CN117463655A - A glass surface cleaning device for glass production - Google Patents

Abstract

The invention relates to the technical field of glass cleaning, in particular to a glass surface cleaning device for glass production, which comprises a mounting frame and cleaning liquid nozzles, wherein cleaning cloth conveying assemblies are symmetrically and fixedly arranged on the mounting frame up and down, the cleaning liquid nozzles are close to the cleaning cloth conveying assemblies, and the cleaning cloth conveying assemblies on the upper side and the lower side of glass are in transmission connection through a second conveying belt; install the stoving case on the clean cloth conveying subassembly, install the clean subassembly of secondary in the stoving case, stoving case fixed mounting is on the mounting bracket, stoving case one side is pressed close to with glass, clean cloth conveying subassembly part rotates with the mounting bracket to be connected, and another part is located stoving incasement portion and rotates with the stoving case to be connected, the clean subassembly of secondary passes through transmission assembly and rotates and install inside the stoving case and be located one side near glass. The invention ensures that the wiping cloth firstly wets and wipes glass, and then dries and wipes the glass after drying the wiping cloth, thereby ensuring the cleaning effect while continuously working.

Description

A glass surface cleaning device for glass production

Technical field

The present invention relates to the technical field of glass cleaning, and in particular to a glass surface cleaning device for glass production.

Background technique

Glass is an amorphous, inorganic, non-metallic material. It is generally made of a variety of inorganic minerals as the main raw materials, and a small amount of auxiliary raw materials are added. Its main components are silica and other oxides. It is widely used in buildings for insulation. It is a mixture that is transparent to the wind, and there are also colored glass that is mixed with certain metal oxides or salts to show color, and tempered glass made by physical or chemical methods.

Chinese patent CN108745973A discloses a glass surface cleaning device for glass production, which includes a frame. A No. 1 slide rail is fixedly installed on the bottom of the frame. A moving rod is slidingly connected to the No. 1 slide rail through a No. 1 slide block. One end of the moving rod is fixed below. A brush plate is connected, a number of brushes are fixedly connected below the brush plate, and a number of gears are fixedly connected to the other side of the moving rod relative to the brush plate. The beneficial effect is: this device can fix the glass on the frame by being provided with a pressure plate. , the water in the water tank is sprayed through the spray plate through the micro pump to clean the glass. At the same time, the servo motor is turned on to drive the moving rod to the left, and the brush is used to clean the glass. The brush is made of soft brush. It will cause damage to the glass. By setting up a micro fan, the cleaned glass can be air-dried to avoid the traditional drying that softens the glass.

The glass surface cleaning device in the above-mentioned patent documents cleans the glass surface through a brush. Dust on the glass may adhere to the bristles of the brush. When a large amount of glass is continuously cleaned, it is difficult to ensure that the subsequent cleaning of the glass surface is The dust attached to the bristles can clean the glass surface.

Contents of the invention

The purpose of the present invention is to solve the problem in the prior art that when the glass surface is cleaned with a brush, the dust on the glass may adhere to the bristles of the brush. When a large amount of glass is continuously cleaned, it is difficult to ensure that the subsequent cleaning of the glass is Due to the disadvantage that the dust attached to the bristles can clean the glass surface, a glass surface cleaning device for glass production is proposed.

In order to achieve the above purpose, the present invention adopts the following technical solutions:

A glass surface cleaning device for glass production, including a mounting frame and a cleaning liquid nozzle. The mounting frame is symmetrically fixed up and down with a cleaning cloth transmission assembly. The cleaning liquid nozzle is close to the cleaning cloth transmission assembly. The cleaning cloths on both sides of the glass are conveyed. The components are driven and connected through a second conveyor belt;

A drying box is installed on the cleaning cloth transmission component, and a secondary cleaning component is installed in the drying box. The drying box is fixedly installed on the mounting frame, and one side of the drying box is close to the glass, so The secondary cleaning component is rotated and installed inside the drying box through the transmission component and is located on the side close to the glass;

The cleaning cloth transmission assembly includes six main rotating shafts and wiping cloths. The six main rotating shafts are installed side by side in pairs. Four of the main rotating shafts are rotationally connected with the mounting frame and are located on both sides of the outside of the drying box. The other two main rotating shafts are The main rotating shaft is rotatably installed inside the drying box, and the wiping cloth is installed on the main rotating shaft in a U-shaped transmission;

Several secondary cleaning assemblies are uniformly and fixedly installed on the transmission assembly. The secondary cleaning assemblies have a Y-shaped structure. The secondary cleaning assemblies are used to clean rags and glass respectively. The drying box There is an opening on the side close to the glass.

