CN112536286A - Operation method of ultrasonic cleaning facility for glass panel of mobile phone - Google Patents

Abstract

The invention relates to an operation method of an ultrasonic cleaning facility for a glass panel of a mobile phone, belonging to the field of mobile phone production equipment.A rectangular cleaning tank is arranged in the middle of the upper part of a machine body, a conical ultrasonic generator is arranged at the bottom of the cleaning tank, four corners of the upper part of the machine body are respectively and vertically provided with a cylindrical stand column, two cylindrical support rods are longitudinally arranged on the stand columns, two cylindrical slideways are transversely arranged on the stand columns, a rectangular trolley is arranged on the slideways, a square frame-shaped lifting support is vertically arranged on the trolley, a cylindrical lifting cylinder is arranged in the lifting support, a rectangular electromagnet is arranged at the bottom of the lifting support, a disc-shaped support wheel is arranged on the left support rod, a cylindrical servo motor and a disc-shaped synchronous wheel are arranged on the right support rod, and the synchronous wheel is connected with the support wheel through an annular synchronous belt, The lower part of the synchronous belt is connected with the trolley, and the method can automatically complete the static cleaning of the glass panel without the need of looking after by workers.

Description

Operation method of ultrasonic cleaning facility for glass panel of mobile phone

Technical Field

The invention discloses an operation method of a mobile phone glass panel ultrasonic cleaning facility, belongs to the field of mobile phone production equipment, and particularly relates to a facility for cleaning a mobile phone glass panel through ultrasonic waves.

Background

The mobile phone glass panel is a protective layer outside the mobile phone display screen and has the function of protecting the display screen inside the mobile phone from being scratched and entering dust. When the glass panel is manufactured, the whole glass is usually required to be cut, carved, polished, tempered and cleaned before being sent to an assembly line, the existing mobile phone glass panel production enterprises mostly adopt a chain type cleaning machine when the panel is cleaned, and because the chain of the chain type cleaning machine runs continuously, workers need to hang the panel turnover basket on the hook of the chain manually, then the chain drives the turnover basket to enter the cleaning tank in an inclined manner, the turnover basket entering the cleaning tank is driven by the chain slowly to move forwards and clean, and then the chain lifts the turnover basket from the other end of the cleaning tank and then the workers take the turnover basket off from the chain. The cleaning machine of the method has larger occupied area, the panel is cleaned in the moving process, the cleaning effect is not ideal due to more cleaning quantity at one time, and two workers are required for operation. The production efficiency is not high, and the cost is not fully reduced.

Disclosure of Invention

The invention relates to an operation method of ultrasonic cleaning facilities for a glass panel of a mobile phone, which solves the defects and utilizes a cuboid-shaped machine body, wherein a rectangular cleaning tank is arranged in the middle of the upper part of the machine body, a conical ultrasonic generator is arranged at the bottom of the cleaning tank, a cylindrical stand column is respectively and vertically arranged at four corners of the upper part of the machine body, two cylindrical support rods are longitudinally arranged on the stand column, two cylindrical slideways are transversely arranged on the stand column, a cuboid-shaped trolley is arranged on the slideways, a square-frame-shaped lifting support is vertically arranged on the trolley, a cylindrical lifting cylinder is arranged in the lifting support, a rectangular electromagnet is arranged at the bottom of the lifting support, a disc-shaped support wheel is arranged on the left support rod, a cylindrical servo motor and a disc-shaped synchronous wheel are arranged on the right support rod, The synchronous wheel is connected with the supporting wheel through the annular synchronous belt, the lower part of the synchronous belt is connected with the trolley, and the method can automatically complete the static cleaning of the glass panel without the need of looking after by workers.

An ultrasonic cleaning facility for a glass panel of a mobile phone is characterized by comprising a machine body 1, a control box 2, a baffle plate 3, a cleaning tank 4, an ultrasonic generator 5, a turnover basket 6, an upright post 7, a slide way 8, a support rod 9, a servo motor 10, a synchronous wheel 11, a synchronous belt 12, a support wheel 13, a trolley 14, a lifting support 15, a lifting cylinder 16, an electromagnet 17, a sucker 18, a power supply 19, a display 20, an ultrasonic power supply 21, a multi-channel controller 22, an electromagnet switch 23, an electric control reversing valve 24, an inductor 25, a power line 26 and an air supply pipe 27;

