CN111070453B - Loading and unloading device for large-scale glass processing - Google Patents

Abstract

The invention relates to the technical field of glass processing equipment, and discloses a feeding and discharging device for large-scale glass processing, which comprises a shell, wherein a material rack device which is used for fixing glass and is used for adjusting the distance according to the size of the glass is arranged on the inner side of the shell, the top end of the material rack device corresponds to a discharge hole in one side wall of the shell, a material pushing device is arranged at the top end of the material rack device and positioned at the top of the inner side of the shell, a feeding observation hole is formed in the other side of the shell corresponding to the position of the material rack device, the material rack device comprises two groups of driving components which are crossed and vertically arranged, and the driving components are in transmission. This kind of unloader on large-scale glass processing, through the transmission effect of first initiative lead screw, can make the work or material rest frame realize drawing close each other and keeping away from each other to adapt to the glass product of unidimensional, and can drive the adjusting plate through the second initiative lead screw and remove and make the glass product position that is located the work or material rest frame align so that blevile of push work.

Description

Loading and unloading device for large-scale glass processing

Technical Field

The invention relates to the technical field of glass processing equipment, in particular to a feeding and discharging device for large-scale glass processing.

Background

The glass is an inorganic non-metallic material, is widely applied to the fields of buildings, traffic and the like, and is used for wind insulation and light transmission. But with the improvement of science and technology and the improvement of standard of living, people are higher and higher to glass's operation requirement, like common french window, usually by the huge glass preparation of a monoblock, however this kind of huge glass carries out deep-processing in the mill, the unloading of glass is the thing of comparative difficulty, because glass is huge to lead to weight great, in case certain part atress is uneven during artifical unloading, then can very easily lead to glass breakage, be difficult to guarantee the yield, and large-scale glass is difficult to batch production, mostly all for the customization, consequently also be difficult to through equipment supplementary unloading of going up.

Therefore, the invention provides a loading and unloading device for large-scale glass processing to solve the problems.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the loading and unloading device for large-scale glass processing, which has the advantages of safety, reliability, improvement on working efficiency and the like, and solves the problems in the background art.

(II) technical scheme

In order to realize the purposes of safety, reliability and improvement of working efficiency, the invention provides the following technical scheme: a feeding and discharging device for large-scale glass processing comprises a shell, wherein a material rack device which is used for adjusting the distance according to the size of glass and fixing the glass is arranged on the inner side of the shell, the top end of the material rack device corresponds to a discharging hole in one side wall of the shell, a material pushing device is arranged at the top end of the material rack device and positioned at the top of the inner side of the shell, and a feeding observation hole is formed in the other side of the shell corresponding to the position of the material rack device;

the material rack device comprises two groups of driving components which are crossed and vertically arranged, the driving components are respectively in transmission connection with corresponding movable material rack components, the movable material rack components are symmetrically distributed about the corresponding driving components, the inner sides of each group of movable material rack components are symmetrically provided with circularly rotating feeding mechanisms, the feeding mechanisms are in transmission connection with a first transmission component on one side of the top in the shell through transmission shafts to realize circular rotation, and the corresponding positions of the top of the material rack device are provided with limiting mechanisms;

the pushing device comprises a pushing plate which is arranged at the top of the inner side of the shell and connected with the second transmission assembly to realize circular pushing, and the pushing plate is matched with the top of the feeding mechanism.

Preferably, the movable material frame component comprises a material frame and an adjusting plate, the material frame is symmetrically arranged, the adjusting plate is located between the material frame frames, the feeding mechanism is located in the material frame, the feeding mechanism is fixedly connected with the material frame through a driving shaft and a driven shaft, and one end of the driving shaft extends to the outer side of the material frame.

Preferably, the driving assembly comprises a first driving screw rod, a driven screw rod and a second driving screw rod, the first driving screw rod and the driven screw rod are arranged in parallel and are respectively positioned at the upper part and the lower part of the inner side of the shell, the first driving screw rod and the driven screw rod are respectively in threaded connection with the top and the bottom of the corresponding material rack frame to realize transmission, the second driving screw rod is positioned at the lower part of the inner side of the shell and above the driven screw rod, the second driving screw rod is fixed with the bottom of the inner side of the shell through a supporting seat, the second driving screw rod is vertical to the driven screw rod, and the second driving screw rod is in transmission connection with the adjusting plate, hand wheels are arranged at one ends of the first driving screw rod and the second driving screw rod, which are positioned at the outer side of the shell, the first driving screw rod and the driven screw rod are both bidirectional screw rods, and the first driving screw rod is in transmission connection with the driven screw rod through a chain.