Preferably, one part of the cleaning cloth transmission assembly is rotatably connected to the mounting frame, and the other part is located inside the drying box and is rotatably connected to the drying box. The main rotating shaft outside the drying box is distributed in a trapezoidal shape, and the two lower ones are The main rotating shaft is close to the glass.

Preferably, the secondary cleaning component includes a bracket, a scraper and a friction roller. The bracket has a Y-shaped structure. The two ends of the bracket are different in length. The bracket includes an upper frame above the glass and a lower frame under the glass. The scraper and the friction roller are installed at both ends of the bracket respectively. The surface of the friction roller is evenly provided with a number of protrusions. The shorter end of the upper frame on the glass in the bracket is slidingly connected to both ends of the scraper, and the longer end of the upper frame bracket on the glass is rotationally connected to both ends of the friction roller.

Preferably, the longer end of the lower glass frame in the bracket is fixedly connected to both ends of the scraper, and the longer end of the lower glass frame bracket is slidingly connected to the friction roller through the sliding plate, the sliding plate is slidingly connected to the bracket, and the friction roller rotates with the sliding plate. connect.

Preferably, the transmission assembly includes a conveyor belt loop and a transmission shaft. The four transmission shafts are rotatably installed inside the drying box. The conveyor belt loop is arranged on the transmission shaft to form a trapezoid. The transmission shaft is located between the cleaning cloth transmission mechanism and the glass.

Preferably, a dust adsorption box is fixedly installed in the drying box. The dust adsorption box is located between the transmission components and is fixedly connected to the drying box at both ends. The dust adsorption box is made of rubber material. A friction component is fixedly installed in the adsorption box, and the friction component is used to generate static electricity inside the dust adsorption box.

Preferably, the friction assembly includes a rotational speed adjustment mechanism, a friction plate, a sliding box, a sliding bar, a first rotating bar, a second rotating bar, and a third rotating bar. The rotating speed adjusting mechanism is fixedly installed in the drying box and dust adsorption unit. In the box, both ends of the sliding box are fixedly connected to the dust adsorption box, a sliding groove is provided on the sliding box, the sliding bar is slidably installed in the sliding groove, and one end of the first rotating bar is rotationally connected to the sliding bar. The other end of the first rotating bar is rotatably connected to one end of the second rotating bar. The other end of the second rotating bar is provided with a sliding opening. A limiting block is fixedly installed on one end of the third rotating bar. The limiting block slides Installed in the sliding port, one end of the third rotating bar away from the limiting block is fixedly connected to a rotation speed adjustment mechanism, and the rotation speed adjustment mechanism is used to drive the third rotating rod to rotate.

Preferably, the rotation speed adjustment mechanism includes a large gear, a small gear and a first conveyor belt. The large gear is fixedly sleeved on the transmission shaft. One of the small gears is rotatably installed on the drying box and meshes with the large gear. One of the pinion gears is rotatably mounted on the dust adsorption box, a gear rod is fixedly installed on the pinion gear, the first conveyor belt is sleeved on the gear rod and is fixedly connected to the third rotating bar.

Preferably, the upper cleaning liquid nozzle faces vertically toward the cleaning cloth delivery assembly, and the lower cleaning liquid nozzle faces horizontally toward the cleaning cloth delivery assembly.

