CN211254416U - Deep processing glass production line - Google Patents

Abstract

The utility model provides a deep processing glass production line, which comprises a glass conveying line, wherein one end of the glass conveying line is a feeding end, and the other end of the glass conveying line is a discharging end; the glass conveying line is used for conveying glass from the feeding end to the discharging end; follow the feed end to the discharge end of glass transportation line, arrange in proper order and be provided with: the automatic sheet feeding machine comprises an automatic sheet feeding machine, a cutting machine, an edge breaking machine set, an edge grinding machine set, a cleaning machine, a paper laying machine and an automatic sheet discharging device; the utility model discloses deep-processing glass production line sends glass to each device department in proper order through the glass transportation line, can realize that a big piece of glass from the cutting, break off with the fingers and thumb absolutely, edging, washing, spread the paper on line and to the automated production of lower piece overall process, reduce artificial intervention, practice thrift the cost, improve production efficiency.

Description

Deep processing glass production line

Technical Field

The utility model relates to a technical field of glass deep-processing especially relates to a technical field of deep-processing glass production line.

Background

After the plate glass is formed, cutting processing is required, firstly, longitudinal and transverse scratches are scratched on the surface of the plate glass, then, the plate glass is broken by using a longitudinal breaking machine and a transverse breaking machine, and the broken edge of the plate glass is broken. However, in the deep processing production process of glass, especially thin glass, the process arrangement is complicated due to more product specifications and higher product quality requirement, the production process of the deep processing glass is discontinuous by generally adopting off-line production and then carrying by manpower, the number of operators is more, the labor intensity is higher, and the production efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The defect to prior art, the utility model provides a deep-processing glass production line sends glass to each device department in proper order through the glass transportation line, can realize a big piece of glass from the cutting, break off with the fingers and thumb disconnected, edging, washing, spread the automatic production of paper to the lower piece overall process on line, reduce artificial intervention, practice thrift the cost, improve production efficiency.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme:

the deep processing glass production line comprises a glass conveying line, wherein one end of the glass conveying line is a feeding end, and the other end of the glass conveying line is a discharging end; the glass conveying line is used for conveying glass from the feeding end to the discharging end; follow the feed end to the discharge end of glass transportation line, arrange in proper order and be provided with:

the automatic sheet loading machine is arranged at the feeding end and comprises a movable glass frame and a sheet loading swing arm sucker group; the movable glass frame is arranged on one side of the glass conveying line; the upper swing arm sucker group is arranged above the glass conveying line;

the cutting machine comprises a cutting machine positioning device and a cutting travelling tool rest which are sequentially arranged along the conveying direction of the glass conveying line; the cutting machine positioning device is arranged on the glass conveying line, and the cutting travelling tool rest is arranged above the glass conveying line;

the edge breaking and breaking machine set comprises a plurality of edge breaking and breaking devices; the glass breaking and breaking device comprises a glass breaking and breaking device and a glass breaking and breaking device, wherein the glass breaking and breaking device comprises an air cylinder and a breaking knife, and the air cylinder drives the breaking knife to move up and down and is used for breaking glass;

the edge grinding unit comprises two edge grinding machines, namely a first edge grinding machine and a second edge grinding machine; the edging unit also comprises a steering roller table; the first edge grinding machine, the steering roller way and the second edge grinding machine are sequentially arranged along the conveying direction of the glass conveying line, so that the glass is ground when the glass does not stop moving;

the cleaning machine comprises a rolling brush and an air knife which are sequentially arranged along the conveying direction of the glass conveying line, and the rolling brush and the air knife are both arranged above the glass conveying line;

the paper laying machine comprises a cutter and a paper laying mechanism, and the paper laying mechanism and the cutter are both arranged above the glass conveying line;

the automatic piece discharging device is arranged at the discharging end and comprises a piece discharging roller way and a piece discharging machine; the lower sheet roller way is positioned above the glass conveying line; the sheet discharging machine is arranged on one side of the sheet discharging roller way, and a sucking disc is arranged on the sheet discharging machine.

In the above production line for deep processing glass, the assembly of the edge snapping and breaking machine includes two edge snapping and breaking devices, namely a first edge snapping and breaking device and a second edge snapping and breaking device; the edge breaking and breaking unit further comprises two steering devices which are a first steering device and a second steering device respectively; the first edge breaking and breaking device, the first steering device, the second edge breaking and breaking device and the second steering device are sequentially arranged along the conveying direction of the glass conveying line.