Preferably, the feeding mechanism comprises bent plate chains which are arranged on the inner side of the material rack frame and close to the end parts of the driving shaft and the driven shaft, rubber coating fluency frames are arranged on the outer sides of the bent plate chains and between the corresponding bent plates, and the rubber coating fluency frames circularly move up and down along with the rotation of the bent plate chains.

Preferably, the first transmission assembly comprises a first motor located at the top of the inner side of the housing, a first driving wheel in transmission connection with the first motor, a first driven wheel located at the corresponding end of the driving shaft, a tensioning wheel, and a first transmission chain sequentially bypassing the first driving wheel, the first driven wheel and the tensioning wheel, the tensioning wheel is located at the top of the inner side of the housing and is fixedly connected with the housing through a first tensioning mechanism, and the first driving wheel, the first driven wheel and the tensioning wheel are distributed in a triangular shape, so that the first transmission chain is always tensioned during the movement of the first driven wheel.

Preferably, stop gear includes a plurality of support piece that become to be listed as and set up perpendicularly on the roof in the casing, support piece's bottom all is connected with spacing installing support, and just spacing installing support all is perpendicular with the discharge gate.

Preferably, the second transmission assembly comprises a second motor arranged at the top of the inner side of the shell, a second driving wheel in transmission connection with the second motor, and a second driven wheel in transmission connection with the second driving wheel through a second transmission chain, and the material pushing plates are uniformly arranged on the second transmission chain so as to push out the material in the movement process of the second transmission chain.

Preferably, the bottom of the shell is provided with a roller with a parking mechanism, the feeding observation port corresponds to the second tensioning mechanism, one end of the second tensioning mechanism is fixed on the inner wall of the shell, and the other end of the second tensioning mechanism is connected with the chain so as to keep the chain at a tensioning force.

Preferably, the first driving wheel, the first driven wheel and the tension wheel are symmetrically arranged at the upper part of the inner side of the shell, and the adjacent first driving wheels are in meshing transmission through gears.

Preferably, the first motor and the second motor are respectively located on two sides of the limiting mechanism, the second driving wheel, the second driven wheel and the second transmission chain are respectively located between the supporting pieces arranged in a row, and the second driving wheel and the second driven wheel are rotatably connected with the corresponding supporting pieces.

(III) advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. this kind of unloader on large-scale glass processing, through the transmission effect of first initiative lead screw, can make the work or material rest frame realize drawing close each other and keeping away from each other to adapt to the glass product of unidimensional, and can drive the adjusting plate through the second initiative lead screw and remove and make the glass product position that is located the work or material rest frame align so that blevile of push work.

2. This kind of unloader on large-scale glass processing all sets up feed mechanism in that the work or material rest frame is inside, and the bent plate chain passes through the drive shaft and is fixed in the inboard of work or material rest frame from the driving wheel, and rotates in circulation under the drive of drive shaft, and the rubber coating fluent frame is used for holding up the glass product to the blevile of push of being convenient for more withdraws from the product, also can protect glass to avoid the fish tail when pushing into or withdrawing from the casing.

3. This kind of unloader on large-scale glass processing, the drive shaft drives through first motor to first action wheel, first from the driving system symmetry setting that driving wheel, take-up pulley and first drive chain constitute, every group transmission system corresponds the material frame respectively in order to realize the transmission, and the meshing transmission of adjacent first action wheel through the gear, therefore two sets of transmission systems only need a first motor can realize synchronous drive.

4. This kind of unloader on large-scale glass processing, the glass product is transported to the top back, further restrict the removal of glass product through spacing installing support, and the second motor drives the scraping wings on the second drive chain and pushes out the discharge gate with the product and accomplishes the material loading, still can be used for detecting the sensor that has or not the material at the casing wall mounting with spacing installing support coplanar simultaneously, detect the material through the sensor, if there is the material then work, if there is not the material then send the order for first motor and second motor stop work, and send signal for alarm device, remind operating personnel to notice, thereby realize automatic feeding's function.

