CN215251789U - Washing auxiliary assembly - Google Patents

Abstract

The embodiment of the application discloses a washing auxiliary device used for generating a washing solution which can clean clothes. The washing auxiliary equipment of the embodiment of the application comprises: the device comprises a silver ion generator, an ozone generator, an ejector, a controller, a gas-liquid mixer and a plurality of connecting pipes, wherein an ozone output pipe of the ozone generator is connected with a gas inlet of the ejector, a solution outlet of the ejector is connected with an input port of the gas-liquid mixer through the connecting pipes to form a communicating pipeline, a pipeline inlet of the communicating pipeline is arranged at one end of a water inlet of the ejector, a pipeline outlet of the communicating pipeline is arranged at one end of an output port of the gas-liquid mixer, positive and negative silver bars of the silver ion generator are arranged in the communicating pipeline, the controller is electrically connected with the silver ion generator, the controller controls the silver ion generator to be turned on or turned off, the controller is electrically connected with the ozone generator, and the controller controls the ozone generator to be turned on or turned off.

Description

Washing auxiliary assembly

Technical Field

The embodiment of the application relates to the technical field of cleaning, in particular to washing auxiliary equipment.

Background

At present, with the increasing environmental awareness of people, people pay more attention to the effective combination of environmental protection and health in the aspect of household sanitation. Detergent products such as phosphorus-free washing powder and additive-free laundry detergent appear in washing products used for household cleaning. However, the current detergent products still have chemical residues on the surface of the cleaned clothes, and after long-term use of the detergents for cleaning the clothes, health risks exist on human bodies after people contact the clothes for a long time.

There is a great need in the art for a product that can replace detergents to clean laundry.

SUMMERY OF THE UTILITY MODEL

Embodiments of the present application provide a washing assistant apparatus for generating a washing solution that can clean laundry.

The application provides a washing auxiliary assembly, includes: the device comprises a silver ion generator, an ozone generator, an ejector, a controller, a gas-liquid mixer and a plurality of connecting pipes;

an ozone output pipe of the ozone generator is connected with a gas inlet of the ejector, a solution outlet of the ejector is connected with an input port of the gas-liquid mixer through a connecting pipe to form a communicating pipeline, a pipeline inlet of the communicating pipeline is arranged at one end of a water inlet of the ejector, and a pipeline outlet of the communicating pipeline is arranged at one end of an output port of the gas-liquid mixer;

the positive and negative silver rods of the silver ion generator are arranged in the communicating pipeline;

the controller is electrically connected with the silver ion generator and controls the silver ion generator to be turned on or turned off;

the controller is electrically connected with the ozone generator and controls the ozone generator to be turned on or turned off.

Optionally, the communication line further comprises: a one-way valve;

the one-way valve is arranged between the ozone output pipe of the ozone generator and the gas inlet of the jet device and used for allowing gas to flow into the jet device from the ozone output pipe and preventing liquid in the jet device from flowing into the ozone output pipe.

Optionally, the communication line further comprises: a flow meter;

the flowmeter is connected in the communicating pipeline through the connecting pipe, the flowmeter is also electrically connected with the controller, and the controller monitors the flow state of the flowmeter;

the controller correspondingly controls the silver ion generator to be turned on or off according to the flow state of the flowmeter;

and the controller correspondingly controls the ozone generator to be turned on or off according to the flow state of the flowmeter.

Optionally, the connecting pipe comprises a straight connecting pipe and an angle connecting pipe;

the output end of the flowmeter is communicated with the water inlet of the ejector through the linear connecting pipe, the gas-liquid mixer and the ejector are arranged in parallel, and the angle connecting pipe is used for communicating the input port of the gas-liquid mixer with the solution outlet of the ejector.

Optionally, the communication pipeline further comprises a water outlet pipe;

the water outlet pipe and the gas-liquid mixer are arranged in parallel, and the output port of the gas-liquid mixer is communicated with one end of the water outlet pipe by using the angle connecting pipe.

Optionally, the other end of the outlet pipe has a plurality of pipe outlets.