In the production line for deep processing glass, each breaking-off device comprises three breaking-off knives and three cylinders; the two breaking-off cutters are arranged above the glass conveying line, and one breaking-off cutter is arranged below the glass conveying line; the three cylinders respectively drive the three breaking-off cutters to move up and down.

In the deep processing glass production line, the glass conveying line turns 90 degrees at the turning device, and the glass is broken into two sections one above the other at the broken edge breaking position before the turning position; the lower section of glass firstly enters the steering device along the glass conveying line;

the steering devices comprise conveying belts and first cylinder lifting mechanisms; the first air cylinder lifting mechanism is positioned below the glass conveying line and used for lifting the glass entering the steering device to be flush with a section of the glass conveying line positioned above; the conveying belt is positioned above the glass conveying line and is used for moving the glass lifted to the upper part to a section of the glass conveying line positioned above.

The deep processing glass production line is characterized in that the cleaning machine comprises a plurality of rollers and a plurality of air knives which are sequentially arranged along the conveying direction of the glass conveying line, and the air knives close to the discharge end are connected with a heating system.

In the production line for deep processing glass, a defect detection device is arranged between the cleaning machine and the paper laying machine, and comprises a lamp tube and a camera; the lamp tube and the camera are respectively positioned at the upper and lower sides of the glass conveying line.

In the production line for deep processing glass, central positioning devices are arranged between the edge breaking and breaking unit and the edge grinding unit and between the defect detection device and the paper laying machine; the central positioning device comprises a belt positioning mechanism and a second cylinder lifting mechanism; the belt positioning mechanism is located above the glass conveying line, and the second cylinder lifting mechanism is located below the glass conveying line.

The deep processing glass production line is characterized in that positioning roller groups are arranged between the automatic glass feeding machine and the cutting machine and between the cleaning machine and the defect detection device, and the positioning roller groups are arranged on the side surfaces of the glass conveying line.

The deep processing glass production line comprises a glass conveying line, a glass paving machine and a glass conveying line, wherein the glass conveying line is arranged on the glass conveying line, and the glass conveying line is arranged on the glass conveying line; the static removing rod, the paper paving mechanism and the static adding rod are sequentially arranged along the conveying direction of the glass conveying line.

The automatic sheet discharging device further comprises a manual sheet discharging table, the manual sheet discharging table is located on the side face of the glass conveying line, and a detection light source is arranged on the manual sheet discharging table.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

the utility model discloses deep-processing glass production line sends glass to each device department in proper order through glass transport line, can realize that a big piece of glass breaks disconnected, edging, washing, spreads the paper to the automated production of lower piece overall process off with the fingers and thumb from the cutting, break off with the fingers and thumb the limit off with the fingers and thumb, reduces artificial intervention, practices thrift the cost, improves production efficiency.

Drawings

FIG. 1 is a schematic view of the structure of a deep processing glass production line of the present invention.

In the drawings:

1. a glass transport line; 101. a feeding end; 102. a discharge end; 2. automatic loading machine; 3. a cutter; 4. breaking off the machine set with the hands off; 5. an edge grinding unit; 6. a cleaning machine; 7. a defect detecting device; 8. paper paving machine; 9. automatic piece device down.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings, which are not intended to limit the present invention.

FIG. 1 is a schematic view of the structure of a deep processing glass production line of the present invention.

Referring to fig. 1, the deep processing glass production line of the present embodiment includes a glass transport line 1, where one end of the glass transport line 1 is a feeding end 101, and the other end is a discharging end 102; the glass conveying line 1 conveys glass from a feeding end 101 to a discharging end 102 so as to realize the automatic production of a large piece of glass from the whole process of cutting, breaking off, edging, cleaning, on-line paper laying to piece discharging. Along the feed end 101 to the discharge end 102 of glass transportation line 1, along the direction of transportation of glass transportation line 1, arrange in proper order and be provided with:

the automatic loading machine 2 is arranged at the feeding end 101 and comprises movable glass and a loading swing arm sucker group. The movable glass frame is arranged at one side of the glass conveying line 1, and a large piece of glass to be processed is prevented on the movable glass frame. The upper swing arm sucker group is arranged above the glass conveying line, and the glass on the movable glass frame is sequentially moved to the glass conveying line 1 through the sucker structure.