Compared with the prior art, the beneficial effects of the present invention are:

1. The glass passes through the cleaning cloth transmission components on the upper and lower sides, so that the cleaning cloth transmission components clean the glass on the upper and lower sides at the same time. During the cleaning process, the cleaning liquid nozzle sprays the configured cleaning agent solution through the cleaning liquid nozzle. On the surface of the wiping cloth, the surface of the wiping cloth and the surface of the glass are wiped by the driving of the main rotating shaft. During the wiping process, water stains will remain on the glass. The wiping cloth enters the inside of the drying box, and the drying box dries the wiping cloth. After drying, the surface is dried, and then the wiper comes into contact with the glass again through the transmission of the main rotating shaft, thereby drying the water stains on the glass surface. The secondary cleaning component located in the drying box is driven by the transmission component in motion. When it reaches the glass surface, the water stains on the glass surface are scraped. When it comes into contact with the surface of the wiping cloth, the surface of the wiping cloth is cleaned. Since the water on the wiping cloth contains cleaning agent, the secondary cleaning component will scrape the glass. The movement can make the water stains remaining on the glass also have a certain cleaning effect on the glass surface during the scraping process. When the glass passes through the upper and lower cleaning cloth conveying components, the glass is cleaned on both sides at the same time, improving the cleaning efficiency;

2. The Y-shaped structure allows the scraper and friction roller to be installed in different ways. When the secondary cleaning components are located on the glass and under the glass, they all have the ability to clean the glass and wiping cloth. The drying box located above the glass The one inside is the upper shelf under the glass, and the one inside the drying box below the glass is the lower shelf under the glass;

3. During the cleaning process of the wiper by the secondary cleaning component, dust attached to the wiper or glass surface will fall. The dust adsorption box above the glass will absorb the fallen dust to prevent it from falling again. On the glass, the dust adsorption box under the glass absorbs the fallen dust and prevents it from falling on the wiping cloth again.

4. The third rotating bar rotates under the driving of the speed adjustment mechanism, so that the limit block slides in the sliding opening, and the second rotating bar is pushed to rotate, thereby driving the first rotating bar to rotate, thereby pushing the sliding bar to reciprocate in the sliding groove. Movement, causing the friction plate to rub against the surface of the dust adsorption box. A wool pad is adhered to the surface of the friction plate, and the dust made of rubber material causes static electricity to be generated on the surface of the dust adsorption box, which can absorb the dust falling from the wiping cloth. On the adsorption box.

Description of the drawings

Figure 1 is a schematic diagram of the internal structure of a glass surface cleaning device for glass production proposed by the present invention;

Figure 2 is a schematic diagram of the internal structure of the cleaning cloth transmission assembly of a glass surface cleaning device for glass production proposed by the present invention;

Figure 3 is a schematic diagram of the internal structure of the drying box above the glass of a glass surface cleaning device for glass production proposed by the present invention;

Figure 4 is a schematic structural view of the upper frame of the glass of a glass surface cleaning device for glass production proposed by the present invention;

Figure 5 is a schematic structural diagram of the lower frame of the glass of a glass surface cleaning device for glass production proposed by the present invention;

Figure 6 is a schematic diagram of the outer structure of the friction component of a glass surface cleaning device for glass production proposed by the present invention;

Figure 7 is a schematic diagram of the inner structure of the friction component of a glass surface cleaning device for glass production proposed by the present invention;

Figure 8 is a schematic diagram of the internal structure of the drying box under the glass of a glass surface cleaning device for glass production proposed by the present invention.

In the picture: 1 cleaning liquid nozzle, 2 cleaning cloth transmission assembly, 21 main rotating shaft, 22 wiping cloth, 3 second conveyor belt, 4 drying box, 5 secondary cleaning assembly, 51 bracket, 52 scraper, 53 friction roller, 54 Protrusion, 55 sliding plate, 6 transmission component, 61 conveyor belt ring, 62 transmission shaft, 7 dust adsorption box, 8 friction component, 81 friction plate, 82 sliding box, 83 sliding bar, 84 first rotating bar, 85 second rotating bar Bar, 86 third rotating bar, 87 limit block, 9 speed adjustment mechanism, 91 large gear, 92 small gear, 93 first conveyor belt.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, rather than all the embodiments.