Optionally, the communication pipeline further comprises a water inlet pipe;

the water inlet pipe is vertically arranged with the straight line connecting pipe connected with the flowmeter, and one end of the water inlet pipe is communicated with the input end of the flowmeter by using the angle connecting pipe, so that the other end of the water inlet pipe is consistent with the direction of the pipeline outlet of at least one water outlet pipe.

Optionally, the angle connection pipe is: one or more of a T-shaped three-way pipe, a right-angle communicating pipe, a C-shaped communicating pipe and an F-shaped three-way pipe.

Optionally, the method further comprises: a front shell and a rear shell;

the communication pipeline is mounted on the rear shell in an adaptive mode, the controller is mounted on the front shell in an adaptive mode, and the front shell is detachably connected with the rear shell to form a shell;

the shell seals the communication pipeline and the controller, and the pipeline inlet and the pipeline outlet of the communication pipeline are exposed.

Optionally, the system further comprises a display screen, the display screen is electrically connected with the controller, and the display screen is used for displaying the operation parameters and the operation state;

the front shell is also provided with a display window, and the display screen is adaptively arranged on the display window;

a transparent observation window is arranged at the partial position of the front shell corresponding to the gas-liquid mixer; the shell is internally provided with an illuminating lamp used for illuminating the gas-liquid mixer, the illuminating lamp is electrically connected with the controller, and the controller controls the opening and closing of the illuminating lamp.

According to the technical scheme, the embodiment of the application has the following advantages:

the washing auxiliary equipment of the embodiment of the application can be connected with ordinary tap water as a solvent from a pipeline inlet of a communication pipeline, the solvent releases silver ions as a solute through a silver ion generator in the communication pipeline, an ozone generator injects ozone as the solute through an ejector to form a water solution containing the silver ions and the ozone, the water solution is fully mixed through a gas-liquid mixer to form a washing solution with strong oxidizing capability and bacteriostatic capability, and when the washing solution flows out from a pipeline outlet of the communication pipeline, the washing auxiliary equipment can be used for cleaning clothes.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a washing aid of the present application;

FIG. 2 is a schematic view of an exemplary silver ion generator of the washing assistant apparatus of the present application;

FIG. 3 is a schematic diagram of an embodiment of an ozone generator in the scrubbing assist apparatus of the present application;

FIG. 4 is a schematic structural diagram of an embodiment of a gas-liquid mixer in the scrubbing assistance apparatus of the present application;

FIG. 5 is a schematic structural view of another embodiment of a washing aid of the present application;

FIG. 6 is an axial view of the construction of an embodiment of the front housing of the washing aid of the present application;

FIG. 7 is another axial view of the front housing embodiment of the washing aid of the present application.

Detailed Description

Embodiments of the present application provide a washing assistant apparatus for generating a washing solution that can clean laundry.

First, silver ions are positive cations formed by silver atoms losing one or more electrons, such as Ag +, Ag2+, Ag3+, and the like. Silver ions are usually present in the form of an aqueous solution, and have an oxidizing action, and can strongly attract thiol groups (-SH) on proteases in bacterial bodies, and the thiol groups are rapidly combined with the thiol groups to inactivate the proteases, so that the bacteria die. After the bacteria are killed by the silver ions, the silver ions are dissociated from the bacterial corpses and then contact with other bacterial colonies, and the process is repeatedly carried out, which is also the reason why the silver ions can realize the sterilization durability.

Ozone is an allotrope of oxygen, and can be automatically reduced into oxygen at normal temperature, and the specific gravity of ozone is greater than that of oxygen, and the ozone is easily dissolved in water. Because the ozone is formed by oxygen molecules carrying an oxygen atom, the ozone is determined to be only in a temporary storage state, the carried oxygen atom is used after oxidation, and the rest combination is that oxygen enters a stable state, so that the ozone has no secondary pollution, and the ozone is a relatively ideal and environment-friendly solute of the washing solution. Ozone can be dissolved in water to form ozone water, which is a solution with strong oxidizing property and can be used as a strong oxidizing agent, a bleaching agent, a fur deodorizer, an air purifying agent, a disinfectant, deodorization of drinking water, and the like.