And the cutting machine 3 comprises a cutting machine positioning device and a cutting walking tool rest which are sequentially arranged along the conveying direction of the glass conveying line. The cutting machine positioning device is arranged on the glass conveying line 1, and the cutting walking knife rest is arranged above the glass conveying line 1. When the glass is transported to a cutting machine 3 from a glass transporting line 1, the glass is temporarily stopped at the current position, a positioning device of the cutting machine is used for positioning the glass, then a cutting walking tool rest marks scratches on the glass according to the set size requirement, and then the glass is continuously moved along the glass transporting line 1.

The edge breaking and breaking machine set 4 comprises a plurality of edge breaking and breaking devices; the edge breaking and breaking devices comprise air cylinders and breaking knives, and the air cylinders are used for pushing the breaking knives to move up and down. When the glass moves from the cutting machine 3 to the edge snapping and breaking machine group 4 and the scratches on the glass move to the designated positions, the glass stops moving temporarily, the air cylinder pushes the snapping and breaking cutter to be close to the glass, the air cylinder pushes the snapping and breaking cutter to abut against the scratches on the glass to snap the glass, and then the glass continues to move along the glass conveying line 1.

The edge grinding unit 5 comprises two edge grinding machines which are respectively a first edge grinding machine and a second edge grinding machine; the edging unit also comprises a steering roller table; first edging machine turn to the roll table second edging machine is followed glass transport line direction of transportation arranges in proper order, realizes edging glass when glass does not stop moving. When the glass moves from the edge breaking unit 4 to the edge grinding unit 5, the edge grinding unit 5 grinds the edge of the glass flat and grinds a chamfer at the corner of the glass.

And the cleaning machine 6 comprises a rolling brush and an air knife which are sequentially arranged along the conveying direction of the glass conveying line 1, and the rolling brush and the air knife are both arranged above the glass conveying line 1. When the glass moves from the edging unit 5 to the cleaning machine 6, the roller brush cleans stains on the surface of the glass and scraps left after edging, and then the air knife air-dries the glass.

And the paper laying machine 8 comprises a cutter and a paper laying mechanism, and the paper laying mechanism and the cutter are both arranged above the glass conveying line 1. When the glass moves from the cleaning machine 6 to the paper laying machine 8, the paper laying mechanism attaches paper and the glass, and then the paper is cut off by the cutter, so that the automatic paper laying is completed.

The automatic piece discharging device 9 is arranged at the discharging end 102 and comprises a piece discharging roller way and a piece discharging machine. The lower piece roller way is positioned above the glass conveying line 1. The sheet discharging machine is arranged on one side of the sheet discharging roller way, and a sucking disc is arranged on the sheet discharging machine. When the glass moves from the paper laying machine 8 to the automatic sheet discharging device 9, the sheet discharging device moves the glass to a sheet discharging roller way through the suction cups.

The utility model discloses deep-processing glass production line sends glass to each device department in proper order through glass supply line 1, can realize that a big piece of glass from the cutting, break off with the fingers and thumb absolutely, edging, washing, spread the automatic production of paper to the lower piece overall process on line, reduce artificial intervention, practice thrift the cost, improve production efficiency.