Referring to Figure 1-8, a glass surface cleaning device for glass production includes a mounting frame and a cleaning liquid nozzle 1. The mounting frame is symmetrically fixed up and down with a cleaning cloth transmission assembly 2. The cleaning liquid nozzle 1 is close to the cleaning cloth transmission assembly 2. The glass The cleaning cloth conveying components 2 on the upper and lower sides are driven and connected through the second conveyor belt 3;

A drying box 4 is installed on the cleaning cloth conveying assembly 2, and a secondary cleaning assembly 5 is installed in the drying box 4. The drying box 4 is fixedly installed on the mounting frame. One side of the drying box 4 is close to the glass, and the cleaning cloth is conveyed One part of the component 2 is rotatably connected to the installation frame, and the other part is located inside the drying box 4 and is rotatably connected to the drying box 4. The secondary cleaning component 5 is rotatably installed inside the drying box 4 through the transmission component 6 and is located on the side close to the glass. ;

The cleaning cloth conveying assembly 2 includes six main rotating shafts 21 and wiping cloths 22. The six main rotating shafts 21 are installed side by side. Four of the main rotating shafts 21 are rotationally connected with the mounting bracket and are located on both sides of the outside of the drying box 4. The other two main rotating shafts are 21 is rotatably installed inside the drying box 4. The main rotating shafts 21 outside the drying box 4 are arranged in a trapezoidal shape, and the two main rotating shafts 21 are close to the glass. There are holes on both sides of the drying box 4, and the cleaning cloth 22 passes through the holes. The mouth is U-shaped and the transmission is installed on the main rotating shaft 21;

Several secondary cleaning components 5 are evenly fixed and installed on the transmission component 6. The secondary cleaning components 5 have a Y-shaped structure. The secondary cleaning components 5 are used to clean the wiper 22 and the glass respectively. The drying box 4 is close to There is an opening on one side of the glass.

One part of the cleaning cloth conveying assembly 2 is rotatably connected to the mounting frame, and the other part is located inside the drying box 4 and is rotatably connected to the drying box 4. The main rotating shaft 21 outside the drying box 4 is distributed in a trapezoidal shape, and the two main rotating shafts 21 below are in contact with the drying box 4. The glass is close to each other. During the transfer process, the wiper 22 first contacts the glass and then enters the drying box 4 for drying. During the drying process, the top of the secondary cleaning component 5 cleans the bottom surface of the wiper 22;

The secondary cleaning component 5 includes a bracket 51, a scraper 52 and a friction roller 53. The bracket 51 has a Y-shaped structure. The two ends of the bracket 51 have different lengths. The bracket 51 includes a glass upper frame and a glass lower frame. The scraper 52 and the friction roller 53 are respectively Installed on both ends of the bracket 51, the surface of the friction roller 53 is evenly provided with a number of protrusions 54. The shorter end of the upper glass shelf bracket 51 is slidingly connected to both ends of the scraper 52, and the longer end of the upper glass shelf bracket 51 is connected with the friction roller 53. The two ends of the roller 53 are rotationally connected. The Y-shaped structure allows the scraper 52 and the friction roller 53 to be installed in different ways. When the secondary cleaning assembly 5 is located on the glass and under the glass, it has the function of cleaning the glass and the wiper 22. Capacity, the drying box 4 located above the glass is the upper shelf of the glass, and the drying box 4 located below the glass is the lower shelf of the glass. The scraper 52 on the upper shelf of the glass rotates to the conveyor belt under the action of gravity. When the circle 61 is above the top of the circle 61, the scraper 52 falls. At this time, the top end of the scraper 52 is lower than the top of the friction roller 53, so that the friction roller 53 contacts the wiping cloth 22 to clean the surface of the wiping cloth 22. When it is turned downward, the sliding plate falls and the scraper 52 It is in contact with the glass, but the friction roller 53 is not in contact with the glass, thereby cleaning the glass;

