CN111112222A - Wig belt cleaning device based on ultrasonic cleaning, ultraviolet ray disinfection - Google Patents

Abstract

The invention discloses a wig cleaning device based on ultrasonic cleaning and ultraviolet disinfection. The invention has the characteristics of small volume, small occupied space, energy saving, environmental protection, intelligent cleaning, simple operation, low noise and the like.

Description

Wig belt cleaning device based on ultrasonic cleaning, ultraviolet ray disinfection

Technical Field

The invention relates to the field of wig home furnishing, in particular to a wig cleaning device based on ultrasonic cleaning and ultraviolet disinfection.

Background

With the economic development and the continuous improvement of the quality of life of people, many people in modern society pursue outward independence and fashion, and besides the demand of people with few hair loss on wigs, many teenagers further increase the demand of society on wigs due to role playing and pursuit of fashion. With the increasing demand and market for wigs, and the increasing need for cleaning wigs in homes or other special environments (e.g., dormitories, apartments), the present invention is in compliance with this trend to allow for deep cleaning and maintenance of wigs by different people without significant impact on the environment in different environments. Most of the existing wig cleaning devices only use large-scale industrial production cleaning or occupy large-size mechanical cleaning, so that the quality of hair is often damaged, the cleaning effect is poor, and the appearance is not attractive enough.

Disclosure of Invention

The present invention is directed to solving the problems of the prior art.

The technical scheme adopted for achieving the purpose of the invention is that the wig cleaning device based on ultrasonic cleaning and ultraviolet disinfection mainly comprises a shell, a control panel, an inner cylinder, a water pipe, a vibration motor, a wig hanging device, an ultrasonic cleaning device, an ultraviolet disinfection device, a drying device, a flow meter, an electromagnetic control valve, a motor driver and a controller.

A control panel is embedded on the shell.

The inner part of the shell is sleeved with an inner cylinder.

A gap is arranged between the shell and the inner cylinder.

The housing includes a top cover and a cavity.

The top cover is provided with a water inlet, so that water flows into the inner barrel through the water inlet.

And a water outlet is formed in the bottom of the cavity.

The control panel comprises a start key, a stop key, a clock setting key and n cleaning mode selection keys which are electrically connected with the controller.

n is 4. When n is 1, the washing mode is the human hair washing mode. When n is 2, the cleaning mode is a chemical fiber hair cleaning mode. And when n is 3, the cleaning mode is an oil hair cleaning mode. When n is 4, the cleaning mode is a quick cleaning mode.

When the cleaning mode is human hair cleaning mode, chemical fiber hair cleaning mode or oil hair cleaning mode, controllingWhen the water level signal h is monitored by the device, h is equal to h_maxAnd after the time T, the controller sends a cleaning starting signal to the motor driver.

The bottom of the inner cylinder is provided with a water outlet corresponding to the position of the water outlet of the cavity.

Parallel limiting grooves are formed in two sides of the inner wall of the inner barrel.

An ultraviolet disinfection device is embedded in the inner wall of the inner cylinder.

At least one row of drying devices distributed annularly are embedded in the inner wall of the inner barrel.

The vibration motor is fixed between the shell and the inner cylinder and drives the inner cylinder to vibrate.

And the wig hanging device is connected to the inner wall of the inner barrel through the limiting groove.

The wig hanging device is used for hanging a wig.

Further, wig linkage is including placing pole, gag lever post and a plurality of couple.

Both ends of the placing rod are fixedly connected with one end of the limiting rod.

The other end of the limiting rod extends into the limiting groove and is connected in a rotating mode.

A plurality of hooks are fixed below the placing rod.

The hook is used for hanging wigs.

The ultrasonic cleaning device is fixed at the bottom of the inner cylinder.

The ultrasonic cleaning device comprises an ultrasonic generator, a plurality of ultrasonic transducers and a pressurizing system.

The ultrasonic generator and the ultrasonic transducers are arranged around the pressurizing system, so that an ultrasonic space is formed inside the inner cylinder.

And after receiving the ith ultrasonic control signal sent by the controller, the ultrasonic generator sends an ith electric signal to the ultrasonic transducer to drive the ultrasonic transducer to generate an ith ultrasonic.

