided with a first valve.

In a preferred technical solution of the above washing device, the washing device is a drum washing machine, and the clothes accommodating part is a drum.

In the preferred technical solution of the above washing device, the drum includes an outer drum and an inner drum, and the first liquid channel is connected to the outer drum; or,

The washing device is also provided with a window pad, the window pad is connected to the drum, and the first liquid channel is connected to the window pad.

In a preferred technical solution of the above-mentioned washing device, an oxidizing agent elimination part is further provided between the liquid output end and the clothes accommodating part.

In the preferred technical solution of the above washing device, the first liquid channel includes a first pipeline and a second pipeline, and each of the first pipeline and the second pipeline has one end connected to the liquid output end. And the other end is connected to the clothes accommodating part, the first pipeline and the second pipeline are respectively provided with control valves, and the oxidant elimination part is provided in the first pipeline or the second pipeline. road.

The technical solution of the present invention provides a washing device, which includes a device shell, a photooxidant generator and a clothes accommodating part, and the clothes accommodating part is located inside the device shell;

The photooxidant generator is provided with a liquid input end and a liquid output end, and the liquid output end is connected to the clothing accommodating part through the first liquid channel;

The liquid that enters the photooxidizer generator from the liquid input end is processed and then enters the clothing accommodating part through the liquid output end.

The washing device of the present invention can sterilize the liquid flowing into the photooxidant generator. When the liquid input end of the photooxidant generator is directly connected to the external water source, it can avoid the new input of contaminated liquid from outside the washing device into the washing device and cause contamination of the clothes and the washing device, thereby eliminating bacteria in the washing device, etc. The resulting odor; when the liquid input end of the photooxidant generator is also connected to the clothes accommodating part, the liquid in the clothes accommodating part can be cyclically sterilized, and the contamination of clothes and washing devices can also be avoided, and washing can be eliminated. Bacteria in the device and the resulting odor. And on this basis, the liquid treated by the photooxidant generator contains oxidant, which can be passed into the clothes receiving part for sterilization.

Description of drawings

The laundry treatment equipment, washing equipment and washing device of the present invention will be described below with reference to the accompanying drawings. In the attached picture:

Figure 1 is a schematic structural diagram of the laundry treatment equipment according to Embodiment 1 of the present invention;

Figure 2 is a schematic structural diagram of the micro-channel plasma generator of the laundry treatment equipment according to Embodiment 1 of the present invention.

Figure 3 is a structural diagram of the washing equipment according to Embodiment 2 of the present invention;

Figure 4 is a schematic structural diagram of the micro-channel plasma generator of the washing equipment according to Embodiment 2 of the present invention.

Figure 5 is a schematic structural diagram of the washing device according to Embodiment 3 of the present invention;

Figure 6A is a front view of the photooxidant generator of the washing device according to Embodiment 3 of the present invention;

Figure 6B is a bottom view of Figure 6A;

Figure 6C is a schematic cross-sectional structural diagram at B-B in Figure 6B;

Figure 6D is a schematic structural diagram of the ultraviolet lamp tube of Figure 6A installed in front of the housing;

Figure 7 is a schematic structural diagram of another embodiment of Figure 5;

Figure 8 is a schematic structural diagram of another embodiment of Figure 5;

FIG. 9 is a schematic structural diagram of the micro-channel plasma generator of FIG. 8 .

List of reference signs:

Example 1:
1-Equipment enclosure,
2-Micro channel plasma generator, 21-gas input end, 22-gas output end, 23-casing, 24-negative electrode, 25-
Positive pole, 26-micro channel,
3-gas driving part, 4-clothes receiving part, 41-outer cylinder, 42-inner cylinder, 5-first gas channel, 6-second gas channel, 7-lint filter, 8-valve, 9-window pad.

Example 2:
1-equipment shell, 2-micro channel plasma generator, 21-liquid input end, 22-liquid output end, 23-shell,
24-negative electrode, 25-positive electrode, 26-micro channel, 3-liquid inlet valve, 4-clothing accommodating part, 41-outer cylinder, 42-inner cylinder, 5-first liquid channel, 6-second liquid channel, 7 -Window mats.

Example 3:
1-Device housing,
2-Photooxidizer generator, 21-casing, 211-threaded part of the casing, 22-UV lamp, 23-base, 231-threaded part of the base, 232-connecting plate, 233-tank body, 234-seal parts, 24-protection tube, 25-liquid input end, 26-liquid output end,
3-Liquid inlet valve, 4-Clothing accommodating part, 41-Outer cylinder, 42-Inner cylinder, 5-First liquid channel, 6-Second liquid channel,
7-window pad, 8-micro channel plasma generator, 81-ion generating shell, 82-negative electrode, 83-positive electrode, 84-micro channel, 9-third liquid channel, 10-liquid driven pump.

Detailed ways

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. Those skilled in the art should understand that these embodiments are only used to explain the technical principles of the present invention and are not intended to limit the scope of the present invention. Those skilled in the art can make adjustments as needed to adapt to specific application situations.

For example, although Embodiment 1 in the specification is described by taking the valve as a one-way valve and one-way flow from the gas output end to the clothes accommodating part, the present invention can obviously use other similar means, such as the valve being an electric ball valve. Or a solenoid valve, etc., as long as the valve can prevent objects such as liquid or foam in the clothing accommodating part from entering the micro-channel plasma generator from the first gas channel.

It should be noted that in the description of the present invention, terms such as "inner" and "outer" indicate the direction or positional relationship based on the direction or positional relationship shown in the drawings. This is only for convenience of description, not Any indication or implication that a device or element must be oriented, constructed, and operate in a particular orientation is not to be construed as a limitation of the invention.

Furthermore, the terms "first,""second," etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In addition, it should be noted that in the description of the present invention, unless otherwise clearly stated and limited, the terms "installed", "connected", "connected", "provided with", etc. should be understood in a broad sense. For example, it can be It can be a fixed connection, a detachable connection, or an integrated connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium, etc. For those skilled in the art, the specific meanings of the above terms in the present invention can be understood according to specific circumstances.

Example 1:

In order to solve the problem in the prior art that bacteria and the like are easy to breed inside the clothes treatment equipment, causing the clothes to be contaminated during the treatment process and produce odor, and even endanger human health, the present invention provides a clothes treatment equipment. Next, the invention provides a clothes treatment equipment. , taking the clothes processing equipment as a drum washing machine as an example for explanation.