the machine body is in a hollow cuboid shape, a control box is arranged on the left side of the front of the machine body, a cleaning tank is arranged in the middle of the upper part of the machine body in a downward sunken manner, a strip-shaped baffle plate is transversely arranged on the front edge and the rear edge of the upper part of the machine body, a cylindrical upright post with the same height is vertically arranged at each of four corners of the upper part of the machine body, a cylindrical support rod is horizontally and longitudinally arranged between the top ends of the two upright posts on the left side through a triangular tee, a cylindrical support rod is horizontally and longitudinally arranged between the top ends of the two upright posts on the right side through a triangular tee, a cylindrical slide way is horizontally and transversely arranged between the top ends of the two upright posts on the front side through a tee, a cylindrical slide way is horizontally and transversely arranged between the top ends of the, a disc-shaped inductor is arranged in the center of the platform on the left side of the upper surface of the machine body, and a turnover basket is arranged on the inductor;

the cleaning tank is cuboid, the upper part of the cleaning tank is provided with an opening, and the bottom of the cleaning tank is transversely provided with 4-10 conical ultrasonic generators;

the trolley is cuboid and is arranged above the two slideways through two horizontally symmetrical and horizontally arranged round long holes in the middle of the trolley, and the two round long holes are vertically and longitudinally symmetrically arranged in the middle of the two horizontally arranged long holes in the middle of the trolley;

the lifting support is rectangular and square, the frame body is cylindrical, the middle part of the lifting support is arranged in two vertical long holes in the middle part of the trolley, a cylindrical lifting cylinder is vertically arranged in the upper half part of the lifting support, the top end of a piston rod above the lifting cylinder is connected with the lower surface of a cross rod at the top end of the lifting support through a bolt, the bottom of the lifting cylinder is connected with the center above the trolley through a bolt, and the bottom of the lifting support is horizontally connected with a rectangular electromagnet through a bolt;

the servo motor is cylindrical and is arranged on the right supporting rod through a bottom machine foot and a support, and a disc-shaped synchronizing wheel is arranged on the upper surface of a rear middle shaft of the servo motor;

the supporting wheel is disc-shaped and is arranged on the rear side of the left supporting rod through a rectangular bracket, the supporting wheel is connected with the synchronous wheel through an annular synchronous belt, and the middle part of the lower-layer synchronous belt is connected with the rear part of the upper part of the trolley through a buckle;

the turnover basket is rectangular, an opening is formed in the upper part of the turnover basket, stand columns are arranged at four corners of the turnover basket, the periphery and the bottom of the turnover basket are formed by connecting thin metal in a transverse and longitudinal cylindrical shape with the stand columns, two identical rectangular supports are symmetrically welded in the middle of the front part and the rear part, and rectangular iron suckers are horizontally and longitudinally welded at the top ends of the two supports;

the control box is rectangular, a rectangular display is arranged in the front of the control box, and a rectangular power supply, an ultrasonic power supply, a multi-channel controller and an electromagnet switch are arranged in the control box;

the power supply is connected with the input ends of the display, the ultrasonic power supply, the multi-channel controller and the electromagnet switch through circular power lines, the output end of the multi-channel controller is respectively connected with the ultrasonic power supply, the electromagnet switch, the electric control reversing valve, the servo motor and the control end of the inductor through power lines, the output end of the display is connected with the input end of the multi-channel controller through power lines, the output end of the ultrasonic power supply is connected with the ultrasonic generator through power lines, and the output end of the electromagnet switch is connected with the electromagnet through power lines;

the electronic control reversing valve is rectangular and is arranged in the machine body, the air inlet is connected with the pump station through a circular air supply pipe, the front channel is connected with the lower cavity of the lifting cylinder through the air supply pipe, and the rear channel is connected with the upper cavity of the lifting cylinder through the air supply pipe.