The longer end of the lower frame under the glass in the bracket 51 is fixedly connected to both ends of the scraper 52. The longer end of the lower frame under the glass in the bracket 51 is slidingly connected to the friction roller 53 through the sliding plate 55. The sliding plate 55 is slidingly connected to the bracket 51. The friction roller 53 is rotatably connected to the sliding plate 55. Under the action of gravity, the friction roller 53 on the frame below the glass rotates to the bottom of the conveyor belt ring 61. When the sliding plate 55 falls, the friction roller 53 contacts the wiping cloth 22 against the surface of the wiping cloth 22. For cleaning, when turned upward, the slide plate falls so that the friction roller 53 is not in contact with the glass, and the scraper 52 is in contact with the glass;

The transmission assembly 6 includes a conveyor belt ring 61 and a transmission shaft 62. The four transmission shafts 62 are rotatably installed inside the drying box 4. The conveyor belt ring 61 is sleeved on the transmission shaft 62 to form a trapezoid. The transmission shaft 62 is located between the cleaning cloth transmission mechanism and the glass. During this time, the transmission component 6 drives the secondary cleaning component 5 to move, so that it can clean the surface of the wiper 22 and the glass surface respectively;

A dust adsorption box 7 is fixedly installed in the drying box 4. The dust adsorption box 7 is located between the transmission components 6 and is fixedly connected to the drying box 4 at both ends. The dust adsorption box 7 is made of rubber material and is fixed inside. A friction component 8 is installed. The friction component 8 is used to generate static electricity inside the dust adsorption box 7. When the secondary cleaning component 5 cleans the wiper 22, dust attached to the wiper 22 or the glass surface will fall off. The dust adsorption box 7 above the glass absorbs the fallen dust to prevent it from falling on the glass again, and the dust adsorption box 7 below the glass absorbs the fallen dust to prevent it from falling on the cleaning cloth 22 again. superior;

The friction component 8 includes a rotation speed adjustment mechanism 9, a friction plate 81, a sliding box 82, a sliding bar 83, a first rotating bar 84, a second rotating bar 85, and a third rotating bar 86. The rotating speed adjusting mechanism 9 is fixedly installed in the drying box 4 In the dust adsorption box 7, both ends of the sliding box 82 are fixedly connected to the dust adsorption box 7. A sliding groove is provided on the sliding box 82. The sliding bar 83 is slidably installed in the sliding groove. One end of the first rotating bar 84 is rotatably connected to the sliding bar 83. , the other end of the first rotating bar 84 is rotatably connected to one end of the second rotating bar 85, the other end of the second rotating bar 85 is provided with a sliding opening, and the limiting block 87 is fixedly installed on one end of the third rotating bar 86, and the limiting block 87 is slidably installed. In the sliding port, one end of the third rotating bar 86 away from the limiting block 87 is fixedly connected to the rotational speed adjustment mechanism 9 . The rotational speed adjustment mechanism 9 is used to drive the third rotating bar 86 to rotate. The third rotating bar 86 is in the rotation speed adjustment mechanism 9 . It is driven to rotate so that the limit block 87 slides in the sliding opening, and the second rotating bar 85 is pushed to rotate, thereby driving the first rotating bar 84 to rotate, thereby pushing the sliding bar 83 to reciprocate in the sliding groove, so that the friction plate 81 The surface of the dust adsorption box 7 is rubbed. A wool pad is adhered to the surface of the friction plate 81, and the dust made of rubber material causes static electricity to be generated on the surface of the dust adsorption box 7, so that the dust falling from the wiper 22 can be adsorbed to the dust adsorption box. 7 on.

The speed adjustment mechanism 9 includes a large gear 91, a small gear 92 and a first conveyor belt 93. The large gear 91 is fixedly sleeved on the transmission shaft 62. A small gear 92 is rotatably installed on the drying box 4 and meshes with the large gear 91. A pinion gear 92 is rotatably installed on the dust adsorption box 7. A gear rod is fixedly installed on the pinion gear 92. The first conveyor belt 93 is sleeved on the gear rod and is fixedly connected to the third rotating bar 86. Since the transmission assembly 6 transmits The rotation speed of the shaft 62 is limited. By increasing the rotation speed of the small gear 92 with the large gear 91, the reciprocating process speed of the friction plate 81 is increased and the static electricity generation effect is improved;

The upper cleaning liquid nozzle 1 faces vertically toward the cleaning cloth delivery assembly 2, and the lower cleaning liquid nozzle 1 faces horizontally toward the cleaning cloth delivery assembly 2. The cleaning liquid nozzles 1 installed in different directions ensure that the cleaning liquid nozzle 1 can spray cleaning liquid to the cleaning cloth 22. superior.