As shown in Figure 1-2, the clothes treatment equipment includes an equipment housing 1, a micro-channel plasma generator 2, a gas driving part 3, a clothes accommodating part 4 and a window gasket 9. The clothes accommodating part 4 is a drum, and the window pad 9 is connected to the drum. The drum includes an outer cylinder 41 and an inner cylinder 42 , and the clothes accommodating part 4 is provided inside the equipment housing 1 . The gas driving part 3 is a fan, and the gas driving part 3 is provided at the gas input end 21 . The gas input end 21 is also communicated with the clothes accommodating part 4 through the second gas channel 6, specifically, is connected with the end of the clothes accommodating part 4 away from the clothes putting surface and close to the bottom of the device housing 1. The second gas channel 6 is also provided with a lint filter 7 . The micro-channel plasma generator 2 is provided with a gas input end 21 and a gas output end 22. The gas output end 22 is connected to the outer cylinder 41 of the clothes accommodating part 4 through the first gas channel 5. The first gas channel 5 is also provided with a valve 8 , which may be a one-way valve to prevent foam and the like in the clothing accommodating part 4 from entering the micro-channel plasma generator 2 .

The micro-channel plasma generator 2 includes a shell 23, a positive electrode 25 and a negative electrode 24 are provided in the shell 23, and a micro-channel 26 is provided between the positive electrode 25 and the negative electrode 24; the gas output end 22 and the gas input end 21 are both located in the shell. Body 23. The diameter of the micro channel 26 is 0.01 mm ~ 1 mm; the ratio of the length of the micro channel 26 to the diameter of the micro channel 26 is 10:1 ~ 1:1.

The micro-channel plasma generator 2 is disposed between the device housing 1 and the clothes accommodating part 4. Specifically, the micro-channel plasma generator 2 can be disposed on the top of the clothes accommodating part 4. When the micro-channel plasma generator 2 is working, a voltage is applied to the micro-channel plasma generator 2, so that part of the gas (air or oxygen) introduced into the micro-channel plasma generator 2 generates ozone, and other gases are eliminated. disinfect.

Since the gas introduced into the micro-channel plasma generator 2 is also part of the raw material for generating ozone to a certain extent, and the diameter of the micro-channel 26 is extremely small, the generated ozone can be eliminated after the gas is sterilized. It is consumed quickly, so it can effectively prevent ozone from leaving the micro-channel plasma generator 2, and will not enter the clothes accommodating part 4 and cause pollution.

The gas driving part 3 is configured to drive gas into the micro-channel plasma generator 2 through the gas input end 21. After the gas is processed in the micro-channel plasma generator 2, it enters the clothes accommodating part 4 through the gas output end 22, and finally passes through the second Gas channel 6 returns to microchannel plasma generator 2.

It should be noted that the above-mentioned embodiments are only used to illustrate the principles of the present invention and are not used to limit the scope of the present invention. Without departing from the principles of the present invention, those skilled in the art can adjust the above-mentioned structures so as to facilitate the present invention. The invention can be applied to more specific application scenarios, which do not deviate from the principle of the invention, and therefore will fall within the protection scope of the invention.

For example, in an alternative embodiment, the valve 8 described in the above embodiment before the replacement can also be a one-way valve, and the gas output end 22 can flow in one direction into the clothes accommodating part 4, The valve 8 is replaced by an electric ball valve (not shown in the figure) or a solenoid valve (not shown in the figure) or the like.

As long as the valve 8 can prevent objects such as liquid or foam in the clothes accommodating part 4 from entering the micro-channel plasma generator 2 from the first gas channel 5 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative implementation, the above mentioned implementation before replacement may also be described as The first gas channel 5 is also provided with a valve 8. Alternatively, the first gas channel 5 is not provided with a valve 8 (not shown in the figure). This setting is suitable for clothing treatment equipment that produces less or no foam, such as clothing care machines, dryers, etc.

It is also possible to achieve the effect of driving gas into the micro-channel plasma generator 2 through the gas input end 21, and then entering the clothing accommodating part 4 through the gas output end 22 after the gas is processed in the micro-channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the gas driving part 3 described in the above embodiment before the replacement can also be replaced by a fan, and the gas driving part 3 can be replaced by an air pump (not shown in the figure) , the air pump can also achieve the effect of driving gas into the micro-channel plasma generator 2 through the gas input end 21. The gas is processed in the micro-channel plasma generator 2 and then enters the clothing accommodating part 4 through the gas output end 22. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the gas driving part 3 described in the above embodiment before the replacement may be provided at the gas input end 21 instead of the gas driving part 3 being provided at the second Gas channel 6 (not shown in the figure). Such an arrangement can also achieve the effect of driving gas into the micro-channel plasma generator 2 through the gas input end 21 , and then entering the clothes accommodating part 4 through the gas output end 22 after the gas is processed in the micro-channel plasma generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the gas input end 21 described in the above embodiment before the replacement can also be connected through the second gas channel 6 and an end of the clothes accommodating part 4 away from the clothes putting surface. The position close to the bottom of the device housing 1 is connected, instead the gas input end 21 is connected to a position on the side of the clothes accommodating part 4 through the second gas channel 6 . Such an arrangement can also drive gas into the micro-channel plasma generator 2 through the gas input end 21. After the gas is processed in the micro-channel plasma generator 2, it enters the clothing accommodating part 4 through the gas output end 22, and then the gas returns to the clothes accommodating part 4. Circulation effect of micro channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the micro-channel plasma generator 2 described in the above-mentioned embodiment before the replacement can also be disposed between the device housing 1 and the clothing accommodating part 4. The micro-channel plasma generator The generator 2 can be disposed on the top of the clothes accommodating part 4, instead the micro-channel plasma generator 2 is disposed between the device housing 1 and the clothes accommodating part 4, and the micro-channel plasma generator 2 is disposed on the side of the clothes accommodating part 4 ( not shown in the figure). Such an arrangement can also drive gas into the micro-channel plasma generator 2 through the gas input end 21. After the gas is processed in the micro-channel plasma generator 2, it enters the clothing accommodating part 4 through the gas output end 22, and then the gas returns to the clothes accommodating part 4. Circulation effect of micro channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the micro-channel plasma generator 2 described in the above-mentioned embodiment before the replacement can also be disposed between the device housing 1 and the clothing accommodating part 4. The micro-channel plasma generator 2 The generator 2 can be disposed on the top of the clothing accommodating part 4 , instead the micro-channel plasma generator 2 is disposed outside the device housing 1 or embedded in the device housing 1 . Such an arrangement can also drive gas into the micro-channel plasma generator 2 through the gas input end 21. After the gas is processed in the micro-channel plasma generator 2, it enters the clothing accommodating part 4 through the gas output end 22, and then the gas returns to the clothes accommodating part 4. Circulation effect of micro channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the micro-channel plasma generator 2 described in the above-mentioned embodiment before the replacement can also be disposed between the device housing 1 and the clothing accommodating part 4. The micro-channel plasma generator 2 The generator 2 can be disposed on the top of the clothing accommodating part 4, instead the micro-channel plasma generator 2 is disposed on the inner side wall or the inner top of the device housing 1 (not shown in the figure). Such an arrangement can also drive gas into the micro-channel plasma generator 2 through the gas input end 21. After the gas is processed in the micro-channel plasma generator 2, it enters the clothing accommodating part 4 through the gas output end 22, and then the gas returns to the clothes accommodating part 4. Circulation effect of micro channel plasma generator 2 fruit. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the micro-channel plasma generator 2 described in the above-mentioned embodiment before the replacement can also be disposed between the device housing 1 and the clothing accommodating part 4. The micro-channel plasma generator 2 The generator 2 can be disposed on the top of the clothes accommodating part 4, instead the micro-channel plasma generator 2 is disposed on the outer wall of the clothes accommodating part 4 (not shown in the figure). Such an arrangement can also drive gas into the micro-channel plasma generator 2 through the gas input end 21. After the gas is processed in the micro-channel plasma generator 2, it enters the clothing accommodating part 4 through the gas output end 22, and then the gas returns to the clothes accommodating part 4. Circulation effect of micro channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, a control valve (in the figure) can also be provided in the second gas channel 6 not shown). These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the second gas channel 6 described in the above embodiment before the replacement can also be provided with a lint filter 7, instead of the second gas channel 6 not being provided with it. Lint filter7. Such an arrangement is suitable for clothes that are less likely to produce lint, and can also drive gas into the micro-channel plasma generator 2 through the gas input end 21. The gas is processed in the micro-channel plasma generator 2 and then enters through the gas output end 22. Clothes accommodating part 4, and then the gas returns to the circulation effect of the micro-channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the gas input end 21 described in the above embodiment before the replacement can also be connected to the clothes accommodating portion 4 through the second gas channel 6, instead of being provided. Instead, the second gas channel 6 (not shown in the figure) is provided with an exhaust port (not shown in the figure) in the clothing accommodating part 4, and a controlled valve is provided at the exhaust port. Such an arrangement can also drive gas into the micro-channel plasma generator 2 through the gas input end 21. After the gas is processed in the micro-channel plasma generator 2, it enters the clothing accommodating part 4 through the gas output end 22, and then the gas returns to the clothes accommodating part 4. Circulation effect of micro channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, a further arrangement may be provided between the gas output end 22 and the clothes accommodating part 4. There is an ozone elimination part (not shown in the figure), and the ozone elimination part can be provided at the gas output end 22 or at the first gas channel 5 .