Referring to fig. 4, the gas-liquid mixer 500 of the embodiment of the present application is tubular, wherein one end of the gas-liquid mixer 500 is an input port of the gas-liquid mixer 500, the other end of the gas-liquid mixer 500 is an output port of the gas-liquid mixer 500, a spiral baffle 520 is fixedly installed in the gas-liquid mixer 500, the helical baffle 520 can slow the flow rate of the gas and solution entering the gas-liquid mixer from the input port, and the pipe path from the gas and solution entering the gas-liquid mixer from the input port to the output port is increased, so that the gas and solution in the gas-liquid mixer 500 are fully mixed by itself under the action of water pressure and then flow out from the input port of the gas-liquid mixer, that is, the spiral baffle 520 plays the greatest role of stirring the solution, ozone gas is better dissolved in water through stirring, therefore, the ozone content in the water is stable, the ozone is uniformly distributed, and the subsequent cleaning of the clothes is facilitated. Preferably, the tube wall 510 of the gas-liquid mixer is at least partially transparent, so that one can observe the mixing process of the gas and the solution in the gas-liquid mixer 500 through the tube wall 510 of the gas-liquid mixer 500.

Referring to fig. 1, an embodiment of a washing auxiliary device according to the present application includes: the silver ion generator 100, the ozone generator 200, the ejector 300, the controller 400, the gas-liquid mixer 500, and the connection pipe 600, wherein the connection pipe 600 mainly communicates a plurality of functional pipes, and the number and the form of the connection pipe 600 are different, and are not limited herein. An ozone output pipe 210 of the ozone generator 200 is communicated with a gas inlet of the ejector 300, a solution outlet of the ejector 300 is connected with an input port of the gas-liquid mixer 500 through a connecting pipe 600 to form a communicating pipeline, a pipe orifice at one end of a water inlet of the ejector 300 is a pipeline inlet of the communicating pipeline, a pipe orifice at one end of an output port of the gas-liquid mixer 500 is a pipeline outlet of the communicating pipeline, positive and negative silver rods 110 of the silver ion generator 100 are arranged in the communicating pipeline, the controller 400 is electrically connected with the silver ion generator 100, the controller 400 controls the silver ion generator 100 to be turned on or turned off, the controller 400 is also electrically connected with the ozone generator 200, and the controller 400 controls the ozone generator 200 to be turned on or turned off. When tap water is connected from the inlet of the pipeline in the communicating pipeline of the washing auxiliary equipment of the present application as a solvent, the solvent enters the ejector 300 from the water inlet of the ejector 300, at this time, the controller 400 controls the ozone generator 200 to generate ozone, the ozone gas generated from the ozone generator 200 is used as a solute, when the water as the solvent reaches the solution outlet from the water inlet 303, the ejector 300 generates a vacuum adsorption force on the gas inlet of the ejector 300, the vacuum adsorption force enables the ozone as the solute to enter the ejector 300 from the gas inlet of the ejector 300 through the ozone output pipe 201, the ozone as the solute in the ejector 300 is mixed with the water as the solvent for the first time, an aqueous solution is obtained, the aqueous solution flows out from the solution outlet of the ejector 300 into the gas-liquid mixer 500 for the second time mixing, and a washing solution with more sufficient and uniform solute and solvent is formed, the scrubbing solution flows out of the outlet of the gas-liquid mixer 500, i.e., out of the pipe outlet of the communication pipe. It should be understood that the silver ion generator 100 may be installed at any one section of the communication pipeline, and the controller 400 may control the silver ion generator 100 to release silver ions into the water as the solvent by disposing the positive and negative silver rods 110 of the silver ion generator 100 in the communication pipeline, and the position of the silver ion generator 100 in the communication pipeline is not limited herein.

Specifically, as shown in fig. 2, the silver ion generator 100 mainly includes positive and negative silver rods 110, a sealing threaded joint 120, and a power interface 130, wherein two silver rods of the positive and negative silver rods 110 are fixed at one end of the sealing threaded joint 120 in parallel, and the power interface 130 is fixedly disposed at the other end of the sealing threaded joint. The power interface 130 is used for supplying power to the positive and negative silver rods 110 so that the positive and negative silver rods discharge to generate silver ions, the sealing threaded joint 120 is used for being in sealing connection with the standby interface of the communication pipeline so as to place the positive and negative silver rods in the communication pipeline, and the power interface 130 is placed outside the communication pipeline.