Drawings

FIG. 1 is a schematic view of an internal structure of a loading and unloading apparatus for processing large glass;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A; (ii) a

FIG. 3 is a second schematic view of the internal structure of the loading and unloading apparatus for large glass processing;

FIG. 4 is a third schematic view of the internal structure of a loading and unloading apparatus for large glass processing;

FIG. 5 is a schematic view of the overall transmission structure of a loading and unloading device for large glass processing;

FIG. 6 is a side view of a loading and unloading device for large glass processing;

fig. 7 is a perspective view of a loading and unloading device for large glass processing.

In the figure: 1. a housing; 2. a discharge port; 3. a feed sight glass; 4. a material pushing plate; 5. a material frame; 6. an adjustment plate; 7. a drive shaft; 8. a driven shaft; 9. a first active screw rod; 10. a driven screw rod; 11. a second active screw rod; 12. a supporting seat; 13. a hand wheel; 14. a chain; 15. a plate bending chain; 16. coating rubber and fluent frame; 17. a first motor; 18. a first drive wheel; 19. a first driven wheel; 20. a tension wheel; 21. a first drive chain; 22. a first tensioning mechanism; 23. a support member; 24. a limiting mounting bracket; 25. a second motor; 26. a second drive wheel; 27. a second drive chain; 28. a second driven wheel; 29. a roller; 30. a second tensioning mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, a loading and unloading device for large glass processing includes a housing 1, a rack device for fixing glass and adjusting the distance according to the size of the glass is disposed on the inner side of the housing 1, the top end of the rack device corresponds to a material outlet 2 on one side wall of the housing 1, a material pushing device is disposed on the top end of the rack device and located on the top of the inner side of the housing 1, and a material inlet viewing port 3 is disposed on the other side of the housing 1 corresponding to the position of the rack device.

The material rack device comprises two groups of driving assemblies which are crossed and vertically arranged, the driving assemblies are respectively in transmission connection with corresponding movable material rack assemblies, the movable material rack assemblies are symmetrically distributed about the corresponding driving assemblies, the inner sides of each group of movable material rack assemblies are symmetrically provided with circularly rotating feeding mechanisms, the feeding mechanisms are in transmission connection with a first driving assembly on one side of the top in the shell 1 through transmission shafts to realize circular rotation, and the corresponding positions of the top of the material rack device are provided with limiting mechanisms.

The material pushing device comprises a material pushing plate 4 which is arranged at the top of the inner side of the shell 1 and connected with the second transmission assembly to realize circular material pushing, and the material pushing plate 4 is matched with the top of the feeding mechanism.

The material rack frame 5 can be moved close to and away from each other through the transmission action of the first driving screw rod 9 so as to adapt to glass products with different sizes, and the second driving screw rod 11 can drive the adjusting plate 6 to move so that the positions of the glass products on the material rack frame 5 are aligned to facilitate the operation of the material pushing device.

The feeding mechanisms are arranged inside the material frame 5, the bent plate chain 15 is fixed on the inner side of the material frame 5 through the driving shaft 7 and the driven shaft 8 and rotates circularly under the driving of the driving shaft 7, the rubber-coating fluent frame 16 is used for supporting glass products, a material pushing device can conveniently withdraw the products, and the glass can be prevented from being scratched when being pushed into or withdrawn from the shell 1.

The driving shaft 7 is driven by the first motor 17, and transmission systems formed by the first driving wheel 18, the first driven wheel 19, the tensioning wheel 20 and the first transmission chain 21 are symmetrically arranged, each transmission system corresponds to the material frame 5 respectively to realize transmission, and the adjacent first driving wheels 18 are in meshing transmission through gears, so that synchronous transmission can be realized by only one first motor 17 in the two transmission systems.

After the glass product is conveyed to the top, the movement of the glass product is further limited by the limiting mounting bracket 24, and the second motor 25 drives the material pushing plate 4 on the second transmission chain 27 to push the product out of the discharge hole 2 to complete feeding.