The structure of the ozone elimination part may be a mesh shell provided with activated carbon, etc. Providing an ozone elimination part can effectively prevent a small amount of ozone from entering the clothes accommodating part 4 and causing pollution. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the gas output end 22 described in the above embodiment before the replacement can also be directly connected to the outer cylinder 41 of the clothes accommodating part 4 through the first gas channel 5, Instead, the first gas channel 5 communicates with the window pad 9 (not shown in the figure), thereby achieving the effect of indirectly communicating with the outer cylinder 41 of the clothes accommodating part 4 . It is also possible to achieve the effect of driving gas into the micro-channel plasma generator 2 through the gas input end 21, and then entering the clothing accommodating part 4 through the gas output end 22 after the gas is processed in the micro-channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the clothes treatment equipment described in the above embodiment before the replacement can be a drum washing machine, and the clothes treatment equipment can be replaced by a pulsator washing machine, a clothes dryer or a clothes dryer. Nursing machine, etc. (not shown in the figure).

Of course, in order to match different types of clothing processing equipment, it is obvious to make adaptive adjustments to the structure of the previous embodiment. For example, clothing processing equipment such as pulsator washing machines and dryers usually do not need to be provided with window pads 9 (not shown in the figure). These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

In summary, the laundry treatment equipment of the present invention can treat the gas introduced into the micro-channel plasma generator 2 Carry out sterilization treatment to eliminate bacteria, etc. in the laundry treatment equipment and the resulting odors.

The present invention can effectively prevent ozone generated in the micro-channel plasma generator 2 from entering the clothes accommodating part 4, and on this basis, the plasma also generated in the micro-channel plasma generator 2 can be passed into the clothes accommodating part. Within 4 for good results.

The invention can be applied to a variety of clothing treatment equipment such as drum washing machines, pulsator washing machines, clothes dryers and clothing care machines.

Example 2:

In order to solve the problem in the prior art that the above-mentioned washing machine is easy to breed various bacteria inside the washing machine after long-term use, causing the clothes to be contaminated and even produce odor during the washing process, and even endanger human health, the present invention provides A kind of washing equipment. Next, the present invention will be explained by taking the washing equipment as a drum washing machine as an example. As shown in Figure 3-4, the washing equipment includes an equipment shell 1, a micro-channel plasma generator 2, a liquid inlet valve 3, and a clothing container. Part 4 and window gasket 7. The clothes accommodating part 4 is a drum, and the window pad 7 is connected to the drum. The drum includes an outer cylinder 41 and an inner cylinder 42 , and the clothes accommodating part 4 is provided inside the equipment housing 1 . The micro-channel plasma generator 2 is provided with a liquid input end 21 and a liquid output end 22. The liquid output end 22 is connected to the outer cylinder 41 of the clothing containing part 4 through the first liquid channel 5; entering the micro-channel plasma generator from the liquid input end 21 The liquid in the container 2 is processed and then enters the clothes accommodating part 4 through the liquid output end 22 . The liquid input end 21 is also connected to the external water source through the second liquid channel 6, and the liquid inlet valve 3 is provided in the second liquid channel 6.

A control valve (not shown in the figure) may also be provided in the first liquid channel 5. The control valve may be a one-way valve and allow liquid to flow from the liquid output end 22 to the clothes accommodating part 4 in one direction to prevent the clothes accommodating part from being blocked. The foam etc. in 4 enter the micro channel plasma generator 2 .

The micro-channel plasma generator 2 includes a shell 23, a positive electrode 25 and a negative electrode 24 are provided in the shell 23, and a micro-channel 26 is provided between the positive electrode 25 and the negative electrode 24; the liquid output end 22 and the liquid input end 21 are both located in the case. Body 23. The diameter of the micro channel 26 is 0.01 mm ~ 1 mm; the ratio of the length of the micro channel 26 to the diameter of the micro channel 26 is 10:1 ~ 1:1. The micro-channel plasma generator 2 is disposed between the device housing 1 and the clothes accommodating part 4. Specifically, the micro-channel plasma generator 2 can be disposed on the top of the clothes accommodating part 4. When the micro-channel plasma generator 2 is working, a voltage is applied to the micro-channel plasma generator 2, so that part of a small amount of gas (air or oxygen) mixed in the liquid introduced into the micro-channel plasma generator 2 generates ozone, which is Other liquids are sterilized. Since the liquid and its mixed gases introduced into the micro-channel plasma generator 2 are also part of the raw materials for generating ozone to a certain extent, and the diameter of the micro-channel 26 is extremely small, the generated ozone can be used to treat the liquid. It is quickly consumed after the sterilization process, so it can effectively prevent ozone from leaving the micro-channel plasma generator 2, and will not enter the clothes accommodating part 4 and cause pollution.