In the present invention, the glass passes through the cleaning cloth conveying assemblies 2 on the upper and lower sides, so that the cleaning cloth conveying assemblies 2 clean the glass on the upper and lower sides at the same time. During the cleaning process, the cleaning liquid nozzle passes the configured cleaning agent solution through the cleaning process. The liquid nozzle is sprayed on the surface of the cleaning cloth 22, and the surface of the cleaning cloth 22 and the glass surface are wiped by the driving of the main rotating shaft 21. During the wiping process, water stains will remain on the glass, and the cleaning cloth 22 enters the inside of the drying box 4 The drying box 4 dries the wiping cloth 22, and then the wiping cloth 22 contacts the glass again through the transmission of the main rotating shaft 21, thereby drying the water stains on the glass surface. It is located in the drying box 4. The secondary cleaning component 5 is driven by the transmission component 6 to scrape the water stains on the glass surface when it moves to the glass surface, and when it moves to contact the surface of the wiper cloth 22, it cleans the surface of the wiper cloth 22. Since the water on the wiping cloth 22 contains cleaning agent, the scraping of the glass by the secondary cleaning component 5 can cause the water stains remaining on the glass to also have a certain cleaning effect on the glass surface during the scraping process. When 2 pieces of the cleaning cloth conveying group are passed, the glass is cleaned on both sides at the same time to improve the cleaning efficiency. At the same time, the cloth is wet wiped on the glass first, and then the wiped cloth is dried and then the glass is dry wiped. While working continuously, it ensures Improved cleaning effect.

The above are only preferred specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto. Any person familiar with the technical field can, within the technical scope disclosed in the present invention, implement the technical solutions of the present invention. Equivalent substitutions or changes of the inventive concept thereof shall be included in the protection scope of the present invention.

Claims (9)