An operation method of ultrasonic cleaning facilities for a glass panel of a mobile phone is characterized in that when in use, a worker firstly adds 2/3 cleaning liquid into a cleaning tank, checks the air supply condition of a pump station, turns on a power supply, sets a working program of a multi-channel controller according to working requirements through an operation key on a display, then turns on the multi-channel controller to be in a working state, when a turnover basket filled with the glass panel is pushed onto a platform above the left side of a machine body by a conveying belt of a toughening facility, the sensor informs the multi-channel controller to control a servo motor to drive a synchronous pulley to drive a synchronous belt to rotate clockwise, the lower direction of the synchronous belt moves left and pulls a trolley to move left on the slide synchronously, when an electromagnet at the bottom of a lifting support below the trolley is overlapped with a sucker above the turnover basket, the servo motor stops rotating, the multi-channel controller controls an electrically controlled reversing valve to drive an upper cavity of a lifting cylinder to push a piston, The piston rod pulls the upper part of the lifting support downwards (5-10cm) to enable an electromagnet at the bottom of the lifting support to be attached to a sucker above a turnover basket, the multi-channel controller controls an electromagnet switch to be switched on at the same time, a magnetic field is instantly generated after the electromagnet is switched on to suck the sucker tightly, the multi-channel controller controls the electric control reversing valve again to drive the lower cavity of the lifting cylinder to push the piston rod to move upwards through high-pressure gas, the piston rod pushes the top of the lifting support to enable the lifting support to drive the electromagnet to suck the turnover basket to move upwards synchronously (5-10cm), the multi-channel controller controls the servo motor to rotate anticlockwise again, the servo motor drives the synchronous wheel to drive the synchronous belt to pull the trolley rightwards to the middle part above the cleaning groove to stop, and at the moment, the multi-channel controller controls the electric control reversing valve to drive the upper cavity of the lifting cylinder through a small amount of high, The frame body and the glass panel of the turnover basket are completely immersed in the cleaning liquid, at the moment, the multi-channel controller controls an ultrasonic power supply to start working, the ultrasonic power supply supplies high voltage to an ultrasonic generator, the ultrasonic generator emits ultra-high frequency sound waves to enable the cleaning liquid in the cleaning tank to vibrate at a high speed, the cleaning liquid quickly washes impurities on the surface of the glass panel, the multi-channel controller controls the ultrasonic power supply to be closed after the ultrasonic lasts for 20-50 seconds, at the moment, the multi-channel controller controls an electric control reversing valve to move a piston rod of a lifting cylinder upwards through high-pressure gas, the piston rod pushes a lifting support and the turnover basket to move upwards together, the turnover basket stays for 1-2 minutes when moving to an upper limit, the cleaning liquid attached to the glass panel is slightly removed, and then the multi-channel controller controls a servo motor to drive a synchronous pulley to drive the synchronous pulley to pull the trolley to the right above a platform, The multi-channel controller controls the electric control reversing valve to drive the upper cavity of the lifting cylinder through a small amount of high-pressure gas to enable the piston rod to slowly move downwards (5-10cm) and the bottom of the turnover basket to be slowly placed on the platform, at the moment, the multi-channel controller controls the electromagnet to be switched off, after the magnetic field of the electromagnet disappears instantly and is separated from the sucker, the multi-channel controller controls the electric control reversing valve to push a piston rod of the lifting cylinder upwards through high-pressure gas to enable the lifting support to drive the electromagnet to reset, meanwhile, the multi-channel controller controls the servo motor to rotate reversely to pull the trolley to the upper part of the cleaning tank to stop and standby, at the moment, a mechanical arm of the drying machine can grab the turnover basket on the platform to the drying machine to dry, and after the sensor senses the left side of the machine body again, the upper surface of the platform is pushed into the turnover basket, the multi-channel controller is informed to continue to repeat the cleaning work of the glass panel according to.

Has the advantages that: the chain type cleaning machine is adopted by most of the existing mobile phone glass panel production enterprises when the panel is cleaned, because the chain of the chain type cleaning machine runs continuously, workers need to hang panel turnover baskets manually on hooks of the chain, then the chain drives the turnover baskets to incline to enter the cleaning tank, the turnover baskets entering the cleaning tank are slowly driven by the chain to move forwards and clean, and then the chain lifts the turnover baskets from the other end of the cleaning tank and then the workers take the turnover baskets down from the chain. A rectangular cleaning tank is arranged in the middle of the upper surface of the body, a conical ultrasonic generator is arranged at the bottom of the cleaning tank, a cylindrical stand column is vertically arranged at each of four corners of the upper surface of the body, two cylindrical support rods are longitudinally arranged on the stand column, two cylindrical slideways are transversely arranged on the stand column, a rectangular trolley is arranged on the slideways, a square frame-shaped lifting support is vertically arranged on the trolley, a cylindrical lifting cylinder is arranged in the lifting support, a rectangular electromagnet is arranged at the bottom of the lifting support, a disc-shaped support wheel is arranged on the left support rod, a cylindrical servo motor and a disc-shaped synchronous wheel are arranged on the right support rod, the synchronous wheel is connected with the support wheel through an annular synchronous belt, a plurality of annular grooves are arranged on the right support rod, and a plurality of annular grooves are arranged on the left support rod and the, The lower part of the synchronous belt is connected with the trolley, and the method can automatically complete the static cleaning of the glass panel without the need of looking after by workers.

