CN115724593A - AG frosting cleaning line - Google Patents

Abstract

The application relates to the technical field of glass processing, and particularly discloses an AG frosting cleaning line which comprises a feeding machine, a rack, a blanking machine and a control machine which are sequentially arranged according to a frosting processing flow, wherein a transmission device is arranged on the rack, and the rack is sequentially divided into a feeding section, a frosting section, a second cleaning section and a blanking section according to a working section along a processing direction; the conveying device is obliquely arranged along two sides of the conveying direction, a frosting groove used for spraying frosting liquid to a glass processing surface is arranged above the frosting section, a first recovery device is arranged below the frosting groove, a sliding groove of the first recovery device and a recovery box with an opening at the upper end are arranged at the bottom of the sliding groove, a liquid storage tank communicated with the recovery box is arranged outside the recovery box, the liquid storage tank is communicated with a pump, and a liquid feeding pipe is communicated between the pump and the frosting groove; the transmission device of the frosting section adjusts the inclination angle of the transmission surface through the adjusting device. The purpose of this patent is solved current frosting section and is lacked the recovery to frosting liquid, causes the extravagant problem of frosting liquid.

Description

AG frosting cleaning line

Technical Field

The invention relates to the technical field of glass processing, in particular to an AG frosting cleaning line.

Background

The AG glass is called Anti-reflection glass and Anti-glare glass, and is named as Anti-glass by English name, and is glass for performing special processing on the surface of glass. It features that the reflecting surface of original glass is changed into a matte non-reflecting surface (surface with unevenness). The AG glass is mainly used for touch screens, display screens, touch plates, windows and other series. Chemical etching AG is one of the processing technologies of AG glass, and the common production method is a soaking method; the soaking method is a traditional method for producing AG glass, and is divided into two methods, namely a vertical soaking method and a horizontal soaking method, wherein the glass is pretreated by washing, pickling and the like, then enters a frosted pool to be subjected to frosted etching treatment, and the frosted glass is subjected to washing, polishing and thinning processes to prepare the AG glass.

The horizontal soaking method is divided into a manual mode and an automatic mode; the prior art mainly uses an automatic mode, an automatic line horizontal soaking method is to convey glass to a transmission belt after the glass is cleaned by pretreatment, the glass is conveyed to an etching section through the transmission belt, etching liquid with the depth of about 10mm is arranged in a material disc of the etching section, the glass is soaked in liquid medicine and pulled away by the transmission belt, after reaction time is up, the liquid medicine on the surface of the glass is washed away by water, a polishing and thinning process is directly carried out, and the liquid medicine is neutralized after frosting is finished.

The horizontal immersion method is usually adopted to etch each surface of glass, the horizontal immersion method needs to use more frosting liquid once, but the prior AG frosting automatic production line lacks the recovery of the frosting liquid in a frosting section, new frosting liquid needs to be prepared by frosting powder every time the AG frosting automatic production line is used, and the frosting liquid is wasted.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an AG frosting cleaning line, and solves the problem that the frosting liquid is wasted because the frosting liquid is not recovered in the conventional frosting section and the frosting powder needs to be reconfigured into new frosting liquid every time the frosting liquid is used.

In order to solve the problems, the technical scheme adopted by the invention is that an AG frosting cleaning line is sequentially provided with a feeding machine, a frame, a blanking machine and a control machine according to a frosting processing flow, wherein the frame is provided with a transmission device and is sequentially divided into a feeding section, a frosting section, a second cleaning section and a blanking section according to a working section along a processing direction; the glass surface treatment device comprises a plurality of conveying devices, a glass processing surface, a frosting section, a first recovery device sliding groove and a recovery box with an opening at the upper end, wherein the conveying devices are arranged between the frosting groove and the sliding groove in a segmented mode according to working sections, one side of two sides of each conveying device in the conveying direction is higher than the other side of the conveying device, the frosting groove used for spraying frosting liquid onto the glass processing surface is arranged above the frosting section, the first recovery device is arranged below the frosting groove, the first recovery device sliding groove and the recovery box with the opening at the upper end are arranged, and the conveying devices are arranged between the frosting groove and the sliding groove; a valve is arranged at the bottom of the sliding groove, a liquid storage tank communicated with the recovery tank is arranged outside the recovery tank, the liquid storage tank is communicated with a pump, and a liquid delivery pipe is communicated between the pump and the frosting groove; the transmission device of the frosting section adjusts the inclination angle of the transmission surface through an adjusting device, and the adjusting device comprises a fixing frame hinged to one side of the transmission device and a lifting mechanism hinged to the other side of the transmission device.