When the pressurizing system works, the water in the inner cylinder is pressurized, so that the water generates bubbles.

Further, the pressurization system includes a pressure valve, an air reservoir, a pressure hose, and an air feeder.

The pressure valve is arranged in the pressure hose.

The air storage chamber is provided with a through hole. The through hole is connected with one end of the pressure hose.

The other end of the pressure hose extends to the inner cylinder.

The gas feeder feeds gas to the gas storage chamber.

When a user presses the start button, the controller respectively sends opening signals to the pressure valve and the air feeder to open the pressure valve and enable the air feeder to feed air to the air storage chamber. And the gas in the gas storage chamber is conveyed into the inner cylinder through the pressure hose to realize the pressurization of water.

When the user presses the stop button, the controller respectively sends stop signals to the pressure valve and the air feeder to close the pressure valve and stop the air feeder.

The ultraviolet disinfection device comprises an ultraviolet disinfection lamp and a glass cover.

The outer cover of the ultraviolet disinfection lamp is provided with a glass cover.

The power of the ultraviolet disinfection lamp is 80W/cm-120W/cm.

And the ultraviolet disinfection lamp generates ultraviolet rays with light intensity class i after receiving the ith ultraviolet control signal sent by the controller.

The flowmeter monitors the water level in the inner barrel and sends a monitored water level signal h to the controller.

The electromagnetic control valves are respectively arranged in the water inlet and the water outlet of the inner barrel.

The electromagnetic control valve is connected with the controller through a connecting line.

And when the motor driver receives the cleaning starting signal, the vibration motor is driven to work.

And after the motor driver receives the ith motor frequency control signal sent by the controller, the vibration frequency of the vibration motor is controlled to be the ith vibration frequency.

And when the motor driver receives the cleaning stop signal, the vibration motor is controlled to stop.

When a user presses the starting button, the controller sends a starting signal to an electromagnetic control valve arranged at the water inlet, controls the electromagnetic control valve to be opened, and detects a water level signal h of the flowmeter. When the water level signal h is equal to h_maxAnd when the cleaning device is used, the controller sends a closing signal to an electromagnetic control valve arranged at the water inlet, controls the electromagnetic control valve to be closed, and sends a cleaning starting signal to the motor driver.

Before the controller sends a starting signal, a user presses an ith cleaning mode selection button, the controller generates an ith motor frequency control signal and sends the ith motor frequency control signal to the motor driver, and therefore the motor vibration frequency is controlled. The controller generates an i-th ultrasonic control signal and sends the i-th ultrasonic control signal to the ultrasonic cleaning device so as to control ultrasonic parameters.

The user selects the cleaning time by pressing the clock setting button, and the controller generates a cleaning time countdown. When the washing time is 0, the controller generates a washing stop signal. Or when the user presses the stop key, the controller generates a cleaning stop signal.

The controller sends a purge stop signal to the motor driver. The controller sends a starting signal to an electromagnetic control valve arranged at the water outlet of the inner barrel, controls the electromagnetic control valve to be opened, and detects a water level signal h of the flowmeter. And when the water level signal h is 0, the controller sends a closing signal to the electromagnetic control valve at the water outlet of the inner cylinder, and the electromagnetic control valve is controlled to be closed.

And when the water level signal h is equal to 0, the controller generates an ith ultraviolet control signal and sends the ith ultraviolet control signal to the ultraviolet disinfection device, so that the intensity of ultraviolet light is controlled. The controller generates an i-th type drying signal and sends the i-th type drying signal to the drying device, so that the drying device is controlled to dry the wig. i is 1,2, …, n.

Further, the drying device comprises a heating pipe and waterproof non-heat-insulation plastic covered outside the heating pipe.

Further, based on ultrasonic cleaning, ultraviolet ray disinfection's wig belt cleaning device still includes the shampoo storage box of inlaying on the inner wall of inner tube.