Drawings

FIG. 1 is a schematic view of a mobile phone glass panel ultrasonic cleaning facility;

FIG. 2 is a schematic view of the transfer basket and the electromagnet;

FIG. 3 is a schematic circuit diagram of a power supply connected with a display, an ultrasonic power supply, a multi-channel controller and an electromagnet switch through power lines, the multi-channel controller is connected with an electric control reversing valve, a servo motor and an inductor through the power lines, the ultrasonic power supply is connected with an ultrasonic generator through the power lines, and the electromagnet switch is connected with an electromagnet through the power lines;

fig. 4 is a schematic view of the connection between the electrically controlled directional valve and the lifting cylinder through the air supply pipe.

Detailed Description

Embodiments of the invention will now be described in detail with reference to the accompanying drawings and reference numerals:

an ultrasonic cleaning facility for a mobile phone glass panel is characterized by comprising a machine body, a control box, a baffle plate, a cleaning tank, an ultrasonic generator (AC > 5000V/2-5A/unit), a turnover basket, a stand column, a slide way, a support rod, a servo motor (DC220V/500W), a synchronizing wheel, a synchronous belt, a supporting wheel, a trolley, a lifting support, a lifting cylinder (< 4kpa), an electromagnet (AC220V/10A), a sucker, a power supply (AC220V/80A, DC220V/75A, DC12V/5A), a display (DC12V/3A), an ultrasonic power supply (AC220V/50A, AC > 5000V), a multi-channel controller (AC220V/20A, DC220V/15A, DC12V/10A), an electromagnet switch (AC220/10A), an electric control reversing valve (DC12V/3A, < 4kpa), a power supply line (3x4 mm), a-, A gas supply pipe (8 kpa);

the machine body is in a hollow cuboid shape, a control box is arranged on the left side of the front of the machine body, a cleaning tank is arranged in the middle of the upper part of the machine body in a downward sunken manner, a strip-shaped baffle plate is transversely arranged on the front edge and the rear edge of the upper part of the machine body, a cylindrical upright post with the same height is vertically arranged at each of four corners of the upper part of the machine body, a cylindrical support rod is horizontally and longitudinally arranged between the top ends of the two upright posts on the left side through a triangular tee, a cylindrical support rod is horizontally and longitudinally arranged between the top ends of the two upright posts on the right side through a triangular tee, a cylindrical slide way is horizontally and transversely arranged between the top ends of the two upright posts on the front side through a tee, a cylindrical slide way is horizontally and transversely arranged between the top ends of the, a disc-shaped inductor is arranged in the center of the platform on the left side of the upper surface of the machine body, and a turnover basket is arranged on the inductor;

the cleaning tank is cuboid, the upper part of the cleaning tank is provided with an opening, and the bottom of the cleaning tank is transversely provided with 4-10 conical ultrasonic generators;

the trolley is cuboid and is arranged above the two slideways through two horizontally symmetrical and horizontally arranged round long holes in the middle of the trolley, and the two round long holes are vertically and longitudinally symmetrically arranged in the middle of the two horizontally arranged long holes in the middle of the trolley;

the lifting support is rectangular and square, the frame body is cylindrical, the middle part of the lifting support is arranged in two vertical long holes in the middle part of the trolley, a cylindrical lifting cylinder is vertically arranged in the upper half part of the lifting support, the top end of a piston rod above the lifting cylinder is connected with the lower surface of a cross rod at the top end of the lifting support through a bolt, the bottom of the lifting cylinder is connected with the center above the trolley through a bolt, and the bottom of the lifting support is horizontally connected with a rectangular electromagnet through a bolt;

the servo motor is cylindrical and is arranged on the right supporting rod through a bottom machine foot and a support, and a disc-shaped synchronizing wheel is arranged on the upper surface of a rear middle shaft of the servo motor;

the supporting wheel is disc-shaped and is arranged on the rear side of the left supporting rod through a rectangular bracket, the supporting wheel is connected with the synchronous wheel through an annular synchronous belt, and the middle part of the lower-layer synchronous belt is connected with the rear part of the upper part of the trolley through a buckle;

the turnover basket is rectangular, an opening is formed in the upper part of the turnover basket, stand columns are arranged at four corners of the turnover basket, the periphery and the bottom of the turnover basket are formed by connecting thin metal in a transverse and longitudinal cylindrical shape with the stand columns, two identical rectangular supports are symmetrically welded in the middle of the front part and the rear part, and rectangular iron suckers are horizontally and longitudinally welded at the top ends of the two supports;