The technical principle of the scheme is as follows: when the device is used, pretreated plane glass is fed to a feeding section of a rack through a feeding machine, the feeding section is conveyed to a frosting section through a conveying device, a pump pumps frosting liquid into a frosting groove from a liquid storage tank, the frosting liquid is sprayed to a surface to be processed of the glass through the frosting groove, the frosting liquid can slide into a sliding groove due to the fact that the conveying device has a certain inclination angle, the liquid spraying time lasts for 2-3min, the inclination angle of the conveying device is adjusted through a lifting mechanism after the liquid spraying is finished, the conveying device is kept for 30-60s, the inclination angle is improved, the frosting liquid of the glass processing surface can flow into the sliding groove below the conveying device in an accelerated mode, and the frosting liquid is collected in the sliding groove; then the lifting mechanism returns to enable the inclination angle of the frosting section conveying device to be consistent with that of conveying devices of other working sections, and then the glass plate is conveyed to the cleaning section to be cleaned and then discharged to the discharging section.

The beneficial effect that this scheme produced is: 1. adopt from last mode down drenching frosting liquid, make frosting liquid mainly carry out etching processing to treating the machined surface, the conveyer belt that sets up through the slope makes the glass slope, thereby make frosting liquid landing to slip in through going the collection box get into the liquid storage tank and retrieve, 2, adjust the conveyer angle of inclination of frosting section through adjustment mechanism, the gravity that the big bigger glass surface of inclination frosting liquid received is big more, thereby fall to the sliding tray with higher speed in, the amount of residue of glass surface frosting liquid after the reduction frosting, thereby reduce the waste of frosting liquid.

Furthermore, the side wall of the recovery box extends upwards and is connected with a sliding groove in a sliding manner, the lifting mechanism comprises a lifting rod and a moving rod, one end of the lifting rod is fixedly connected with the lower part of the lower side wall of the recovery box, the other end of the lifting rod is fixedly connected with the sliding groove, a secondary moving cavity is formed between one side wall of the sliding groove and one side wall of the recovery box and an extended sliding groove bottom plate, one end of the moving rod is fixedly connected with the bottom plate of the moving cavity, and the other end of the moving rod is hinged with the transmission device; the sliding groove is internally provided with a filter layer, and the communication part of the recovery box and the liquid storage tank is provided with a one-way valve only for fluid to flow from the recovery box to the liquid storage tank.

After the glass plate is sprayed with the frosting liquid, the lifting rod moves upwards and drives the sliding groove to move upwards at the same time, so that the space between the sliding groove and the bottom of the recovery box is enlarged, the bottom of the recovery box is provided with a one-way valve, liquid in the liquid storage tank cannot enter the recovery box, and the frosting liquid is stored in the sliding groove, so that gas cannot enter the recovery box through the valve of the sliding groove, and the space between the sliding groove and the bottom of the recovery box forms negative pressure; when the lifting rod rises to a set position, a valve of the sliding groove is opened, the filtering layer arranged in the sliding groove can slow down the speed of the frosting liquid falling into the recovery box, sediment formed after the frosting liquid reacts with the glass is filtered through the filtering layer, and at the moment, negative pressure is formed between the bottom of the sliding groove and the space in the recovery box, so that the frosting liquid above the filtering layer can be subjected to negative pressure suction filtration, and the frosting liquid can quickly fall into the recovery box through the filtering layer; when the frosting liquid surplus up to the sliding tray is not enough to submerge the filter layer, the outside gas can get into the collection box through the valve of filter layer and sliding tray, make and resume normal atmospheric pressure in the collection box, then close the valve with the lifter return simultaneously, compress the space between sliding tray and the collection box bottom when the lifter moves down, thereby make the atmospheric pressure increase between sliding tray and the collection box, the frosting liquid of collection box bottom is pressed the frosting liquid into the liquid storage tank through the check valve and is retrieved under the effect of atmospheric pressure.

Therefore, when the inclination angle of the conveying device is adjusted, a negative pressure environment is formed in the recovery box, and the filtering speed of the frosting liquid passing through the filtering layer is accelerated; and can retrieve the frosting liquid in the sliding tray when glass board slope is retrieved the frosting liquid, and then avoid frosting liquid to accumulate in the sliding tray and spill over, reducible lifter load that needs promote at every turn simultaneously, and then reduce the energy consumption of lifter.