The technical effect of the present invention is undoubted. The invention discloses a wig cleaning device based on ultrasonic cleaning and ultraviolet disinfection, which is provided with a computer controller, a water level sensor, a drainage electromagnetic valve, a clutch, a motor, a silo, an electromagnetic protection switch, a plastic ultrasonic cleaning generating device, an LED ultraviolet disinfection lamp, a heating pipe, a shell and a panel cover. The invention is designed according to the application and advantages of the washing machine, portable ultrasonic cleaning and ultraviolet disinfection, conforms to the requirement of the development of times on cleaning the wig in home, provides efficient and simple cleaning convenience for wig demanders, designs the plastic ultrasonic cleaning device to deeply clean the wig of different people, designs the LED ultraviolet disinfection embedded in the silo and a plurality of omnibearing heating pipes to disinfect and dry the wig, protects the hair quality, and efficiently utilizes the space in the silo.

The invention has the characteristics of small volume, small occupied space, energy conservation, environmental protection, intelligent cleaning, simple operation, low noise and the like, the small volume is suitable for various living environments, the wig is deeply cleaned, micron-sized bubbles are generated in the cleaning liquid by utilizing the high-frequency vibration of the sound wave technology, the bubbles are broken to break various scurf and stains from the deep layer, the wig hair quality can be better protected, the appearance design is simple and beautiful, the beauty is added for the household life, and the life quality is improved.

Drawings

FIG. 1 is an external view;

FIG. 2 is a top view;

FIG. 3 is a front view;

FIG. 4 is a cross-sectional view;

FIG. 5 is a cleaning flow chart;

fig. 6 is a schematic view of a wig hanging apparatus.

In the figure, a shell 1, a control panel 2, an inner cylinder 3, an ultrasonic cleaning device 5, a flowmeter 6, an electromagnetic control valve 7, a placing rod 401, a limiting rod 402, a plurality of hooks 403, an ultraviolet disinfection device 801, a drying device 802, a liquid level sensor 01, a temperature sensor 02, a controller 9 and a button 201.

Detailed Description

The present invention is further illustrated by the following examples, but it should not be construed that the scope of the above-described subject matter is limited to the following examples. Various substitutions and alterations can be made without departing from the technical idea of the invention and the scope of the invention is covered by the present invention according to the common technical knowledge and the conventional means in the field.

Example 1:

referring to fig. 1 to 6, an ultrasonic cleaning and ultraviolet sterilization based wig cleaning device mainly comprises a housing 1, a control panel 2, an inner cylinder 3, a water pipe, a vibration motor, a wig hanging device, an ultrasonic cleaning device 5, an ultraviolet sterilization device 801, a drying device 802, a flow meter 6, an electromagnetic control valve 7, a motor driver and a controller 9.

The shell 1 is embedded with a control panel 2.

An inner cylinder 3 is sleeved in the shell 1.

A gap is formed between the housing 1 and the inner cylinder 3.

The housing 1 includes a top cover and a cavity.

The top cover is provided with a water inlet, so that water flows into the inner barrel 3 through the water inlet.

And a water outlet is formed in the bottom of the cavity.

The control panel 2 is provided with a plurality of keys 201, including a start key, a stop key, a clock setting key and n cleaning mode selection keys, which are electrically connected with the controller 9.

n is 4. When n is 1, the cleaning mode is a human hair cleaning mode, the working power of the drying device 802 is the lowest, the drying time is 6min, the power of the ultrasonic cleaning device 5 is 18KHZ, and the working time of the ultrasonic cleaning device 5 is 10 min. When n is 2, the cleaning mode is a chemical fiber hair cleaning mode, the working power of the drying device 802 is low, the drying time is 4min, the power of the ultrasonic cleaning device 5 is 20KHZ, and the working time of the ultrasonic cleaning device 5 is 10 min. When n is 3, the cleaning mode is the oil hair cleaning mode, the working power of the drying device 802 is low, the drying time is 4min, the power of the ultrasonic cleaning device 5 is 22KHZ, and the working time of the ultrasonic cleaning device 5 is 12 min. When n is 4, the cleaning mode is the quick cleaning mode, the working power of the drying device 802 is the highest, the drying time is 3min, the power of the ultrasonic cleaning device 5 is 25KHZ, and the working time of the ultrasonic cleaning device 5 is 8 min.