the control box is rectangular, a rectangular display is arranged in the front of the control box, and a rectangular power switch, an ultrasonic power supply, a multi-channel controller and an electromagnet switch are arranged in the control box;

the power switch is connected with the input ends of the display, the ultrasonic power supply, the multi-channel controller and the electromagnet switch through circular power lines, the output end of the multi-channel controller is respectively connected with the ultrasonic power supply, the electromagnet switch, the electric control reversing valve, the servo motor and the control end of the inductor through power lines, the output end of the display is connected with the input end of the multi-channel controller through power lines, the output end of the ultrasonic power supply is connected with the ultrasonic generator through power lines, and the output end of the electromagnet switch is connected with the electromagnet through power lines;

the electronic control reversing valve is rectangular and is arranged in the machine body, the air inlet is connected with the pump station through a circular air supply pipe, the front channel is connected with the lower cavity of the lifting cylinder through the air supply pipe, and the rear channel is connected with the upper cavity of the lifting cylinder through the air supply pipe.

An operation method of ultrasonic cleaning facilities for a glass panel of a mobile phone is characterized in that when in use, a worker firstly adds 2/3 cleaning liquid into a cleaning tank, checks the air supply condition of a pump station, turns on a power supply, sets a working program of a multi-channel controller according to working requirements through an operation key on a display, then turns on the multi-channel controller to be in a working state, when a turnover basket filled with the glass panel is pushed onto a platform above the left side of a machine body by a conveying belt of a toughening facility, the sensor informs the multi-channel controller to control a servo motor to drive a synchronous pulley to drive a synchronous belt to rotate clockwise, the lower direction of the synchronous belt moves left and pulls a trolley to move left on the slide synchronously, when an electromagnet at the bottom of a lifting support below the trolley is overlapped with a sucker above the turnover basket, the servo motor stops rotating, the multi-channel controller controls an electrically controlled reversing valve to drive an upper cavity of a lifting cylinder to push a piston, The piston rod pulls the upper part of the lifting support downwards (5-10cm) to enable an electromagnet at the bottom of the lifting support to be attached to a sucker above a turnover basket, the multi-channel controller controls an electromagnet switch to be switched on at the same time, a magnetic field is instantly generated after the electromagnet is switched on to suck the sucker tightly, the multi-channel controller controls the electric control reversing valve again to drive the lower cavity of the lifting cylinder to push the piston rod to move upwards through high-pressure gas, the piston rod pushes the top of the lifting support to enable the lifting support to drive the electromagnet to suck the turnover basket to move upwards synchronously (5-10cm), the multi-channel controller controls the servo motor to rotate anticlockwise again, the servo motor drives the synchronous wheel to drive the synchronous belt to pull the trolley rightwards to the middle part above the cleaning groove to stop, and at the moment, the multi-channel controller controls the electric control reversing valve to drive the upper cavity of the lifting cylinder through a small amount of high, The frame body and the glass panel of the turnover basket are completely immersed in the cleaning liquid, at the moment, the multi-channel controller controls an ultrasonic power supply to start working, the ultrasonic power supply supplies high voltage to an ultrasonic generator, the ultrasonic generator emits ultra-high frequency sound waves to enable the cleaning liquid in the cleaning tank to vibrate at a high speed, the cleaning liquid quickly washes impurities on the surface of the glass panel, the multi-channel controller controls the ultrasonic power supply to be closed after the ultrasonic lasts for 20-50 seconds, at the moment, the multi-channel controller controls an electric control reversing valve to move a piston rod of a lifting cylinder upwards through high-pressure gas, the piston rod pushes a lifting support and the turnover basket to move upwards together, the turnover basket stays for 1-2 minutes when moving to an upper limit, the cleaning liquid attached to the glass panel is slightly removed, and then the multi-channel controller controls a servo motor to drive a synchronous pulley to drive the synchronous pulley to pull the trolley to the right above a platform, The multi-channel controller controls the electric control reversing valve to drive the upper cavity of the lifting cylinder through a small amount of high-pressure gas to enable the piston rod to slowly move downwards (5-10cm) and the bottom of the turnover basket to be slowly placed on the platform, at the moment, the multi-channel controller controls the electromagnet to be switched off, after the magnetic field of the electromagnet disappears instantly and is separated from the sucker, the multi-channel controller controls the electric control reversing valve to push a piston rod of the lifting cylinder upwards through high-pressure gas to enable the lifting support to drive the electromagnet to reset, meanwhile, the multi-channel controller controls the servo motor to rotate reversely to pull the trolley to the upper part of the cleaning tank to stop and standby, at the moment, a mechanical arm of the drying machine can grab the turnover basket on the platform to the drying machine to dry, and after the sensor senses the left side of the machine body again, the upper surface of the platform is pushed into the turnover basket, the multi-channel controller is informed to continue to repeat the cleaning work of the glass panel according to.