The above is merely an example of the preferred embodiments of the present invention, and the embodiments and the protection scope of the present invention are not limited thereby.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, break off with the fingers and thumb disconnected quick-witted group 4 including two break off with the fingers and thumb disconnected device, be respectively first break off with the fingers and thumb disconnected device, the second break off with the fingers and thumb disconnected device. The edge breaking and breaking unit 4 further comprises two steering devices, namely a first steering device and a second steering device. The first edge breaking and breaking device, the first steering device, the second edge breaking and breaking device and the second steering device are sequentially arranged along the conveying direction of the glass conveying line 1. After the glass enters the edge breaking and breaking machine set 4, the first edge breaking and breaking device breaks the glass into a front piece and a rear piece. And then the rear glass sheet is temporarily stopped for standby, the front glass sheet enters the first steering device and enters the second breaking-off device after being transported by 90 degrees, the second breaking-off device breaks the front glass sheet into two glass sheets along the other direction, and the two glass sheets leave the breaking-off unit 4 after being transported by 90 degrees sequentially through the second steering device. And the second edge breaking and breaking device breaks the rear glass into two pieces along the other direction, and the two pieces of glass leave the edge breaking and breaking machine set after being conveyed through the second steering device in a 90-degree mode. The actions are repeated, and the automatic breaking and slicing of the glass is realized.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, every break the limit off with the fingers and thumb disconnected device off with the fingers and thumb and all include three disconnected sword and three cylinder off with the fingers and thumb. The two breaking-off cutters are arranged above the glass conveying line, and the other breaking-off cutter is arranged below the glass conveying line. The three cylinders respectively drive the three breaking-off cutters to move up and down.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, turning to device department, glass transport line 1 turns to 90 degrees to breaking off the department with the fingers and thumb before turning to the department, glass is broken off with the fingers and thumb into two sections one-on-one, and one section glass that is located the below gets into along glass transport line 1 earlier and turns to the device. The steering devices all comprise a conveying belt and a first cylinder lifting mechanism. The first cylinder lifting mechanism is positioned below the glass conveying line 1 and lifts the glass entering the steering device to be level with a section of the glass conveying line 1 positioned above. The conveyor belt is located above the glass transport line 1 and moves the glass lifted above onto a section of the glass transport line 1 located above. Finally, the glass leaves the turning device from the section of the glass conveying line 1 located above, and the conveying direction of the glass is turned by 90 degrees.

Further, in the preferred embodiment of the deep processing glass production line, the edge grinding unit 5 includes two edge grinding machines, namely, a first edge grinding machine and a second edge grinding machine. The edging unit 5 further comprises a steering roller table. The first edge grinding machine, the steering roller way and the second edge grinding machine are sequentially arranged along the conveying direction of the glass conveying line 1. After glass enters the edge grinding unit 5, the first edge grinding machine grinds the short edge of the glass, then the glass passes through the turning roller way, and after the glass rotates for 90 degrees on the glass conveying line, the second edge grinding machine grinds the long edge of the glass, and the angle of the glass is chamfered.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, cleaning machine 6 includes a plurality of running rollers and a plurality of air knife of arranging in proper order along 1 direction of transportation of glass supply line, and the air knife that is close to discharge end 102 is connected with heating system, can dry glass more quickly.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, be provided with defect detection device 7 between cleaning machine 6 and the shop paper machine 8, defect detection device 7 includes fluorescent tube and camera. The lamp tube and the camera are respectively positioned at the upper and lower sides of the glass conveying line 1. The light emitted by the lamp tube is imaged on the camera through the glass, and the imaging is analyzed by the computer. If the glass is stained or water drops, an alarm is given, and the defect of the glass is prompted, and if the glass is qualified, no alarm is given.

Meanwhile, if there is dirt or water droplets on the glass, the defect detecting device 7 sends a signal to the paper laying machine 8, and the paper laying machine 8 does not lay paper on the defective glass.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, break the limit off with the fingers and thumb between disconnected unit 4 and the edging unit 5, all be provided with central positioner between defect detection device 7 and the paper laying machine 8 off with the fingers and thumb. The central positioning device comprises a belt positioning mechanism and a second cylinder lifting mechanism. The belt positioning mechanism is positioned above the glass conveying line 1, and the second cylinder lifting mechanism is positioned below the glass conveying line 1. When the glass moves to the central positioning device, the second cylinder lifting mechanism firstly pushes the glass to the upper part to be separated from the glass conveying line 1, then the belt positioning mechanism is abutted against the side surface of the glass to complete the positioning of the glass, and finally the second cylinder lifting mechanism falls down to enable the glass to return to the glass conveying line 1 and enable the glass to leave the central positioning device along the glass conveying line 1.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, all be provided with the location roller train between automatic loading machine 2 and the cutting machine 3, between cleaning machine 6 and the defect detecting device 7, the location roller train sets up the side of glass transportation line 1. The side surface of the glass is wiped by the positioning roller group, and the side-by-side positioning of the glass is realized through the positioning roller group.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, spread paper machine 8 still including going the static stick and adding the static stick, go the static stick and add the static stick and all set up in the top of glass supply line 1. The static removing rod, the paper spreading mechanism and the static adding rod are sequentially arranged along the conveying direction of the glass conveying line 1. When the glass moves to the paper laying machine 8, the paper laying mechanism feeds paper to the glass, and meanwhile, the static removing rod removes static electricity on the surface of the glass. After the glass is jointed, an electrostatic rod is added to the glass to make the paper firmly jointed with the glass.