It should be noted that the above-mentioned embodiments are only used to illustrate the principles of the present invention and are not used to limit the scope of the present invention. Without departing from the principles of the present invention, those skilled in the art can adjust the above-mentioned structures so as to facilitate the present invention. The invention can be applied to more specific application scenarios, which do not deviate from the principle of the invention, and therefore will fall within the protection scope of the invention.

For example, in an alternative embodiment, the control valve described in the above embodiment before the replacement can also be a one-way valve, and allow the liquid to flow from the liquid output end 22 to the clothing accommodating part 4 in one direction. , the control valve can be replaced by an electric ball valve (not shown in the figure) or a solenoid valve (not shown in the figure), etc., as long as the control valve can prevent objects such as liquid or foam in the clothing accommodating part 4 from passing through the first liquid channel. 5. Just enter the micro-channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the first liquid channel 5 described in the above embodiment before the replacement may also be provided with a control valve, instead of the first liquid channel 5 not being provided with a control valve. (not shown in the figure). This setting method is suitable for washing equipment that uses a washing method that produces less foam, such as washing equipment that uses low-foaming laundry detergent. It can also be achieved that the liquid enters the micro-channel plasma generator 2 through the liquid input end 21, and the liquid After being processed in the micro-channel plasma generator 2, it enters the clothes receiving part 4 through the liquid output end 22 for effect. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, a pump body (not shown in the figure) can be provided in the second liquid channel 6 ), the structure of this embodiment can be applied to the case of an external water source. Water in a water container such as a bucket enters the micro-channel plasma generator 2 through the liquid input end 21, and the liquid is processed in the micro-channel plasma generator 2. Then, it enters the clothes accommodating part 4 through the liquid output end 22 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid inlet valve 3 described in the above embodiment before the replacement can also be provided in the second liquid channel 6, instead of the liquid inlet valve 3 being provided in the liquid channel. Input terminal 21 (not shown in the figure). Such an arrangement can also achieve the effect that liquid enters the micro-channel plasma generator 2 through the liquid input end 21, and then enters the clothing accommodating part 4 through the liquid output end 22 after being processed in the micro-channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid input end 21 described in the above embodiment before the replacement can also be connected to the external water source through the second liquid channel 6, and the liquid inlet valve 3 is provided at The second liquid channel 6 is replaced by the liquid input end 21 communicating with the clothing containing portion 4 through a third liquid channel (not shown in the figure), and the liquid inlet valve 3 is provided in the third liquid channel (not shown in the figure). The three liquid channels are also provided with a liquid driven pump (not shown in the figure). Specifically, the third liquid channel is connected to the end of the clothes accommodating portion 4 away from the clothes putting surface and a position close to the bottom of the device housing 1 . The structure of this embodiment achieves the goal of driving the liquid to enter the micro-channel plasma generator 2 through the liquid input end 21. After the liquid is processed in the micro-channel plasma generator 2, it enters the clothing accommodating part 4 through the liquid output end 22, and then the liquid returns to the clothes accommodating part 4. To the circulation effect of Micro Channel Plasma Generator 2. It can effectively sterilize the interior of washing equipment and clothes. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid input end 21 described in the previous embodiment can also be connected through the third liquid channel and the end of the clothes accommodating portion 4 away from the clothes putting surface close to the device housing 1 Instead, the liquid input end 21 communicates with the side of the clothing accommodating portion 4 through the third liquid channel (not shown in the figure). Such an arrangement can also drive liquid into the micro-channel plasma generator 2 through the liquid input end 21. After the liquid is processed in the micro-channel plasma generator 2, it enters the clothing accommodating part 4 through the liquid output end 22, and then the liquid returns to the clothes accommodating part 4. Circulation effect of micro channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid input end 21 described in the above embodiment before the replacement can also be connected to the external water source through the second liquid channel 6, and the liquid inlet valve 3 is provided at On the basis of the second liquid channel 6, further, the liquid input end 21 is also connected to the clothes containing part 4 through a third liquid channel (not shown in the figure). The third liquid channel is also provided with a lint filter. The third liquid The channel is also provided with a liquid driven pump (not shown in the figure). Specifically, the third liquid channel is connected to the end of the clothes accommodating portion 4 away from the clothes putting surface and a position close to the bottom of the device housing 1 . The structure of this embodiment can not only inject water from the outside, but also drive liquid into the micro-channel plasma generator 2 through the liquid input end 21. The liquid is processed in the micro-channel plasma generator 2 and then enters the clothing storage through the liquid output end 22. Part 4, and then the liquid returns to the circulation effect of the micro-channel plasma generator 2. It can effectively sterilize the interior of washing equipment and clothes. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the third liquid channel described in the previous embodiment may also be provided with a lint filter, instead of the third liquid channel not being provided with a lint filter. Such an arrangement is suitable for clothes that are less likely to produce lint, and can also allow liquid to enter the micro-channel plasma generator 2 through the liquid input end 21. The liquid is processed in the micro-channel plasma generator 2 and then enters the clothes through the liquid output end 22. Accommodation part 4 Effect. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the micro-channel plasma generator 2 described in the above-mentioned embodiment before the replacement can also be disposed between the device housing 1 and the clothing accommodating part 4. The micro-channel plasma generator 2 The generator 2 can be disposed on the top of the clothes accommodating part 4, instead the micro-channel plasma generator 2 is disposed between the device housing 1 and the clothes accommodating part 4, and the micro-channel plasma generator 2 is disposed on the side of the clothes accommodating part 4 ( not shown in the figure). Such an arrangement can also achieve the effect that liquid enters the micro-channel plasma generator 2 through the liquid input end 21 , and then enters the clothes accommodating part 4 through the liquid output end 22 after being processed in the micro-channel plasma generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the micro-channel plasma generator 2 described in the above-mentioned embodiment before the replacement can also be disposed between the device housing 1 and the clothing accommodating part 4. The micro-channel plasma generator 2 The generator 2 can be disposed on the top of the clothing accommodating part 4 , instead the micro-channel plasma generator 2 is disposed outside the device housing 1 or embedded in the device housing 1 . Such an arrangement can also achieve the effect that liquid enters the micro-channel plasma generator 2 through the liquid input end 21 , and then enters the clothes accommodating part 4 through the liquid output end 22 after being processed in the micro-channel plasma generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, the micro-channel plasma generator 2 is further provided with a gas input end (Fig. (not shown in the figure), and the gas input end is also equipped with a gas valve (not shown in the figure). By arranging the gas input end and the gas valve, when the liquid enters the micro channel plasma generator 2 and the air mixed in the liquid is insufficient, the micro channel plasma generator 2 can be supplemented with air or oxygen through the gas input end. In this embodiment, an air pump is not provided. This is because an external air supply method can be used, such as a high-pressure gas bottle, so the air pump is not necessary. Such an arrangement can also achieve the effect that liquid enters the micro-channel plasma generator 2 through the liquid input end 21 , and then enters the clothes accommodating part 4 through the liquid output end 22 after being processed in the micro-channel plasma generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the previous embodiment, further, a gas pump (not shown in the figure) can be provided at the gas input end (not shown in the figure) ). Such an arrangement can also achieve the effect that liquid enters the micro-channel plasma generator 2 through the liquid input end 21 , and then enters the clothes accommodating part 4 through the liquid output end 22 after being processed in the micro-channel plasma generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, a further arrangement may be provided between the liquid output end 22 and the clothing accommodating part 4 . There is an ozone elimination part (not shown in the figure), and the ozone elimination part may be provided at the liquid output end 22 or at the first liquid channel 5 . The structure of the ozone elimination part may be a mesh shell provided with activated carbon, etc. Providing an ozone elimination part can effectively prevent a small amount of ozone from entering the clothes accommodating part 4 and causing pollution. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid output end 22 described in the above embodiment before the replacement can also be directly connected to the outer tube 41 of the clothes accommodating part 4 through the first liquid channel 5, Instead, the first liquid channel 5 is connected to the window pad 7 (not shown in the figure), thereby achieving the effect of being indirectly connected to the outer tube 41 of the clothes accommodating part 4 . It is also possible to achieve the effect that the liquid enters the micro-channel plasma generator 2 through the liquid input end 21, and then enters the clothes accommodating part 4 through the liquid output end 22 after being processed in the micro-channel plasma generator 2. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the washing equipment described in the above embodiment before the replacement can be a drum washing machine, and the washing equipment can be replaced by a pulsator washing machine, a sock washing machine, etc. (in the figure not shown). Of course, in order to match different types of washing equipment, it is necessary to make adaptive adjustments to the structure of the embodiment before replacement. Obviously, washing equipment such as a pulsator washing machine and a sock washing machine usually do not need to be provided with a window pad 7 (not shown in the figure). These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