Further, the communication pipeline of the above embodiment may further include a check valve 310, the check valve 310 is disposed between the ozone output pipe 210 of the ozone generator 200 and the gas inlet of the jet device 300, the check valve 310 allows gas (i.e., ozone gas generated from the ozone generator 200) to flow into the jet device 300 from the ozone output pipe 210, and prevents liquid in the jet device 300 from flowing into the ozone output pipe 210, so as to prevent the solution in the communication pipeline from entering the ozone generator 200, and reduce the probability of causing the ozone generator 200 to malfunction.

Specifically, the ozone generator 200 according to the embodiment of the present invention may be of a high-pressure discharge type, an ultraviolet irradiation type, an electrolytic type, or the like. In view of the requirement for miniaturization and convenience of the washing auxiliary equipment of the embodiment of the present application, it is preferable to use an ozone generator of a high-voltage discharge type. The ozone generator of the embodiment of the present application is of a high voltage discharge type, as shown in fig. 3, the ozone generator 200 is composed of an ozone output tube 210, a high voltage discharge chamber 220, a high voltage capacitor 230, and the like, the ozone generator 200 sucks air from an air inlet 221 of the high voltage discharge chamber 220, the high voltage generated by the high voltage capacitor 230 discharges the air in the high voltage discharge chamber 220, so that oxygen in the air in the high voltage discharge chamber 220 is ionized and recombined to form ozone, the ozone escapes to the ozone output tube 210 from an air outlet 222 of the high voltage discharge chamber 220, and the ozone generated in the ozone generator 200 can be smoothly mixed into water as a solvent by matching with the vacuum adsorption force of the ejector 300 of the above embodiment to the ozone output tube 210.

Further, the communicating pipe of this application embodiment can also include flowmeter 700, and flowmeter 700 passes through the connecting pipe and connects in the communicating pipe, and flowmeter 700 is arranged in monitoring the flow state of liquid in this communicating pipe, can learn whether have liquid flow in the communicating pipe through flowmeter 700 promptly, perhaps learns whether the velocity of flow satisfies predetermined velocity of flow in the communicating pipe through flowmeter 700 to judge this application washing auxiliary assembly whether be in operating condition. That is, when there is a liquid flowing in the communication line, or the flow rate of the liquid in the communication line satisfies a preset flow rate, the flow meter 700 is triggered to generate an operation signal, and the flow meter 700 is electrically connected to the controller 400. The controller 400 can then control the silver ion generator 100 to be turned on or off according to the monitored liquid flow state of the flow meter 700, or the controller 400 can control the ozone generator 200 to be turned on or off according to the flow state of the flow meter 700. For example, the silver ion generator 100 and the ozone generator 200 are normally closed during standby, and when the controller 400 receives an operation signal of the flow meter 700, the controller 400 sends an opening command to the silver ion generator 100 and the ozone generator 200; when the controller 400 does not receive the operating signal of the flow meter 700, the controller 400 stops sending the opening instruction to the silver ion generator 100 and the ozone generator 200, so that the silver ion generator 100 and the ozone generator 200 are turned off.

Specifically, in order to pursue a light weight and a small size of the washing auxiliary device in the embodiment of the present application to satisfy a scenario of supplying the washing solution for household sanitation, the connection pipe 600 of the embodiment may include a straight connection pipe and an angle connection pipe. Wherein the straight line connecting pipe is used for being the straight line intercommunication by adapting unit with two, and the angle connecting pipe is used for being a plurality of angles of predetermineeing by adapting unit and connects, uses the angle connecting pipe can make long banding intercommunication pipeline fold and be the shape of short and thick, does benefit to realize washing auxiliary assembly and miniaturizes, and the adapting unit of here is the function pipeline in this embodiment.