Further, the utility model discloses in the preferred embodiment of deep-processing glass production line, automatic piece device 9 still includes artifical piece platform down, and artifical piece platform down is located the side of glass transportation line 1, and is provided with the testing light source under the manual work bench.

If the glass is stained or water drops, the defect detection device 7 also sends a signal to the automatic sheet discharging device 9, the sheet discharging device sends the defective glass to a manual sheet discharging table, the defect on the glass is detected by a detection light source manually, the glass is wiped or cut, and then the glass is lifted down to be separated from the glass conveying line 1.

The utility model discloses deep-processing glass production line's working process as follows:

the automatic glass loading machine 2 moves a large piece of glass to be processed placed on the movable glass plate to the glass conveying line 1, and the positioning roller group between the automatic glass loading machine 2 and the cutting machine 3 realizes the edge-leaning positioning of the glass, so that the glass is gradually moved from the feeding end 101 of the glass conveying line 1 to the discharging end 102 of the glass conveying line 1. In this process, the glass is first moved from the automatic sheet feeder 2 to the cutter 3, and the cutter 3 scratches the glass according to the set size requirements. Then the glass enters a breaking-off unit 4, the breaking-off unit 4 divides a large piece of glass into a plurality of small pieces from the scratch, and the broken small pieces of glass are sent to an edge grinding unit 5. Glass breaks the central positioner between unit 4 and the edging unit 5 with the fingers and thumb through breaking off the limit earlier, gets into edging unit 5 again, and the first edging machine of edging unit grinds the minor face of glass, and the second edging machine grinds the long limit of glass and to the angle fillet of glass. Then the glass enters a cleaning machine 6, the roller brush of the cleaning machine 6 removes stains on the surface of the glass and scraps left by edging, and an air knife carries out air drying on the glass. Then the glass is positioned by the near side of a positioning roller group between the cleaning machine 6 and the fault detection device 7 and enters the fault detection device 7, the fault detection device 7 detects whether stains and water drops exist on the surface of the glass, if the stains or the water drops exist on the glass, the fault detection device 7 gives an alarm, and signals are sent to the paper spreading machine 8 and the automatic sheet discharging device 9. Then, the glass enters a paper laying machine 8 after being centrally positioned by a central positioning device between a fault detection device 7 and the paper laying machine 8, and if the glass has defects, the paper laying machine 8 does not lay paper on the glass; if the glass is defect-free, the paper laying machine 8 makes the paper and the glass closely attached. And finally, the glass enters an automatic sheet discharging device 9, the automatic sheet discharging device 9 moves the glass without defects to a sheet discharging roller way, and the glass with defects is moved to a manual sheet discharging table. The glass on the glass unloading table is manually detected by using a detection light source, wiped or cut, and then lifted down to separate the glass from the glass conveying line 1.

The present invention has been described in detail with reference to the specific embodiments, but the present invention is only by way of example and is not limited to the specific embodiments described above. Any equivalent modifications and substitutions to those skilled in the art are intended to be within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (10)

1. The deep processing glass production line is characterized by comprising a glass conveying line, wherein one end of the glass conveying line is a feeding end, and the other end of the glass conveying line is a discharging end; the glass conveying line is used for conveying glass from the feeding end to the discharging end; follow the feed end to the discharge end of glass transportation line, arrange in proper order and be provided with:

the automatic sheet loading machine is arranged at the feeding end and comprises a movable glass frame and a sheet loading swing arm sucker group; the movable glass frame is arranged on one side of the glass conveying line; the upper swing arm sucker group is arranged above the glass conveying line;

the cutting machine comprises a cutting machine positioning device and a cutting travelling tool rest which are sequentially arranged along the conveying direction of the glass conveying line; the cutting machine positioning device is arranged on the glass conveying line, and the cutting travelling tool rest is arranged above the glass conveying line;