To sum up, the washing equipment of the present invention can sterilize the liquid input from the outside into the micro-channel plasma generator 2 to avoid contaminating the washing equipment and clothes. The liquid in the clothes accommodating part 4 can also be circulated through the arrangement of relevant structures, thereby eliminating bacteria in the washing equipment and the odor generated thereby. The present invention can effectively prevent ozone generated in the micro-channel plasma generator 2 from entering the clothes accommodating part 4, and on this basis, the plasma also generated in the micro-channel plasma generator 2 can be passed into the clothes accommodating part. Within 4 for good results. The invention can be applied to various washing equipment such as drum washing machines and pulsator washing machines.

Example 3:

In order to solve the problem in the prior art that the above-mentioned washing machine is easy to breed various bacteria inside the washing machine after long-term use, causing the clothes to be contaminated and even produce odor during the washing process, and even endanger human health, the present invention provides A washing device. Next, the present invention will be described by taking the washing device as a drum washing machine as an example. As shown in Figure 5-6D, the washing device includes a device housing 1, a photooxidant generator 2, and a liquid inlet valve 3 (for example, it can be Solenoid valve), clothing storage part 4 and window gasket 7. The clothes accommodating part 4 is a drum, and the window pad 7 is connected to the drum. The drum includes an outer cylinder 41 and an inner cylinder 42 , and the clothes accommodating part 4 is provided inside the device housing 1 .

The photooxidant generator 2 includes a casing 21 and an ultraviolet lamp unit located inside the casing 21; the ultraviolet lamp unit includes an ultraviolet lamp tube 22, a ballast (not shown in the figure) connected to the ultraviolet lamp tube 22, and a set of The protective tube 24 and the base 23 are located outside the ultraviolet lamp tube 22. The ultraviolet lamp tube 22 and the protective tube 24 are both fixedly connected to the base 23, and the ballast is located in the base 23. The threaded connection between the base threaded portion 231 provided on the base 23 and the housing threaded portion 211 provided on the housing 21 realizes the detachable connection between the ultraviolet lamp unit and the housing 21 (as an alternative method, the ultraviolet lamp unit It can also be fixedly connected to the housing 21, have an integrated structure, or be snap-connected, etc.). The base 23 is also provided with a connecting plate 232, and a groove 233 for accommodating a seal 234 is provided between the connecting plate 232 and the threaded portion 231 of the base, so that a sealed connection can be achieved after the ultraviolet lamp is installed in the housing 21. Among them, the tube shell of the ultraviolet lamp tube 22 is made of quartz material.

The photooxidant generator 2 is provided with a liquid input end 25 and a liquid output end 26. The liquid output end 26 and the liquid input end 25 are both located on the housing 21. The liquid output end 26 communicates with the outer cylinder 41 of the clothes accommodating part 4 through the first liquid channel 5; the liquid entering the photooxidant generator 2 from the liquid input end 25 is processed and then enters the clothes accommodating part 4 through the liquid output end 26. . The liquid input end 25 is also connected to the external water source through the second liquid channel 6, and the liquid inlet valve 3 is provided in the second liquid channel 6. The angle between the liquid input end 25 and the liquid output end 26 is α, which can be 30 degrees ≤ α ≤ 150 degrees, preferably, it can be 60 degrees ≤ α ≤ 120 degrees. In this embodiment, the liquid input end 25 and The liquid output end 26 is vertical, that is, α is 90 degrees.

The photooxidant generator 2 is disposed between the device housing 1 and the clothes accommodating part 4 . Specifically, the photooxidant generator 2 may be disposed on the top of the clothes accommodating part 4 .

A voltage is applied to the photooxidant generator 2 so that the air in the water flowing through the photooxidant generator 2 generates ozone under ultraviolet irradiation; then ozone and water generate hydrogen peroxide under ultraviolet irradiation; the hydrogen peroxide generates hydroxyl groups under ultraviolet irradiation; And ozone, hydrogen peroxide and water can also generate superoxide ions under ultraviolet irradiation.