Specifically, please refer to fig. 1, wherein the angle connection pipe may be one or more of a C-shaped communication pipe, a T-shaped tee pipe, a right-angle communication pipe, or an F-shaped tee pipe. The output end of the flow meter 700 of the embodiment of the application can be communicated with the water inlet of the ejector 300 through the straight connecting pipe, so that the flow meter 700 and the ejector 300 are linearly arranged, the gas-liquid mixer 500 is parallelly arranged below the ejector 300, in order to save the longitudinal space, the gas-liquid mixer 500 can be upwards close to the ejector 300 as much as possible, the solution outlet of the ejector 300 and the output port of the gas-liquid mixer 500 are positioned on the same side and are parallel, and the input port of the gas-liquid mixer and the solution outlet of the ejector are communicated through the angle connecting pipe. For example, a C-shaped communication pipe may be used here to communicate the solution outlet of the jet 300 with the output port of the gas-liquid mixer 500; two parallel pipe orifices of the F-shaped three-way pipe can be adopted to communicate the solution outlet of the jet 300 with the output port of the gas-liquid mixer 500, and the remaining pipe orifices of the F-shaped three-way pipe can be used for installing the silver ion generator 100 in a matching manner, so that the positive and negative silver rods of the silver ion generator 100 extend into the F-shaped three-way pipe. Of course, the rest pipe orifice of the F-shaped three-way pipe can be detachably closed by a plug so as to be used as a spare orifice.

Furthermore, the communication pipeline of the embodiment of the present application may further include a water outlet pipe 800, the water outlet pipe 800 is arranged in parallel below the gas-liquid mixer 500, in order to save a longitudinal space, the water outlet pipe 800 may be located as far as possible upward near the gas-liquid mixer 500, at this time, an output port of the gas-liquid mixer 500 and one end of the water outlet pipe 800 are located at the same side and are parallel, an angle connection pipe is used to communicate the output port of the gas-liquid mixer 500 with one end of the water outlet pipe 800, for example, a C-shaped communication pipe may be used here to communicate the output port of the gas-liquid mixer 500 with one end of the water outlet pipe 800; two parallel pipe orifices of the F-shaped three-way pipe can be adopted to communicate the output port of the gas-liquid mixer 500 with one end of the water outlet pipe 800, and the rest pipe orifices of the F-shaped three-way pipe can be used for being matched with and installing the silver ion generator 100, so that the positive and negative silver rods of the silver ion generator 100 extend into the F-shaped three-way pipe. The rest pipe orifice of the F-shaped three-way pipe can be detachably closed by a plug to be used as a standby orifice; or the remaining orifice of the F-tee may be used as one of the line outlets of a communicating line. The other end of the outlet pipe 800 is used as another pipe outlet of the communication pipe. It should be noted that each pipeline outlet may be additionally provided with one or more water taps 810, so as to control the quantity and flow of the pipeline outlets, and meet the personalized requirements of users on the pipeline outlets.

Further, the communicating pipe of the embodiment of the present application may further include a water inlet pipe 900, wherein the water inlet pipe 900 is vertically disposed with the linear connection pipe connected to the flow meter 700, for saving a lateral space, the water inlet pipe 900 may be as close as possible to the flow meter 700, at this time, an angle connection pipe may be used to communicate one end of the water inlet pipe 900 with the input end of the flow meter 700, such that the other end of the water inlet pipe 900 is aligned with the direction of the pipe outlet of the at least one water outlet pipe 800, and the other end of the water inlet pipe 900 serves as the pipe inlet of the communicating pipe, such that a user may manage the pipe outlet and the pipe inlet of the communicating pipe at the same side of the washing auxiliary device. For example, one end of the water inlet pipe 900 is communicated with the output end of the flow meter 700 by using a T-shaped tee, and the remaining pipe orifice of the T-shaped tee can be used for installing the silver ion generator 100 in a matching manner, so that the positive and negative silver rods of the silver ion generator 100 extend into the T-shaped tee. Of course, the rest pipe orifice of the T-shaped three-way pipe can be detachably closed by a plug so as to be used as a spare orifice.