Further, still be equipped with first washing section, polishing section in proper order between frosting section and the second washing section, the polishing section is including being used for drenching the polishing solution to the polishing groove of glass machined surface, second recovery unit under the polishing groove, and second recovery unit structure is unanimous with first recovery unit. By arranging the polishing section, the glass plate after being cleaned by frosting is polished, integrated processing is realized, and personnel are not required to move the glass after frosting to polishing equipment for polishing.

Furthermore, the second cleaning section is higher than the first cleaning section, a second water tank and a first water tank are respectively arranged on the second cleaning section and the first cleaning section, and an overflow pipe is connected between the first water tank and the second water tank. The second water tank can overflow the redundant clear water to the first water tank through the overflow pipe for recycling.

Further, be equipped with the pole storehouse that is used for placing the lifter along vertical direction in the collection box, the lateral wall parcel in pole storehouse has the plastic layer, and fixed the even there is scalable ripple plastic slab between the top in pole storehouse and the bottom of sliding tray. The lifting rod is protected through the rod bin and the plastic layer, the lifting rod is prevented from being corroded by the frosting liquid, and the air tightness in the recovery box is improved through the rod bin and the telescopic corrugated plastic plate.

Furthermore, the conveying device comprises two parallel conveying frames, a plurality of rubber rollers are rotatably connected between the two conveying frames, a gear at one end of each rubber roller is connected with each other through a toothed belt, one conveying frame is rotatably connected with a motor, and the motor is connected with the gear at one end of each rubber roller through the toothed belt. The rubber rollers can improve the friction force between the glass plate and the conveying device, and a single motor is utilized to drive the plurality of rubber rollers to rotate through the matching of the rack and the gear.

Drawings

FIG. 1 is a schematic view of a production line according to the present invention.

FIG. 2 is a side cross-sectional view of a frosting section of the present invention.

Fig. 3 is a schematic view of fig. 2 after the lifting rod is lowered.

Fig. 4 is a top view of the conveyor of fig. 2.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a feeding machine 1, a rack 2, a feeding section 21, a frosting section 22, a first cleaning section 23, a polishing section 24, a second cleaning section 25, a discharging section 26, a frosting groove 3, an overflow port 31, a recovery box 4, a sliding groove 41, an electric control valve 411, a lifting rod 42, a starting switch 421, a rod bin 422, a corrugated plastic plate 423, a moving rod 43, a connecting rod 431, a fixed plate frame 44, a one-way valve 45, a liquid storage tank 5, a circulating pump 51, a discharging machine 6, a transmission device 7, a conveying frame 71, a rubber roller 72 and a motor 73.

Example 1 is shown in attached figures 1 and 2: an AG frosting cleaning line is characterized in that a feeding machine 1, a rack 2, a blanking machine 6 and a controller for controlling internal mechanical work are sequentially arranged according to a frosting processing flow, a transmission device 7 is arranged on the upper edge of the rack 2, the rack 2 is sequentially divided into a feeding section 21, a frosting section 22, a second cleaning section 25 and a blanking section 26 from left to right according to a working section along a processing direction, and cleaning equipment of the feeding machine 1, the blanking machine 6 and the second cleaning section 25 adopts the existing equipment; the conveying device 7 is arranged along two sides of the conveying direction in a downward inclined mode, and the inclined angle is 15 degrees; a frosting groove 3 for spraying the frosting liquid to the glass processing surface is arranged above the frosting section 22, a first recovery device is arranged below the frosting groove 3, the first recovery device comprises a sliding groove 41 and a recovery box 4 with an opening at the upper end, and a transmission device 7 is arranged between the frosting groove 3 and the sliding groove 41; as shown in fig. 2, a strip-shaped overflow port 31 is provided on the side wall of the frosting groove 3, so that the frosting solution can uniformly flow to the surface to be processed of the glass through the overflow port 31. The bottom of the sliding groove 41 is provided with a plurality of electric control valves 411, the electric control valves 411 are electrically connected with an control machine, the side wall of the recovery box 4 extends upwards and is in sliding connection with the outside of the side wall of the sliding groove 41, the outside of the recovery box 4 is provided with a liquid storage tank 5 communicated with the recovery box 4, the liquid storage tank 5 is communicated with a circulating pump 51, and a liquid feeding pipe is communicated between the circulating pump 51 and the frosting groove 3; the transmission device 7 of the frosting section 22 adjusts the inclination angle of the transmission surface through an adjusting device, and the adjusting device comprises a fixing frame hinged with one side of the transmission device 7 and a lifting mechanism hinged with the other side of the transmission device 7.