1. A glass surface cleaning device for glass production, including a mounting frame and a cleaning liquid nozzle (1), characterized in that the mounting frame is symmetrically fixed up and down with a cleaning cloth transmission assembly (2), and the cleaning liquid nozzle ( 1) Close to the cleaning cloth transmission assembly (2), the cleaning cloth transmission assembly (2) on the upper and lower sides of the glass is connected through the second conveyor belt (3); A drying box (4) is installed on the cleaning cloth conveying component (2), and a secondary cleaning component (5) is installed in the drying box (4). The drying box (4) is fixedly installed on the installation On the rack, one side of the drying box (4) is close to the glass, and the secondary cleaning component (5) is rotated and installed inside the drying box (4) through the transmission component (6) and is located on the side close to the glass; The cleaning cloth conveying assembly (2) includes six main rotating shafts (21) and wiping cloths (22). The six main rotating shafts (21) are installed side by side, and four of the main rotating shafts (21) rotate with the mounting bracket. Connected and located on both sides of the outside of the drying box (4), the other two main rotating shafts (21) are rotatably installed inside the drying box (4), and the wiper (22) is U-shaped and installed on the main rotating shaft (4). 21) on; Several of the secondary cleaning components (5) are evenly and fixedly installed on the transmission component (6). The secondary cleaning components (5) have a Y-shaped structure, and the secondary cleaning components (5) are respectively used for cleaning. The wiping cloth (22) and the glass are cleaned, and the drying box (4) is provided with an opening on the side close to the glass. 2. A glass surface cleaning device for glass production according to claim 1, characterized in that a part of the cleaning cloth transmission assembly (2) is rotatably connected to the mounting frame, and the other part is located inside the drying box (4). Rotally connected to the drying box (4), the main rotating shafts (21) outside the drying box (4) are arranged in a trapezoidal shape, and the two main rotating shafts (21) below are close to the glass. 3. A glass surface cleaning device for glass production according to claim 1, characterized in that the secondary cleaning component (5) includes a bracket (51), a scraper (52) and a friction roller (53), The bracket (51) has a Y-shaped structure, and the two ends of the bracket (51) have different lengths. The bracket (51) includes an upper frame under the glass and a lower frame under the glass. The scraper (52) and the friction roller (53) They are respectively installed on both ends of the bracket (51). The surface of the friction roller (53) is evenly provided with a number of protrusions (54). The shorter end of the upper frame of the glass in the bracket (51) is in contact with the scraper (52). ) are slidingly connected at both ends, and the longer end of the frame above the glass in the bracket (51) is rotationally connected with both ends of the friction roller (53). 4. A glass surface cleaning device for glass production according to claim 3, characterized in that the longer end of the lower frame of the glass in the bracket (51) is fixedly connected to both ends of the scraper (52), so The lower end of the frame under the glass in the bracket (51) is slidingly connected to the friction roller (53) through a sliding plate (55). The sliding plate (55) is slidingly connected to the bracket (51). The friction roller (53) Rotatingly connected with the sliding plate (55). 5. A glass surface cleaning device for glass production according to claim 1, characterized in that the transmission assembly (6) includes a conveyor belt ring (61) and a transmission shaft (62), and four of the transmission shafts (61) 62) is rotatably installed inside the drying box (4). The conveyor belt ring (61) is sleeved on the transmission shaft (62) to form a trapezoid. The transmission shaft (62) is located between the cleaning cloth transmission mechanism and the glass. 6. A glass surface cleaning device for glass production according to claim 1, characterized in that a dust adsorption box (7) is fixedly installed in the drying box (4), and the dust adsorption box (7) It is located between the transmission components (6), and is fixedly connected to the drying box (4) at both ends. The dust adsorption box (7) is made of rubber material, and a friction component (7) is fixedly installed in the dust adsorption box (7). 8), the friction component (8) is used to generate static electricity inside the dust adsorption box (7). 7. A glass surface cleaning device for glass production according to claim 6, characterized in that the friction component (8) includes a rotation speed adjustment mechanism (9), a friction plate (81), a sliding box (82), The sliding bar (83), the first rotating bar (84), the second rotating bar (85), and the third rotating bar (86), the rotation speed adjustment mechanism (9) is fixedly installed in the drying box (4) and dust adsorption In the box (7), both ends of the sliding box (82) are fixedly connected to the dust adsorption box (7), a sliding groove is provided on the sliding box, and the sliding bar (83) is slidably installed in the sliding groove. One end of the first rotating bar (84) is rotatably connected to the sliding bar (83), and the other end of the first rotating bar (84) is rotatably connected to one end of the second rotating bar (85). The second rotating bar (85) A sliding opening is provided at the other end. A limiting block (87) is fixedly installed on one end of the third rotating bar (86). The limiting block (87) is slidably installed in the sliding opening. The third rotating bar (86) One end away from the limiting block (87) is fixedly connected to the rotational speed adjustment mechanism (9). The rotational speed adjustment mechanism (9) is used to drive the third rotating bar (86) to rotate. 8. A glass surface cleaning device for glass production according to claim 5 or 7, characterized in that the rotation speed adjustment mechanism (9) includes a large gear (91), a small gear (92) and a first conveyor belt ( 93), the large gear (91) is fixedly sleeved on the transmission shaft (62), one of the small gears (92) is rotatably installed on the drying box (4) and meshes with the large gear (91), and the other The pinion gear (92) is rotatably installed on the dust adsorption box (7). A gear rod is fixedly installed on the pinion gear (92). The first conveyor belt (93) is sleeved on the gear rod and connected with the third conveyor belt (93). The three-turn bar (86) is fixedly connected. 9. A glass surface cleaning device for glass production according to claim 1, It is characterized in that the cleaning liquid nozzle (1) above is vertically facing the cleaning cloth delivery assembly (2), The lower cleaning liquid nozzle (1) faces the cleaning cloth delivery assembly (2) horizontally.