When the cleaning mode is a human hair cleaning mode, a chemical fiber hair cleaning mode or an oil hair cleaning mode, the controller monitors that a water level signal h is h_maxAnd after 10min, the controller sends a cleaning starting signal to the motor driver.

The bottom of the inner cylinder 3 is provided with a water outlet corresponding to the position of the water outlet of the cavity.

Parallel limiting grooves are formed in two sides of the inner wall of the inner barrel 3.

An ultraviolet disinfection device 801 is embedded in the inner wall of the inner barrel 3.

At least one row of drying devices 802 distributed annularly are embedded in the inner wall of the inner barrel 3.

The water pipe sequentially penetrates through the water outlet of the inner barrel 3 and the water outlet of the cavity.

The vibrating motor is fixed between the shell 1 and the inner cylinder 3 and drives the inner cylinder 3 to vibrate.

And the wig hanging device is connected to the inner wall of the inner barrel 3 through the limiting groove.

The wig hanging device is used for hanging a wig.

The wig hanging apparatus includes a placing rod 401, a stopper rod 402, and a plurality of hooks 403.

The two ends of the placing rod 401 are fixedly connected with one end of the limiting rod 402.

The other end of the limiting rod 402 extends into the limiting groove and is connected in a rotating manner.

A plurality of hooks 403 are fixed below the placing rod 401.

The hook 403 is used for hanging a wig.

The ultrasonic cleaning device 5 is fixed at the bottom of the inner cylinder 3.

The ultrasonic cleaning device 5 comprises an ultrasonic generator, a plurality of ultrasonic transducers and a pressurizing system.

The ultrasonic generator and the ultrasonic transducers are arranged around the pressurizing system, so that an ultrasonic space is formed inside the inner cylinder 3.

And after receiving the ith ultrasonic control signal sent by the controller 9, the ultrasonic generator sends an ith electric signal to the ultrasonic transducer to drive the ultrasonic transducer to generate an ith ultrasonic wave.

When the pressurizing system works, the water in the inner cylinder 3 is pressurized, so that the water generates bubbles.

The pressurization system includes a pressure valve, a gas reservoir, a pressure hose, and a gas feeder.

The pressure valve is arranged in the pressure hose.

The air storage chamber is provided with a through hole. The through hole is connected with one end of the pressure hose.

The other end of the pressure hose extends to the inside of the inner cylinder 3.

The gas feeder feeds gas to the gas storage chamber.

When the user presses the start button, the controller 9 sends an opening signal to the pressure valve and the gas feeder, respectively, to open the pressure valve and cause the gas feeder to feed gas to the gas storage chamber. The gas in the gas storage chamber is conveyed into the inner barrel 3 through the pressure hose, so that the water is pressurized.

When the user presses the stop button, the controller 9 sends a stop signal to the pressure valve and the air feeder, respectively, to close the pressure valve and stop the air feeder.

The ultraviolet disinfection device 801 comprises an ultraviolet disinfection lamp and a glass cover.

The outer cover of the ultraviolet disinfection lamp is provided with a glass cover.

The power of the ultraviolet disinfection lamp is 80W/cm-120W/cm.

The ultraviolet disinfection lamp generates ultraviolet rays with light intensity class i after receiving the ith ultraviolet control signal sent by the controller 9.

The flow meter 6 monitors the water level in the inner tub 3 and sends a monitored water level signal h to the controller 9.

The electromagnetic control valve 7 is respectively arranged in the water inlet and the water outlet of the inner barrel 3.

The electromagnetic control valve 7 and the controller 9 are connected through a connecting line.

And when the motor driver receives the cleaning starting signal, the vibration motor is driven to work.

And after receiving the ith motor frequency control signal sent by the controller 9, the motor driver controls the vibration frequency of the vibration motor to be the ith vibration frequency.

And when the motor driver receives the cleaning stop signal, the vibration motor is controlled to stop.

When a user presses a start button, the controller 9 sends a start signal to the electromagnetic control valve 7 arranged at the water inlet, controls the electromagnetic control valve 7 to be opened, and detects a water level signal h of the flowmeter 6. When the water level signal h is equal to h_maxWhen the cleaning device is used, the controller 9 sends a closing signal to the electromagnetic control valve 7 arranged at the water inlet, controls the electromagnetic control valve 7 to be closed, and sends a cleaning starting signal to the motor driver.