As shown in fig. 2, the lifting mechanism includes a lifting rod 42 and a moving rod 43, one end of the lifting rod 42 is fixedly connected with a lower part of the lower side wall of the recycling bin 4 by a bolt, the other end of the lifting rod 42 is fixedly connected with a bottom plate bolt extended from the sliding groove 41, a moving cavity with an opening at the upper end is formed between the inner wall at the left side of the recycling bin 4, the outer wall at the left side of the sliding groove 4 and the extended bottom plate of the sliding groove 41, one end of the moving rod 43 is fixedly connected with the bottom plate bolt of the moving cavity, the other end of the moving rod 43 is hinged with a connecting rod 431, and one end of the connecting rod 431 is hinged with the transmission device 7; the sliding groove 41 is internally provided with a filter layer, sediment formed after reaction of the frosting liquid and the glass is filtered through the filter layer, the recovery box 4 is connected with the liquid storage tank 5 through a pipeline, and a one-way valve 45 only used for allowing fluid to flow from the recovery box 4 to the liquid storage tank 5 is arranged at the communication position of the bottom of the left side wall of the recovery box 4 and the pipeline. The lifting rod 42 adopts an electric control hydraulic cylinder, the lifting rod 42 is electrically connected with a control device, the frame 2 of the frosting section 22 is provided with an infrared sensor, whether the glass to be processed is in place can be detected due to the change of a refraction angle generated after light passes through the glass, the detection data is sent to the control device through the sensor, the sensor is electrically connected with the control device, and the circulating pump 51 of the liquid storage tank 5 is electrically connected with the control device.

As shown in fig. 4, the conveying device 7 includes two parallel conveying frames 71, a plurality of rubber rollers 72 are rotatably connected between the two conveying frames 71, a gear at one end of each rubber roller 72 is connected between each rubber roller 72 through a toothed belt, a motor 73 is rotatably connected to one conveying frame 71, the motor 73 is a circulating motor 73, and the motor 73 connects the gear at one end of each rubber roller 72 through the toothed belt. The number of conveyors 7 is 4 in sections, and the second washing section 25 and the blanking section 26 can also be combined with one conveyor, i.e. 3 conveyors 7 are provided in total.

As shown in fig. 2, two ends of a right lower conveying frame 71 of the conveying device of the frosting section 22 are hinged with a fixed frame, and the fixed frame is fixedly connected with the frame 2 by welding or bolts; two ends of a left upper conveying frame 71 of the conveying device of the frosting section 22 are hinged with a connecting rod 431 of the lifting mechanism, and the connecting rod 431 is hinged with the moving rod 43; so that the upper left transport rack 71 of the transport device of the frosting section 22 can move in an arc shape and thus adjust the inclination angle of the transport device 7.

The second cleaning section 25 comprises a spray pipe which is arranged above the transmission device 7 and fixed with the rack 2 through bolts, and the spray pipe is used for spraying cleaning water to the surface of the glass; a second water tank is arranged below the transmission device 7 and used for collecting the sprayed waste water, and the spraying pipe is connected with a circulating water pump and a circulating water tank.

The feeding machine 1 adopts a conventional glass loading machine with a rotating frame, the blanking machine 6 adopts a conventional glass unloading machine with a rotating frame, when the feeding machine is used, the rotating frame is rotated to the vertical direction, then a glass sheet to be processed is placed on the rotating frame, then the rotating frame is rotated to be horizontal to a loading machine, and then the loading machine is used for loading and loading the glass sheet; the blanking machine 6 is the same.

When the device is used, pretreated plane glass is fed to a feeding section 21 of a rack 2 through a feeding machine 1, the feeding section 21 is conveyed to a frosting section 22 through a conveying device 7, a control machine starts a circulating pump 51, the frosting liquid is pumped into a frosting groove 3 through a liquid storage tank 5 by the circulating pump 51, the frosting liquid is sprayed to a surface to be processed of the glass through an overflow port 31 of the frosting groove 3, the inclined angle of the conveying device 7 is 15 degrees, the frosting liquid can slide into a sliding groove 41, the liquid spraying time lasts 120-180S, the inclined angle of the conveying device 7 is adjusted to 45 degrees through a lifting mechanism after the liquid spraying is finished, the 30-120S is kept, the inclined angle is increased, so that the frosting liquid on the glass processing surface can flow into the sliding groove 41 below in an accelerated mode, and the frosting liquid is collected in the sliding groove 41; then elevating system return makes the inclination of frosting section 22 transmission device 7 get back to 15 to it is unanimous with the conveyer inclination of other working sections, then transmission device conveys the glass board to the second cleaning section and adds water and washs after, then transmits to the ejection of compact section ejection of compact through transmission device, because transmission device's transmission face is the inclined plane of 15 degrees of downward sloping, rivers can be along the glass board in the second basin of setting of second cleaning section down when wasing.