It should be noted that the above-mentioned embodiments are only used to illustrate the principles of the present invention and are not used to limit the scope of the present invention. Without departing from the principles of the present invention, those skilled in the art can adjust the above-mentioned structures so as to facilitate the present invention. The invention can be applied to more specific application scenarios, which do not deviate from the principle of the invention, and therefore will fall within the protection scope of the invention.

For example, in an alternative embodiment, the liquid inlet valve 3 described in the above embodiment before the replacement can be a solenoid valve, and the liquid inlet valve 3 can be replaced by an electric ball valve (not shown in the figure). )wait. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative implementation, the above mentioned implementation before replacement may also be described as The liquid inlet valve 3 is provided in the second liquid channel 6, instead of being provided with no liquid inlet valve 3 (not shown in the figure). It is also possible to achieve the effect that the liquid enters the photooxidant generator 2 through the liquid input end 25 , and then enters the clothes accommodating part 4 through the liquid output end 26 after being processed in the photooxidant generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the protective tube 24 can also be provided in the housing 21 described in the above embodiment before the replacement, instead of not being provided with the protective tube 24 (not shown in the figure). (shown), the photooxidant generator 2 can also achieve the effect of treating liquids. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, a pump body (not shown in the figure) can be provided in the second liquid channel 6 ), the structure of this embodiment can be applied to the case of an external water source. Water in a water container such as a bucket enters the photooxidant generator 2 through the liquid input end 25. The liquid is processed in the photooxidizer generator 2 and then It enters the clothes receiving part 4 through the liquid output end 26 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid inlet valve 3 described in the above embodiment before the replacement can also be provided in the second liquid channel 6, instead of the liquid inlet valve 3 being provided in the liquid channel. Input terminal 25 (not shown in the figure). Such an arrangement can also achieve the effect that liquid enters the photooxidant generator 2 through the liquid input end 25 , and then enters the clothes accommodating part 4 through the liquid output end 26 after being processed in the photooxidizer generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid input end 25 described in the above embodiment before the replacement can also be connected to the external water source through the second liquid channel 6, and the liquid inlet valve 3 is provided at The second liquid channel 6 is replaced with the following structure. As shown in FIG. 7 , the liquid input end 25 is connected to the clothes receiving part 4 through the third liquid channel 9 . The third liquid channel 9 is also provided with a liquid-driven pump 10 . Specifically, the third liquid channel 9 is connected to the end of the clothes accommodating portion 4 away from the clothes putting surface, close to the bottom of the device housing 1 . The structure of this embodiment achieves the goal of driving the liquid into the photooxidizer generator 2 through the liquid input end 25. After the liquid is processed in the photooxidizer generator 2, it enters the clothing accommodating part 4 through the liquid output end 26, and then the liquid returns to the photooxidizer generator 2. Circulation effect of oxidant generator 2. It can effectively sterilize the inside of the washing device and the clothes. And on this basis, the liquid output end 26 can also be connected to the outside by setting a fourth liquid channel (not shown in the figure), and the fourth liquid channel is provided with a fourth valve (not shown in the figure); the first liquid Channel 5 is provided with a first valve (not shown in the figure). When used to wash clothes that clearly contain germs (or clothes that are likely to contain germs, such as the clothes of hospital staff), etc., in order to prevent the washing wastewater from being directly discharged from polluting the environment, the photooxidant generator 2 can be used to perform sterilization treatment first and then discharge. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid input end 25 described in the previous embodiment can also be connected through the third liquid channel 9 and the end of the clothes accommodating portion 4 away from the clothes discharge surface close to the device shell. The position at the bottom of 1 is connected, and instead the liquid input end 25 is connected to the side position of the clothes accommodating part 4 (equivalent to the lowest surface of the clothes accommodating part 4 in Figure 5) through the third liquid channel 9 (not shown in the figure) out). Such an arrangement can also drive the liquid into the photooxidizer generator 2 through the liquid input end 25. After the liquid is processed in the photooxidizer generator 2, it enters the clothing accommodating part 4 through the liquid output end 26, and then the liquid returns to the photooxidizer. Generator 2 loop effect. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid input end 25 described in the above embodiment before the replacement can also be connected to the external water source through the second liquid channel 6, and the liquid inlet valve 3 is provided at On the basis of the second liquid channel 6, further, the liquid input end 25 is also connected to the clothes containing part 4 through the third liquid channel 9. The third liquid channel 9 is also provided with a lint filter (not shown in the figure). The three liquid channels 9 are also provided with a liquid driven pump 10 (not shown in the figure). Specifically, the third liquid channel 9 is connected to the end of the clothes accommodating portion 4 away from the clothes putting surface, close to the bottom of the device housing 1 . The structure of this embodiment can not only allow water to enter from the outside, but also drive liquid The liquid enters the photooxidizer generator 2 through the liquid input end 25. The liquid is processed in the photooxidizer generator 2 and then enters the clothing accommodating portion 4 through the liquid output end 26. Then the liquid returns to the circulation effect of the photooxidizer generator 2. It can effectively sterilize the inside of the washing device and the clothes. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the third liquid channel 9 described in the previous embodiment may also be provided with a lint filter (not shown in the figure) and be replaced by the third liquid channel 9 No lint filter is set. Such an arrangement is suitable for clothes that are less likely to produce lint, and also enables liquid to enter the photooxidizer generator 2 through the liquid input end 25. After the liquid is processed in the photooxidizer generator 2, it then enters the clothes container through the liquid output end 26. 4 effect. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the photooxidant generator 2 described in the above embodiment before the replacement can also be provided between the device housing 1 and the clothes accommodating part 4. The photooxidant generator 2 2 can be disposed on the top of the clothes accommodating part 4, instead the photooxidant generator 2 is disposed between the device housing 1 and the clothes accommodating part 4, and the photooxidant generator 2 is disposed on the side of the clothes accommodating part 4 (not shown in the figure) out). Such an arrangement can also achieve the effect that liquid enters the photooxidant generator 2 through the liquid input end 25 , and then enters the clothes accommodating part 4 through the liquid output end 26 after being processed in the photooxidizer generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the photooxidant generator 2 described in the above embodiment before the replacement can also be provided between the device housing 1 and the clothes accommodating part 4. The photooxidant generator 2 2 can be disposed on the top of the clothing accommodating part 4 , instead the photooxidant generator 2 is disposed outside the device housing 1 or embedded in the device housing 1 . Such an arrangement can also achieve the effect that liquid enters the photooxidant generator 2 through the liquid input end 25 , and then enters the clothes accommodating part 4 through the liquid output end 26 after being processed in the photooxidizer generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, the photooxidant generator 2 is further provided with a gas input end (in the figure (not shown), the gas input end is also provided with a gas valve (not shown in the figure). By arranging the gas input end and the gas valve, when the liquid enters the photooxidizer generator 2 and the air mixed in the liquid is insufficient, the photooxidizer generator 2 can be supplemented with air or oxygen through the gas input end. In this embodiment, an air pump is not provided. This is because an external air supply method can be used, such as a high-pressure gas bottle, so the air pump is not necessary. Such an arrangement can also achieve the effect that liquid enters the photooxidant generator 2 through the liquid input end 25 , and then enters the clothes accommodating part 4 through the liquid output end 26 after being processed in the photooxidizer generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the previous embodiment, further, a gas pump (not shown in the figure) can be provided at the gas input end (not shown in the figure) ). Such an arrangement can also achieve the effect that liquid enters the photooxidant generator 2 through the liquid input end 25 , and then enters the clothes accommodating part 4 through the liquid output end 26 after being processed in the photooxidizer generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, a further arrangement may be provided between the liquid output end 26 and the clothing accommodating part 4. There is an oxidant elimination part (not shown in the figure). The first liquid channel 5 includes a first pipeline (not shown in the figure) and a second pipeline (not shown in the figure). One end of the first pipeline and the second pipeline is connected to the liquid output end 26 and the other end is connected to the liquid output end 26. One end is connected to the clothes accommodating part 4, the first pipeline and the second pipeline are respectively provided with control valves (not shown in the figure), and the oxidant elimination part is provided in the first pipeline or the second pipeline. The structure of the oxidant elimination part may be a mesh shell provided with activated carbon, or the like. Since clothes made of certain materials are not suitable for sterilization with oxidants, an oxidant elimination part can optionally be provided to prevent ozone and other oxidants from entering the clothes accommodating portion 4 and damaging the clothes. And the water in the photooxidant generator 2 can also be treated by the photooxidant generator 2 Carry out disinfection treatment. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the liquid output end 26 described in the above embodiment before the replacement can also be directly connected to the outer tube 41 of the clothes accommodating part 4 through the first liquid channel 5, Instead, the first liquid channel 5 is connected to the window pad 7 (not shown in the figure), thereby achieving the effect of being indirectly connected to the outer tube 41 of the clothes accommodating part 4 . It is also possible to achieve the effect that the liquid enters the photooxidant generator 2 through the liquid input end 25 , and then enters the clothes accommodating part 4 through the liquid output end 26 after being processed in the photooxidant generator 2 . These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, the washing device described in the above embodiment before the replacement can be a drum washing machine, and the washing device can be replaced by a pulsator washing machine, a sock washing machine, etc. (in the figure not shown). Of course, in order to match different types of washing devices, it is obvious to make adaptive adjustments to the structure of the previous embodiment. For example, washing devices such as pulsator washing machines and sock washing machines usually do not need to be provided with window pads 7 (Fig. not shown). These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