Before the controller 9 sends a starting signal, a user presses an ith cleaning mode selection key, the controller 9 generates an ith motor frequency control signal and sends the ith motor frequency control signal to a motor driver, and therefore the vibration frequency of the motor is controlled. The controller 9 generates a class i ultrasonic control signal and sends the control signal to the ultrasonic cleaning device 5, so as to control ultrasonic parameters.

The user selects the wash time by pressing the clock set button and the controller 9 generates a wash time countdown. When the washing time is 0, the controller 9 generates a washing stop signal. Alternatively, the controller 9 generates a washing stop signal when the user presses a stop button.

The controller 9 sends a purge stop signal to the motor driver. The controller 9 sends a starting signal to the electromagnetic control valve 7 arranged at the water outlet of the inner barrel 3, controls the electromagnetic control valve 7 to be opened, and detects a water level signal h of the flowmeter 6. When the water level signal h is equal to 0, the controller 9 sends a closing signal to the electromagnetic control valve 7 at the water outlet of the inner barrel 3, and controls the electromagnetic control valve 7 to close.

When the water level signal h is equal to 0, the controller 9 generates an i-th type ultraviolet control signal, and sends the i-th type ultraviolet control signal to the ultraviolet disinfection device 801, so as to control the intensity of ultraviolet light. The controller 9 generates an i-th type drying signal and sends the signal to the drying device 802, so as to control the drying device 802 to dry the wig. i is 1,2, …, n.

The drying device 802 (i.e., the dryer in fig. 5) includes a heating pipe and a waterproof and heat-insulating plastic film covering the heating pipe. The heating pipes form a heating circuit. The waterproof and non-heat-insulation plastic film is made of PVC plastic.

Based on ultrasonic cleaning, ultraviolet ray disinfection's wig belt cleaning device still includes the shampoo storage box of inlaying on the inner wall of inner tube 3.

Example 2:

a wig cleaning device based on ultrasonic cleaning and ultraviolet disinfection mainly comprises a shell 1, a control panel 2, an inner barrel 3, a water pipe, a vibration motor, a wig hanging device, an ultrasonic cleaning device 5, an ultraviolet disinfection device 801, a drying device 802, a flow meter 6, an electromagnetic control valve 7, a motor driver and a controller 9.

The shell 1 is embedded with a control panel 2.

An inner cylinder 3 is sleeved in the shell 1.

A gap is formed between the housing 1 and the inner cylinder 3.

The housing 1 includes a top cover and a cavity.

The top cover is provided with a water inlet, so that water flows into the inner barrel 3 through the water inlet.

And a water outlet is formed in the bottom of the cavity.

The control panel 2 includes a start button, a stop button, a clock setting button and n cleaning mode selection buttons electrically connected to the controller 9.

The bottom of the inner cylinder 3 is provided with a water outlet corresponding to the position of the water outlet of the cavity.

Parallel limiting grooves are formed in two sides of the inner wall of the inner barrel 3.

An ultraviolet disinfection device 801 is embedded in the inner wall of the inner barrel 3.

At least one row of drying devices 802 distributed annularly is fixed between the inner wall of the inner cylinder 3 and the shell 1.

The water pipe sequentially penetrates through the water outlet of the inner barrel 3 and the water outlet of the cavity.

The vibrating motor is fixed between the shell 1 and the inner cylinder 3 and drives the inner cylinder 3 to vibrate.

And the wig hanging device is connected to the inner wall of the inner barrel 3 through the limiting groove.

The wig hanging device is used for hanging a wig.

The ultrasonic cleaning device 5 is fixed at the bottom of the inner cylinder 3.

The ultrasonic cleaning device 5 comprises an ultrasonic generator, a plurality of ultrasonic transducers and a pressurizing system.

The ultrasonic generator and the ultrasonic transducers are arranged around the pressurizing system, so that an ultrasonic space is formed inside the inner cylinder 3.