When the lifting rod 42 is moved upwards after the glass plate is sprayed with the frosting liquid, the bottom plate of the sliding groove is pushed to move upwards at the same time, so that the sliding groove 41 is driven to move upwards, the space between the sliding groove 41 and the bottom of the recovery box 4 is enlarged, the bottom of the recovery box 4 is provided with the one-way valve 45, so that the liquid in the liquid storage tank 5 cannot enter the recovery box 4, and the electric control valve 411 in the sliding groove 41 is closed, so that the space between the sliding groove 41 and the bottom of the recovery box 4 forms negative pressure; when the lifting rod 42 is lifted to the set position, the inclination angle of the transmission device 7 is 45 degrees; opening the electric control valve 411 of the sliding groove 41, wherein at the moment, because the frosting liquid is stored in the sliding groove 41, the gas cannot enter the recovery box 4 through the electric control valve 411 of the sliding groove 41, and the space between the bottom of the sliding groove and the bottom of the recovery box still keeps negative pressure; because the filtering layer arranged in the sliding groove 41 can slow down the speed of the frosting liquid falling into the recovery box 4, and at the moment, the bottom of the sliding groove 41 and the space in the recovery box 4 form negative pressure, the frosting liquid above the filtering layer can form the effect of negative pressure suction filtration, so that the frosting liquid can quickly fall into the recovery box 4 through the filtering layer; when the residual amount of the frosting liquid in the sliding groove 41 is not enough to submerge the filter layer, the external air can enter the recovery box 4 through the filter layer and the valve of the sliding groove 41, so that the normal atmospheric pressure is recovered in the recovery box 4, then the controller starts the lifting rod 42 to return and simultaneously closes the electric control valve 411, when the lifting rod 42 moves downwards, the space between the sliding groove 41 and the bottom of the recovery box 4 is compressed, so that the atmospheric pressure between the sliding groove 41 and the recovery box 4 is increased, and the frosting liquid at the bottom of the recovery box 4 is pressed into the liquid storage tank 5 through the one-way valve 45 to be recovered under the action of the atmospheric pressure.

Therefore, when the inclination angle of the transmission device 7 is adjusted to 45 degrees, a negative pressure environment is formed in the recovery box 4 at the same time, and the filtering speed of the frosting liquid passing through the filtering layer is accelerated; moreover, the frosting liquid in the sliding groove 41 can be recovered while the glass plate is obliquely recovered, so that the frosting liquid is prevented from accumulating and overflowing in the sliding groove 41, meanwhile, the loading capacity of the lifting rod 42 which needs to be pushed every time can be reduced, and the energy consumption of the lifting rod 42 is reduced.

Embodiment 2 is basically as shown in fig. 1 and fig. 3, and is different from embodiment 1 in that a first cleaning section 23 and a polishing section 24 are further sequentially arranged between a frosting section 22 and a second cleaning section 25, the polishing section 24 includes a polishing tank for spraying polishing liquid onto a glass processing surface, and a second recovery device is arranged below the polishing tank, and the structure of the second recovery device is identical to that of the first recovery device. By arranging the polishing section 24, the glass plate after being cleaned by frosting is polished, integrated processing is realized, and personnel are not required to move the glass after frosting to polishing equipment for polishing. The second cleaning section 25 is higher than the first cleaning section 23, the first cleaning section 23 is provided with a first water tank, and an overflow pipe is connected between the first water tank and the second water tank. The second water tank can overflow the redundant clear water to the first water tank through the overflow pipe for recycling. The number of the conveying devices 7 is 6 according to the working section, and the second cleaning section 25 and the blanking section 26 can also be combined to use one conveying device, namely 5 in total.