the edge breaking and breaking machine set comprises a plurality of edge breaking and breaking devices; the glass breaking and breaking device comprises a glass breaking and breaking device and a glass breaking and breaking device, wherein the glass breaking and breaking device comprises an air cylinder and a breaking knife, and the air cylinder drives the breaking knife to move up and down and is used for breaking glass;

the edge grinding unit comprises two edge grinding machines, namely a first edge grinding machine and a second edge grinding machine; the edging unit also comprises a steering roller table; the first edge grinding machine, the steering roller way and the second edge grinding machine are sequentially arranged along the conveying direction of the glass conveying line, so that the glass is ground when the glass does not stop moving;

the cleaning machine comprises a rolling brush and an air knife which are sequentially arranged along the conveying direction of the glass conveying line, and the rolling brush and the air knife are both arranged above the glass conveying line;

the paper laying machine comprises a cutter and a paper laying mechanism, and the paper laying mechanism and the cutter are both arranged above the glass conveying line;

the automatic piece discharging device is arranged at the discharging end and comprises a piece discharging roller way and a piece discharging machine; the lower sheet roller way is positioned above the glass conveying line; the sheet discharging machine is arranged on one side of the sheet discharging roller way, and a sucking disc is arranged on the sheet discharging machine.

2. A glass deep processing production line according to claim 1, wherein the edge breaking and breaking machine set comprises two edge breaking and breaking devices, namely a first edge breaking and breaking device and a second edge breaking and breaking device; the edge breaking and breaking unit further comprises two steering devices which are a first steering device and a second steering device respectively; the first edge breaking and breaking device, the first steering device, the second edge breaking and breaking device and the second steering device are sequentially arranged along the conveying direction of the glass conveying line.

3. A further processed glass production line according to claim 2, wherein each of the edge breaking and breaking devices comprises three of the breaking knives and three of the air cylinders; the two breaking-off cutters are arranged above the glass conveying line, and one breaking-off cutter is arranged below the glass conveying line; the three cylinders respectively drive the three breaking-off cutters to move up and down.

4. A further processed glass production line according to claim 2, characterized in that at the turning device, the glass conveying line turns 90 degrees, and at the edge breaking point before the turning point, the glass is broken into two segments one above the other; the lower section of glass firstly enters the steering device along the glass conveying line;

the steering devices comprise conveying belts and first cylinder lifting mechanisms; the first air cylinder lifting mechanism is positioned below the glass conveying line and used for lifting the glass entering the steering device to be flush with a section of the glass conveying line positioned above; the conveying belt is positioned above the glass conveying line and is used for moving the glass lifted to the upper part to a section of the glass conveying line positioned above.

5. A further processed glass production line according to claim 1, wherein the cleaning machine comprises a plurality of said rolling brushes and a plurality of said air knives arranged in sequence along the conveying direction of the glass conveying line, and the air knives near the discharge end are connected with a heating system.

6. A further processed glass production line according to claim 1, wherein a defect detection device is arranged between the cleaning machine and the paper laying machine, and comprises a lamp tube and a camera; the lamp tube and the camera are respectively positioned at the upper and lower sides of the glass conveying line.

7. The deep processing glass production line of claim 6, wherein a center positioning device is arranged between the edge breaking and breaking unit and the edge grinding unit, and between the defect detection device and the paper paving machine; the central positioning device comprises a belt positioning mechanism and a second cylinder lifting mechanism; the belt positioning mechanism is located above the glass conveying line, and the second cylinder lifting mechanism is located below the glass conveying line.

8. The production line of deep-processing glass of claim 6, wherein positioning roller groups are arranged between the automatic loading machine and the cutting machine and between the cleaning machine and the defect detection device, and the positioning roller groups are arranged on the side surface of the glass conveying line.

9. A further processed glass production line according to claim 1, wherein the paper laying machine further comprises a destaticizing rod and a destaticizing rod, both of which are disposed above the glass transport line; the static removing rod, the paper paving mechanism and the static adding rod are sequentially arranged along the conveying direction of the glass conveying line.

10. The deep processing glass production line of claim 1, wherein the automatic sheet unloading device further comprises a manual sheet unloading table, the manual sheet unloading table is located on the side of the glass conveying line, and a detection light source is arranged on the manual sheet unloading table.

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