And after receiving the ith ultrasonic control signal sent by the controller 9, the ultrasonic generator sends an ith electric signal to the ultrasonic transducer to drive the ultrasonic transducer to generate an ith ultrasonic wave.

When the pressurizing system works, the water in the inner cylinder 3 is pressurized, so that the water generates bubbles.

The ultraviolet disinfection device 801 comprises an ultraviolet disinfection lamp and a glass cover.

The outer cover of the ultraviolet disinfection lamp is provided with a glass cover.

The ultraviolet disinfection lamp generates ultraviolet rays with light intensity class i after receiving the ith ultraviolet control signal sent by the controller 9.

The flow meter 6 monitors the water level in the inner tub 3 and sends a monitored water level signal h to the controller 9.

The electromagnetic control valve 7 is respectively arranged in the water inlet and the water outlet of the inner barrel 3.

The electromagnetic control valve 7 and the controller 9 are connected through a connecting line.

And when the motor driver receives the cleaning starting signal, the vibration motor is driven to work.

And after receiving the ith motor frequency control signal sent by the controller 9, the motor driver controls the vibration frequency of the vibration motor to be the ith vibration frequency.

And when the motor driver receives the cleaning stop signal, the vibration motor is controlled to stop.

When a user presses a start button, the controller 9 sends a start signal to the electromagnetic control valve 7 arranged at the water inlet, controls the electromagnetic control valve 7 to be opened, and detects a water level signal h of the flowmeter 6. When the water level signal h is equal to h_maxWhen the cleaning device is used, the controller 9 sends a closing signal to the electromagnetic control valve 7 arranged at the water inlet, controls the electromagnetic control valve 7 to be closed, and sends a cleaning starting signal to the motor driver.

Before the controller 9 sends a starting signal, a user presses an ith cleaning mode selection key, the controller 9 generates an ith motor frequency control signal and sends the ith motor frequency control signal to a motor driver, and therefore the vibration frequency of the motor is controlled. The controller 9 generates a class i ultrasonic control signal and sends the control signal to the ultrasonic cleaning device 5, so as to control ultrasonic parameters.

The user selects the wash time by pressing the clock set button and the controller 9 generates a wash time countdown. When the washing time is 0, the controller 9 generates a washing stop signal. Alternatively, the controller 9 generates a washing stop signal when the user presses a stop button.

The controller 9 sends a purge stop signal to the motor driver. The controller 9 sends a starting signal to the electromagnetic control valve 7 arranged at the water outlet of the inner barrel 3, controls the electromagnetic control valve 7 to be opened, and detects a water level signal h of the flowmeter 6. When the water level signal h is equal to 0, the controller 9 sends a closing signal to the electromagnetic control valve 7 at the water outlet of the inner barrel 3, and controls the electromagnetic control valve 7 to close.

When the water level signal h is equal to 0, the controller 9 generates an i-th type ultraviolet control signal, and sends the i-th type ultraviolet control signal to the ultraviolet disinfection device 801, so as to control the intensity of ultraviolet light. The controller 9 generates an i-th type drying signal and sends the signal to the drying device 802, so as to control the drying device 802 to dry the wig. i is 1,2, …, n.

Example 3:

the wig cleaning device based on ultrasonic cleaning and ultraviolet disinfection has the main structure shown in embodiment 2, and further comprises a liquid level sensor 801, a temperature sensor 802 and a controller 9.

The level sensor 801 is used to monitor the water level.

The temperature sensor 802 monitors the temperature of the inner barrel 3 and sends it to the controller 9. The controller 9 regulates the mode of the heating device 2.

Example 4:

a use method of a wig cleaning device based on ultrasonic cleaning and ultraviolet disinfection mainly comprises the following steps:

1) pressing the start button to inject water.

2) Pressing the cleaning mode selection button selects the cleaning mode.

3) When the water level signal h is equal to h_maxWhen the cleaning device is used, the controller 9 sends a closing signal to the electromagnetic control valve 7 arranged at the water inlet, controls the electromagnetic control valve 7 to be closed, and sends a cleaning starting signal to the motor driver.

4) The motor begins to vibrate.

5) And (5) draining after the cleaning time is over.