As shown in fig. 3, an electric control valve 411 switch for controlling the electric control valve 411 is arranged on the left inner side wall of the upper part of the recycling bin 4, when the lifting rod 42 is lifted to a set height, the bottom plate extended from the sliding groove 41 can just press down the electric control valve 411 switch, so as to open the electric control valve 411; when the lifting rod 42 is returned, the extended bottom plate of the sliding groove 41 is separated from the electric control valve 411 to be opened and closed, so that the electric control valve 411 is closed.

Be equipped with the pole storehouse 422 that is used for placing lifter 42 along vertical direction in the collection box 4, the lateral wall parcel in pole storehouse 422 has the plastic layer, and fixed the even have scalable ripple plastic slab 423 between the top in pole storehouse 422 and the bottom of sliding tray 41. The lifting rod 42 is protected by the rod bin 422 and the plastic layer, the lifting rod 42 is prevented from being corroded by the frosting liquid, and the air tightness in the recycling box 4 is improved by the rod bin 422 and the telescopic corrugated plastic plate 423.

The frame 2 of the frosting section 22, the first cleaning section 23, the polishing section 24 and the second cleaning section 25 is provided with a cover plate which can seal and protect the processing equipment, and the middle part of the cover plate is made of a transparent plastic plate, so that the observation of an operator is facilitated.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several variations and modifications can be made, which should also be considered as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the utility of the patent. The scope of the claims of the present application shall be defined by the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (6)

1. An AG frosting cleaning line is characterized in that a feeding machine, a rack, a blanking machine and a controller are sequentially arranged according to a frosting processing flow, a transmission device is arranged on the rack, and the rack is sequentially divided into a feeding section, a frosting section, a second cleaning section and a blanking section according to a working section along a processing direction; the method is characterized in that: the glass surface treatment device comprises a plurality of conveying devices, a glass processing surface and a frosting section, wherein the conveying devices are arranged in a segmented mode according to working sections, one of two sides of each conveying device in the conveying direction is higher than the other side of each conveying device, a frosting groove used for spraying frosting liquid onto the glass processing surface is formed above each frosting section, a first recovery device is arranged below each frosting groove and comprises a sliding groove and a recovery box with an opening at the upper end, and the conveying devices are arranged between the frosting grooves and the sliding grooves; a valve is arranged at the bottom of the sliding groove, a liquid storage tank communicated with the recovery tank is arranged outside the recovery tank, the liquid storage tank is communicated with a pump, and a liquid delivery pipe is communicated between the pump and the frosting groove; the transmission device of the frosting section adjusts the inclination angle of the transmission surface through an adjusting device, and the adjusting device comprises a fixing frame hinged to one side of the transmission device and a lifting mechanism hinged to the other side of the transmission device.

2. The AG frosting of claim 1, wherein: the side wall of the recovery box extends upwards and is connected with the sliding groove in a sliding manner, the lifting mechanism comprises a lifting rod and a moving rod, one end of the lifting rod is fixedly connected with the lower part of the side wall of the recovery box, the other end of the lifting rod is fixedly connected with the sliding groove, a side wall of the recovery box and an extended sliding groove bottom plate form a moving cavity, one end of the moving rod is fixedly connected with the bottom plate of the moving cavity, and the other end of the moving rod is hinged with the transmission device; the sliding groove is internally provided with a filter layer, and the communication part of the recovery box and the liquid storage tank is provided with a one-way valve only for fluid to flow from the recovery box to the liquid storage tank.

3. The AG frosting of claim 1, wherein: still be equipped with first washing section, polishing section in proper order between frosting section and the second washing section, the polishing section is including being used for drenching the polishing solution to the polishing groove of glass machined surface, second recovery unit under the polishing groove, and second recovery unit structure is unanimous with first recovery unit.

4. The AG frosting of claim 3, wherein: the second cleaning section is higher than the first cleaning section, a second water tank and a first water tank are respectively arranged on the second cleaning section and the first cleaning section, and an overflow pipe is connected between the first water tank and the second water tank.

5. The AG frosting of claim 2, wherein: the inside vertical direction of following of collection box is equipped with the pole storehouse that is used for placing the lifter, and the lateral wall parcel in pole storehouse has the plastic layer, and fixed the even there is scalable ripple plastic slab between the top in pole storehouse and the bottom of sliding tray.

6. The AG frosting of claim 1, wherein: the conveying device comprises two parallel conveying frames, a plurality of rubber rollers are rotatably connected between the two conveying frames, a gear at one end of each rubber roller is connected with each other through a toothed belt, one conveying frame is rotatably connected with a motor, and the motor is connected with the gear at one end of each rubber roller through the toothed belt.

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