The foregoing is merely a general disclosure of the invention and is not intended to limit the invention in any way; those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the scope of the invention as defined by the appended claims.

Claims (1)

1. An operation method of ultrasonic cleaning facilities for a glass panel of a mobile phone is characterized in that when in use, a worker firstly adds 2/3 cleaning liquid into a cleaning tank, checks the air supply condition of a pump station, turns on a power supply, sets a working program of a multi-channel controller according to working requirements through an operation key on a display, then turns on the multi-channel controller to be in a working state, when a turnover basket filled with the glass panel is pushed onto a platform above the left side of a machine body by a conveying belt of a toughening facility, the sensor informs the multi-channel controller to control a servo motor to drive a synchronous pulley to drive a synchronous belt to rotate clockwise, the lower direction of the synchronous belt moves left and pulls a trolley to move left on the slide synchronously, when an electromagnet at the bottom of a lifting support below the trolley is overlapped with a sucker above the turnover basket, the servo motor stops rotating, the multi-channel controller controls an electrically controlled reversing valve to drive an upper cavity of a lifting cylinder to push a piston, The piston rod pulls the upper part of the lifting support downwards (5-10cm) to enable an electromagnet at the bottom of the lifting support to be attached to a sucker above a turnover basket, the multi-channel controller controls an electromagnet switch to be switched on at the same time, a magnetic field is instantly generated after the electromagnet is switched on to suck the sucker tightly, the multi-channel controller controls the electric control reversing valve again to drive the lower cavity of the lifting cylinder to push the piston rod to move upwards through high-pressure gas, the piston rod pushes the top of the lifting support to enable the lifting support to drive the electromagnet to suck the turnover basket to move upwards synchronously (5-10cm), the multi-channel controller controls the servo motor to rotate anticlockwise again, the servo motor drives the synchronous wheel to drive the synchronous belt to pull the trolley rightwards to the middle part above the cleaning groove to stop, and at the moment, the multi-channel controller controls the electric control reversing valve to drive the upper cavity of the lifting cylinder through a small amount of high, The frame body and the glass panel of the turnover basket are completely immersed in the cleaning liquid, at the moment, the multi-channel controller controls an ultrasonic power supply to start working, the ultrasonic power supply supplies high voltage to an ultrasonic generator, the ultrasonic generator emits ultra-high frequency sound waves to enable the cleaning liquid in the cleaning tank to vibrate at a high speed, the cleaning liquid quickly washes impurities on the surface of the glass panel, the multi-channel controller controls the ultrasonic power supply to be closed after the ultrasonic lasts for 20-50 seconds, at the moment, the multi-channel controller controls an electric control reversing valve to move a piston rod of a lifting cylinder upwards through high-pressure gas, the piston rod pushes a lifting support and the turnover basket to move upwards together, the turnover basket stays for 1-2 minutes when moving to an upper limit, the cleaning liquid attached to the glass panel is slightly removed, and then the multi-channel controller controls a servo motor to drive a synchronous pulley to drive the synchronous pulley to pull the trolley to the right above a platform, The multi-channel controller controls the electric control reversing valve to drive the upper cavity of the lifting cylinder through a small amount of high-pressure gas to enable the piston rod to slowly move downwards (5-10cm) and the bottom of the turnover basket to be slowly placed on the platform, at the moment, the multi-channel controller controls the electromagnet to be switched off, after the magnetic field of the electromagnet disappears instantly and is separated from the sucker, the multi-channel controller controls the electric control reversing valve to push a piston rod of the lifting cylinder upwards through high-pressure gas to enable the lifting support to drive the electromagnet to reset, meanwhile, the multi-channel controller controls the servo motor to rotate reversely to pull the trolley to the upper part of the cleaning tank to stop and standby, at the moment, a mechanical arm of the drying machine can grab the turnover basket on the platform to the drying machine to dry, and after the sensor senses the left side of the machine body again, the upper surface of the platform is pushed into the turnover basket, the multi-channel controller is informed to continue to repeat the cleaning work of the glass panel according to.

Images