6) When the water level signal h is 0, the ultraviolet sterilizing apparatus 801 and the drying apparatus 802 start to operate until the wig is dried.

Claims (9)

1. The utility model provides a wig belt cleaning device based on ultrasonic cleaning, ultraviolet ray disinfection, its characterized in that mainly includes casing (1), control panel (2), inner tube (3), water pipe, vibrating motor, wig linkage, ultrasonic cleaning device (5), flowmeter (6), solenoid electric valve (7), ultraviolet ray degassing unit (801), drying device (802), motor drive and controller (9).

A control panel (2) is embedded in the shell (1);

an inner cylinder (3) is sleeved in the shell (1);

a gap is arranged between the shell (1) and the inner cylinder (3);

the shell (1) comprises a top cover and a cavity;

the top cover is provided with a water inlet, so that water flows into the inner barrel (3) through the water inlet;

a water outlet is formed in the bottom of the cavity;

the control panel (2) comprises a start key, a stop key, a clock setting key and n cleaning mode selection keys which are electrically connected with the controller (9);

the bottom of the inner cylinder (3) is provided with a water outlet corresponding to the position of the water outlet of the cavity;

two sides of the inner wall of the inner barrel (3) are provided with parallel limiting grooves;

an ultraviolet disinfection device (801) is embedded in the inner wall of the inner cylinder (3);

at least one row of drying devices (802) distributed annularly are embedded in the inner wall of the inner barrel (3);

the water pipe sequentially penetrates through the water outlet of the inner cylinder (3) and the water outlet of the cavity;

the vibration motor is fixed between the shell (1) and the inner cylinder (3) and drives the inner cylinder (3) to vibrate;

the wig hanging device is connected to the inner wall of the inner barrel (3) through the limiting groove;

the wig hanging device is used for hanging a wig;

the ultrasonic cleaning device (5) is fixed at the bottom of the inner cylinder (3);

the ultrasonic cleaning device (5) comprises an ultrasonic generator, a plurality of ultrasonic transducers and a pressurizing system;

the ultrasonic generator and the ultrasonic transducers are arranged around the pressurizing system, so that an ultrasonic space is formed inside the inner cylinder (3);

the ultrasonic generator sends an i-type electric signal to the ultrasonic transducer after receiving the i-type ultrasonic control signal sent by the controller (9) and drives the ultrasonic transducer to generate i-type ultrasonic waves;

when the pressurizing system works, the water in the inner cylinder (3) is pressurized, so that the water generates bubbles;

the flowmeter (6) monitors the water level in the inner barrel (3) and sends a monitored water level signal h to the controller (9);

the electromagnetic control valve (7) is respectively arranged in the water inlet and the water outlet of the inner barrel (3);

the electromagnetic control valve (7) is connected with the controller (9) through a connecting line;

the motor driver drives the vibration motor to work when receiving the cleaning starting signal;

after the motor driver receives an ith motor frequency control signal sent by the controller (9), the vibration frequency of the vibration motor is controlled to be the ith vibration frequency;

when the motor driver receives the cleaning stop signal, the vibration motor is controlled to stop;

the ultraviolet disinfection device (801) comprises an ultraviolet disinfection lamp and a glass cover;

the outer cover of the ultraviolet disinfection lamp is provided with a glass cover;

the ultraviolet disinfection lamp generates ultraviolet rays with light intensity class i after receiving the ith ultraviolet control signal sent by the controller (9);

when a user presses a start button, the controller (9) sends a starting signal to an electromagnetic control valve (7) arranged at the water inlet, controls the electromagnetic control valve (7) to be opened, and detects a water level signal h of the flowmeter (6); when the water level signal h is equal to h_maxWhen the cleaning device is used, the controller (9) sends a closing signal to an electromagnetic control valve (7) arranged at the water inlet, controls the electromagnetic control valve (7) to be closed, and sends a cleaning starting signal to the motor driver;

before the controller (9) sends a starting signal, a user presses an ith cleaning mode selection button, the controller (9) generates an ith motor frequency control signal and sends the ith motor frequency control signal to a motor driver so as to control the vibration frequency of a motor; the controller (9) generates an i-th ultrasonic control signal and sends the i-th ultrasonic control signal to the ultrasonic cleaning device (5) so as to control ultrasonic parameters;