For example, in another alternative embodiment, based on the structure described in the above embodiment before the replacement, further, as shown in FIGS. 8 and 9 , on the clothes accommodating part 4 A micro-channel plasma generator 8 is provided at the liquid discharge end. The micro-channel plasma generator includes an ion generating shell 81. The ion generating shell 81 is provided with a positive electrode 83 and a negative electrode 82. A micro channel 84 is provided between the positive electrode 83 and the negative electrode 82. The input end of the ion generating case 81 is connected to the drain end of the clothes accommodating part 4, and the output end of the ion generating case 81 is connected to the outside. The diameter of the micro channel 84 is 0.01 mm ~ 1 mm; the ratio of the length of the micro channel 84 to the diameter of the micro channel 84 is 10:1 ~ 1:1. When the micro-channel plasma generator 8 is working, a voltage is applied to the micro-channel plasma generator 8, so that a part of a small amount of gas (air or oxygen) mixed in the liquid introduced into the micro-channel plasma generator 8 generates ozone, which generates ozone. Other liquids are sterilized. Since the liquid and its mixed gases introduced into the micro-channel plasma generator 8 are also part of the raw materials for generating ozone to a certain extent, and the diameter of the micro-channel 84 is extremely small, the generated ozone can be used to treat the liquid. It is quickly consumed after the sterilization process, so it can effectively prevent ozone from leaving the micro-channel plasma generator 8, and will not be discharged to the outside to cause pollution. In addition, the micro-channel plasma generator 8 can be provided in other embodiments as well as in this embodiment. These do not deviate from the principle of the present invention, and therefore will fall within the protection scope of the present invention.

To sum up, the washing device of the present invention can sterilize the liquid input from the outside into the photooxidant generator 2 to avoid contaminating the washing device and clothes. The liquid in the clothes accommodating part 4 can also be circulated through the arrangement of relevant structures, thereby eliminating bacteria in the washing device and the odor generated thereby. And on this basis, the liquid treated by the photooxidant generator contains oxidant, which can be passed into the clothes receiving part for sterilization. The invention can be applied to various washing devices such as drum washing machines and pulsator washing machines.

Of course, the above-mentioned alternative implementations, as well as the alternative implementations and the preferred implementations, can also be used in cross-combination, so as to combine new implementations to suit more specific application scenarios.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings. However, those skilled in the art can easily understand that the protection scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principles of the present invention, those skilled in the art can make equivalent changes or substitutions to relevant technical features, and technical solutions after these modifications or substitutions will fall within the protection scope of the present invention.

Claims (30)

1. A kind of clothes treatment equipment, characterized in that the clothes treatment equipment includes an equipment housing, a micro-channel plasma generator, a gas driving part and a clothing accommodation part, and the clothing accommodation part is provided inside the equipment housing;

   The micro-channel plasma generator is provided with a gas input end and a gas output end, and the gas output end is connected to the clothing containing portion through a first gas channel;

   The gas driving part is configured to drive gas into the micro-channel plasma generator through the gas input end. After the gas is processed in the micro-channel plasma generator, the gas enters the clothing container through the gas output end. department.
2. The laundry treatment equipment according to claim 1, wherein the micro-channel plasma generator includes a housing, a positive electrode and a negative electrode are provided in the housing, and a micro-channel is provided between the positive electrode and the negative electrode. ; The gas output end and the gas input end are both located on the housing.
3. The laundry treatment equipment according to claim 2, characterized in that the diameter of the micro-channel is 0.01 mm ~ 1 mm; and/or,

   The ratio of the length of the microchannel to the diameter of the microchannel is 10:1˜1:1.
4. The laundry treatment equipment according to claim 1, characterized in that the gas driving part is a fan or an air pump; and/or,