Further, referring to fig. 5, fig. 6 and fig. 7, the washing auxiliary device of the embodiment of the present application further includes a housing 1000, which is composed of a front housing 1010 and a rear housing 1020. Wherein the rear shell 1020 is provided with a fixing device 1021 corresponding to the structure of the communication pipeline of the above-mentioned embodiment, so that the communication pipeline can be fittingly installed on the rear shell 1020. For example, the fixing device is a clamp base, and after the communication pipeline of the above embodiment is installed on the clamp base in an adaptive mode, the communication pipeline is fixedly connected to the rear shell through the clamp matched with the clamp base. The rear shell 1020 is further provided with a mounting structure for the high-voltage discharge chamber 202 and the high-voltage capacitor 203 of the ozone generator 200 to be mounted in a matching manner, so that the high-voltage discharge chamber 202 and the high-voltage capacitor 203 are mounted in the rear shell 1020 in a matching manner. In addition, the controller 400 is adapted to be installed on the front shell, and the front shell 1010 is detachably connected with the rear shell 1020 to form the housing 1000; the detachable connection may be a snap connection and/or a bolt connection. Specifically, a buckle (male) may be disposed on the front shell 1010 to cooperate with a buckle (female) disposed on the rear shell 1020 to clamp, so that the front shell 1010 and the rear shell 1020 are stably connected together. The front shell 1010 is provided with a proper number of buckles (male), the rear shell 1020 is provided with a proper number of buckles (female), and the number of the buckles (male) and the buckles (female) is not limited; after the front shell 1010 and the rear shell 1020 are fastened by the fasteners, in order to further ensure stable connection between the front shell 1010 and the rear shell 1020, a nut seat may be disposed on the front shell 1020 and matched with a screw post disposed on the rear shell 1020, so as to firmly connect the front shell 1010 and the rear shell 1020 together by a screw. The front shell 1010 is provided with a suitable number of nut seats, and the rear shell 1020 is provided with a suitable number of screw posts, where the number of nut seats and screw seats is not limited. The housing 1000 encloses the communication pipeline and the functional components such as the controller 400, and protects the functional components, and generally, the housing is provided with an external interface, which exposes only the pipeline inlet, the pipeline outlet, the spare port, the power interface and other functional interfaces of the communication pipeline that need to be externally connected, so that a user can install external connections for the pipeline inlet, the pipeline outlet, the spare port, the power interface and the like of the communication pipeline. It is worth noting that if the external interface of the corresponding shell 1000 of the spare port is not used, the blocking piece 1030 can be used for being detachably closed, and when the spare port needs to be used, a user can detach the blocking piece 1030 to install external connection on the spare port.

Further, the washing auxiliary device of the embodiment of the present application further includes a display screen 410, the display screen 410 is electrically connected to the controller 400, and the display screen 410 is used for displaying the operation parameters and the operation state of the washing auxiliary device. The front case 1010 is further provided with a display window 1011, and the display screen 410 is fittingly provided on the display window 1011, so that the user can know the operation parameters and the operation state of the washing auxiliary device through the display screen 410 in the display window 1011. When preceding shell 1010 and backshell 1020 correspond the aggregate erection, the local position that preceding shell 1010 corresponds gas-liquid mixer 500 still is equipped with transparent observation window 1012 to the user sees enterprise's blender 500 through the observation window, sees the gas-liquid mixing process through gas-liquid mixer 500's transparent pipe wall 510 again, provides the user and has the window of direct observation to having solution to flow in the communicating pipe, does benefit to the user to the observation of communicating pipe in velocity of flow, and promotes washing auxiliary assembly's user experience. Further, an illuminating lamp for illuminating the gas-liquid mixer 500 is further arranged in the housing 1000, the illuminating lamp is preferably an LED lamp, the illuminating lamp is electrically connected with the controller 400, and the controller 400 controls the opening and closing of the illuminating lamp, so that a user can clearly observe the gas-liquid mixer 500 through the observation window 1012 in a place with insufficient light, and then see the gas-liquid mixing process through the transparent pipe wall 510 of the gas-liquid mixer 500.

In addition, the joints of the components of the communication pipeline should be sealed to prevent water leakage. The sealing mode is two, firstly, the sealing is realized through a rubber sealing gasket and is mainly used for connecting a functional component and a pipeline, so that the component is convenient to replace; and secondly, the connection is realized through glue, and the connection is mainly used for the connection of the pipeline, such as the connection of a water outlet pipe and an angle connecting pipe.