the user selects the cleaning time by pressing a clock setting key, and the controller (9) generates a cleaning time countdown; when the cleaning time is 0, the controller (9) generates a cleaning stop signal; or when the user presses the stop key, the controller (9) generates a cleaning stop signal;

the controller (9) sends a cleaning stop signal to the motor driver; the controller (9) sends an opening signal to an electromagnetic control valve (7) arranged at the water outlet of the inner barrel (3), controls the electromagnetic control valve (7) to be opened, and detects a water level signal h of the flowmeter (6); when the water level signal h is equal to 0, the controller (9) sends a closing signal to the electromagnetic control valve (7) of the water outlet of the inner cylinder (3) to control the electromagnetic control valve (7) to be closed;

when the water level signal h is equal to 0, the controller (9) generates an i-th ultraviolet control signal and sends the i-th ultraviolet control signal to the ultraviolet disinfection device (801), so that the intensity of ultraviolet light is controlled; the controller (9) generates an i-th type drying signal and sends the i-th type drying signal to the drying device (802), so that the drying device (802) is controlled to dry the wig; i is 1,2, …, n.

2. The wig cleaning apparatus based on ultrasonic cleaning and ultraviolet sterilization according to claim 1 or 2, wherein: the wig hanging device comprises the placing rod (401), a limiting rod (402) and a plurality of hooks (403);

both ends of the placing rod (401) are fixedly connected with one end of the limiting rod (402);

the other end of the limiting rod (402) extends into the limiting groove and is connected in a rotating mode;

a plurality of hooks (403) are fixed below the placing rod (401);

the hook (403) is used for hanging a wig.

3. The ultrasonic cleaning and ultraviolet disinfection-based wig cleaning device according to claim 1, wherein: the pressurization system comprises a pressure valve, an air storage chamber, a pressure hose and an air feeder;

the pressure valve is arranged in the pressure hose;

the air storage chamber is provided with a through hole; the through hole is connected with one end of the pressure hose;

the other end of the pressure hose extends into the inner cylinder (3);

the gas feeder feeds gas to the gas storage chamber;

when a user presses a start button, the controller (9) respectively sends opening signals to the pressure valve and the air feeder to open the pressure valve and enable the air feeder to feed air to the air storage chamber; the gas in the gas storage chamber is conveyed into the inner cylinder (3) through a pressure hose to realize the pressurization of water;

when a user presses a stop button, the controller (9) sends stop signals to the pressure valve and the air feeder respectively to close the pressure valve and stop the air feeder.

4. The ultrasonic cleaning and ultraviolet disinfection-based wig cleaning device according to claim 1, wherein: the drying device (802) is a heating pipe.

5. The ultrasonic cleaning and ultraviolet disinfection-based wig cleaning device according to claim 4, wherein: the heating pipe outer cover is provided with a waterproof film.

6. The ultrasonic cleaning and ultraviolet disinfection-based wig cleaning device according to claim 1, wherein: also comprises a shampoo storage box embedded on the inner wall of the inner cylinder (3).

7. The ultrasonic cleaning-based ultraviolet disinfection wig cleaning apparatus according to claim 1, wherein the power of the ultraviolet disinfection lamp is 80W/cm to 120W/cm.

8. The ultrasonic cleaning and ultraviolet disinfection-based wig cleaning device according to claim 1, wherein n-4; when n is 1, the cleaning mode is a human hair cleaning mode; when n is 2, the cleaning mode is a chemical fiber hair cleaning mode; when n is 3, the cleaning mode is an oil hair cleaning mode; when n is 4, the cleaning mode is a quick cleaning mode.

9. The device for cleaning hairpiece based on ultrasonic cleaning and ultraviolet sterilization according to claim 8, wherein the cleaning mode is humanWhen the hair washing mode, the chemical fiber hair washing mode or the oil hair washing mode is adopted, the controller (9) monitors that a water level signal h is h_maxAfter T time, the controller (9) sends a purge start signal to the motor driver.

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