   The gas driving part is provided at the gas input end.
5. The laundry treatment device according to claim 1, wherein the gas input end is also communicated with the laundry accommodating portion through a second gas channel.
6. The laundry treatment device according to claim 5, wherein the second gas channel is further provided with a lint filter.
7. The laundry treatment equipment according to claim 1, wherein the first gas channel is further provided with a valve; and/or,

   The clothes accommodating part is also provided with an exhaust port.
8. The clothes treatment equipment according to claim 1, characterized in that, the clothes treatment equipment is a pulsator washing machine, a clothes dryer or a clothes care machine; or,

   The micro-channel plasma generator is provided between the device housing and the clothing receiving portion; or,

   An ozone elimination part is also provided between the gas output end and the clothes accommodating part.
9. The clothes treatment equipment according to claim 1, characterized in that the clothes treatment equipment is a drum washing machine, and the clothes accommodating part is a drum.
10. The laundry treatment equipment according to claim 9, wherein the drum includes an outer cylinder and an inner cylinder, and the first gas channel is in communication with the outer cylinder; or,

    The laundry treatment equipment is also provided with a window pad, the window pad is connected to the drum, and the first gas channel is connected to the window pad.
11. A kind of washing equipment, characterized in that the washing equipment includes an equipment shell, a micro-channel plasma generator A container and a clothing storage portion, the clothing storage portion is provided inside the device casing;

    The micro-channel plasma generator is provided with a liquid input end and a liquid output end, and the liquid output end is connected to the clothing containing portion through a first liquid channel;

    The liquid entering the micro-channel plasma generator from the liquid input end is processed and then enters the clothing containing portion through the liquid output end.
12. The washing equipment according to claim 11, wherein the micro-channel plasma generator includes a housing, a positive electrode and a negative electrode are provided in the housing, and a micro-channel is provided between the positive electrode and the negative electrode; The liquid output end and the liquid input end are both located on the housing.
13. The washing equipment according to claim 12, characterized in that the diameter of the micro-channel is 0.01mm～1mm; and/or,

    The ratio of the length of the microchannel to the diameter of the microchannel is 10:1˜1:1.
14. The washing equipment according to claim 11, characterized in that the micro-channel plasma generator is provided between the equipment housing and the clothes receiving portion; and/or,

    An ozone elimination part is also provided between the liquid output end and the clothes accommodating part.
15. The washing equipment according to claim 11, characterized in that the washing equipment is a drum washing machine, and the clothes accommodating part is a drum.
16. The washing equipment according to claim 15, wherein the drum includes an outer drum and an inner drum, and the first liquid channel is connected to the outer drum; or,

    The washing equipment is also provided with a window pad, the window pad is connected to the drum, and the first liquid channel is connected to the window pad.
17. The washing equipment according to claim 11, wherein the first liquid channel is further provided with a control valve; and/or,

    The micro-channel plasma generator is also provided with a gas input end, and the gas input end is also provided with a gas valve.
18. The washing equipment according to claim 11, characterized in that a liquid inlet valve is provided at the liquid input end; and/or,

    The liquid input end is connected to an external water source through a second liquid channel.
19. The washing equipment according to claim 11, characterized in that the liquid input end is connected with the clothes receiving part through a third liquid channel, and the third liquid channel is further provided with a liquid-driven pump.
20. The washing equipment according to claim 19, characterized in that the third liquid channel is further provided with a lint filter.
21. A washing device, characterized in that the washing device includes a device shell, a photooxidant generator and a clothes accommodating part, and the clothes accommodating part is provided inside the device shell;

    The photooxidant generator is provided with a liquid input end and a liquid output end, and the liquid output end is connected to the clothing containing portion through a first liquid channel;

    The liquid entering the photooxidant generator from the liquid input end is processed and then enters the clothes containing portion through the liquid output end.
22. The washing device according to claim 21, wherein the photooxidant generator includes a housing and an ultraviolet lamp portion located inside the housing; the liquid output end and the liquid input end are both located at The housing.
23. The washing device according to claim 22, wherein the ultraviolet lamp part includes an ultraviolet lamp tube, a ballast connected to the ultraviolet lamp tube, and a protective tube set outside the ultraviolet lamp tube; or ,

    The ultraviolet lamp part includes an ultraviolet lamp tube and a ballast connected to the ultraviolet lamp tube; or,

    The ultraviolet lamp part is detachably connected to the housing; or,

    The ultraviolet lamp part is sealedly connected to the housing.
24. The washing device according to claim 21, characterized in that a liquid inlet valve is provided at the liquid input end; or,

    The liquid input end is connected to the external water source through the second liquid channel; or,

    The photooxidant generator is also provided with a gas input end, and the gas input end is also provided with a gas valve; or,

    The angle between the liquid input end and the liquid output end is α, 30 degrees ≤ α ≤ 150 degrees; or,

    The angle between the liquid input end and the liquid output end is α, 60 degrees ≤ α ≤ 120 degrees; or,

    The liquid input end and the liquid output end are vertical; or,

    The photooxidant generator is provided between the device housing and the clothing containing portion; or,

    The drain end of the clothes accommodating part is provided with a micro-channel plasma generator. The micro-channel plasma generator includes an ion generating shell. A positive electrode and a negative electrode are provided in the ion generating shell. Between the positive electrode and the negative electrode, There are micro-channels therebetween, the input end of the ion-generating shell is connected to the drain end of the clothes accommodating part, and the output end of the ion-generating shell is connected to the outside.
25. The washing device according to claim 21, wherein the liquid input end is connected to the clothes accommodating part through a third liquid channel, and the third liquid channel is further provided with a liquid-driven pump.
26. The washing device according to claim 25, wherein the third liquid channel is further provided with a lint filter; and/or,

    The liquid output end is also connected to the outside through a fourth liquid channel. The fourth liquid channel is provided with a fourth valve; the first liquid channel is provided with a first valve.
27. The washing device according to claim 21, wherein the washing device is a drum washing machine, and the clothes accommodating part is a drum.
28. The washing device according to claim 27, wherein the drum includes an outer drum and an inner drum, and the first liquid channel is connected to the outer drum; or,

    The washing device is also provided with a window pad, the window pad is connected to the drum, and the first liquid channel is connected to the window pad.
29. The washing device according to claim 21, characterized in that an oxidant elimination part is further provided between the liquid output end and the clothes accommodating part.
30. The washing device according to claim 29, wherein the first liquid channel includes a first pipeline and a second pipeline, and each of the first pipeline and the second pipeline has one end connected to the The liquid output end is connected and the other end is connected to the clothes accommodating part. The first pipeline and the second pipeline are respectively provided with control valves. The oxidant elimination part is provided in the first pipeline or the second pipeline. Describe the second pipeline.