The above description of the present application with reference to specific embodiments is not intended to limit the present application to these embodiments. For those skilled in the art to which the present application pertains, several changes and substitutions may be made without departing from the spirit of the present application, and these changes and substitutions should be considered to fall within the scope of the present application.

Claims (10)

1. A laundry aid, comprising: the device comprises a silver ion generator, an ozone generator, an ejector, a controller, a gas-liquid mixer and a plurality of connecting pipes;

an ozone output pipe of the ozone generator is connected with a gas inlet of the ejector, a solution outlet of the ejector is connected with an input port of the gas-liquid mixer through a connecting pipe to form a communicating pipeline, a pipeline inlet of the communicating pipeline is arranged at one end of a water inlet of the ejector, and a pipeline outlet of the communicating pipeline is arranged at one end of an output port of the gas-liquid mixer;

the positive and negative silver rods of the silver ion generator are arranged in the communicating pipeline;

the controller is electrically connected with the silver ion generator and controls the silver ion generator to be turned on or turned off;

the controller is electrically connected with the ozone generator and controls the ozone generator to be turned on or turned off.

2. The laundry assist device of claim 1, wherein the communication conduit further comprises: a one-way valve;

the one-way valve is arranged between the ozone output pipe of the ozone generator and the gas inlet of the jet device and used for allowing gas to flow into the jet device from the ozone output pipe and preventing liquid in the jet device from flowing into the ozone output pipe.

3. The laundry assist device of claim 2, wherein the communication conduit further comprises: a flow meter;

the flowmeter is connected in the communicating pipeline through the connecting pipe, the flowmeter is also electrically connected with the controller, and the controller monitors the flow state of the flowmeter;

the controller correspondingly controls the silver ion generator to be turned on or off according to the flow state of the flowmeter;

and the controller correspondingly controls the ozone generator to be turned on or off according to the flow state of the flowmeter.

4. The washing aid of claim 3, wherein the connection tube comprises a straight connection tube, and an angular connection tube;

the output end of the flowmeter is communicated with the water inlet of the ejector through the linear connecting pipe, the gas-liquid mixer and the ejector are arranged in parallel, and the angle connecting pipe is used for communicating the input port of the gas-liquid mixer with the solution outlet of the ejector.

5. The laundry assist device of claim 4, wherein the communication conduit further comprises an outlet pipe;

the water outlet pipe and the gas-liquid mixer are arranged in parallel, and the output port of the gas-liquid mixer is communicated with one end of the water outlet pipe by using the angle connecting pipe.

6. A washing aid according to claim 5 wherein the other end of the outlet pipe has a plurality of pipe outlets.

7. The washing aid of claim 6, wherein the communication conduit further comprises a water inlet pipe;

the water inlet pipe is vertically arranged with the straight line connecting pipe connected with the flowmeter, and one end of the water inlet pipe is communicated with the input end of the flowmeter by using the angle connecting pipe, so that the other end of the water inlet pipe is consistent with the direction of the pipeline outlet of at least one water outlet pipe.

8. A washing aid according to claim 7 wherein the angular connection tube is: one or more of a T-shaped three-way pipe, a right-angle communicating pipe, a C-shaped communicating pipe and an F-shaped three-way pipe.

9. The laundry assist device of claim 8, further comprising: a front shell and a rear shell;

the communication pipeline is mounted on the rear shell in an adaptive mode, the controller is mounted on the front shell in an adaptive mode, and the front shell is detachably connected with the rear shell to form a shell;

the shell seals the communication pipeline and the controller, and the pipeline inlet and the pipeline outlet of the communication pipeline are exposed.

10. The washing aid of claim 9, further comprising a display screen electrically connected to the controller, the display screen for displaying operating parameters and operating conditions;

the front shell is also provided with a display window, and the display screen is adaptively arranged on the display window;

a transparent observation window is arranged at the partial position of the front shell corresponding to the gas-liquid mixer; the shell is internally provided with an illuminating lamp used for illuminating the gas-liquid mixer, the illuminating lamp is electrically connected with the controller, and the controller controls the opening and closing of the illuminating lamp.

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