Meanwhile, a sensor for detecting whether materials exist or not (the sensor is used for detecting whether materials exist or not, controlling the first motor 17 to rotate and detecting the positions of the materials) can be arranged on the limiting mounting support 24, the materials are detected through the sensor, the sensor works if the materials exist, a command for stopping the first motor 17 and the second motor 25 is sent if the materials do not exist, a signal is sent to an alarm device, the attention of an operator is reminded, and therefore the function of automatic feeding is achieved.

Remove the stock frame subassembly and include stock frame 5 and adjusting plate 6, stock frame 5 symmetry sets up, and adjusting plate 6 is located between stock frame 5, feed mechanism is located stock frame 5, and feed mechanism passes through drive shaft 7 and driven shaft 8 and is connected fixedly with stock frame 5, the one end of drive shaft 7 all extends to the outside of stock frame 5, the size of interval can be adjusted in the removal of stock frame 5, in order to adapt to the glass product of unidimensional, adjusting plate 6 is then neat with the glass product adjustment that is located on stock frame 5, so that blevile of push releases the glass product.

The driving assembly comprises a first driving screw rod 9, a driven screw rod 10 and a second driving screw rod 11, the first driving screw rod 9 and the driven screw rod 10 are arranged in parallel and are respectively positioned at the upper part and the lower part of the inner side of the shell 1, the first driving screw rod 9 and the driven screw rod 10 are respectively in threaded connection with the top and the bottom of the corresponding material rack frame 5 to realize transmission, the second driving screw rod 11 is positioned at the lower part of the inner side of the shell 1 and is positioned above the driven screw rod 10, the second driving screw rod 11 is fixed with the bottom of the inner side of the shell 1 through a supporting seat 12, the second driving screw rod 11 is perpendicular to the driven screw rod 10, the second driving screw rod 11 is in transmission connection with the adjusting plate 6, one ends of the first driving screw rod 9 and the second driving screw rod 11, which are positioned at the outer side of the shell 1, are both provided with hand wheels 13, the first driving screw rod 9 and the driven screw rod, the material frame 5 is respectively positioned at two wind parts of a first driving screw rod 9 and a driven screw rod 10 of the bidirectional screw rod, so that the distance between the material frame frames 5 can be adjusted by driving the first driving screw rod 9, the position of the adjusting plate 6 can be directly moved by driving the second driving screw rod 11, and one end of the screw rod, which is far away from the hand wheel 13, is provided with a position for adjusting the hand wheel 13 and a cover plate for shielding the overhaul position.

The feeding mechanism comprises bent plate chains 15 which are arranged on the inner sides of the material frame frames 5 and close to the end parts of the driving shafts 7 and the driven shafts 8, rubber coating fluent frames 16 are arranged on the outer sides of the bent plate chains 15 and between the corresponding bent plates, and the rubber coating fluent frames 16 move up and down in a circulating mode along with the rotation of the bent plate chains 15.

The first transmission assembly comprises a first motor 17 located at the top of the inner side of the shell 1, a first driving wheel 18 in transmission connection with the first motor 17, a first driven wheel 19 located at the end part corresponding to the driving shaft 7, a tensioning wheel 20 and a first transmission chain 21 sequentially bypassing the first driving wheel 18, the first driven wheel 19 and the tensioning wheel 20, the tensioning wheel 20 is located at the top of the inner side of the shell 1 and is fixedly connected with the shell 1 through a first tensioning mechanism 22, and the first driving wheel 18, the first driven wheel 19 and the tensioning wheel 20 are distributed in a triangular shape, so that the first transmission chain 21 is always tensioned in the moving process of the first driven wheel 19.

Limiting mechanism includes a plurality of support piece 23 that become to be listed as and set up perpendicularly on the roof in casing 1, and support piece 23's bottom all is connected with spacing installing support 24, and just spacing installing support 24 all is perpendicular with discharge gate 2.

The second transmission assembly comprises a second motor 25 arranged at the top of the inner side of the shell 1, a second driving wheel 26 in transmission connection with the second motor 25, and a second driven wheel 28 in transmission connection with the second driving wheel 26 through a second transmission chain 27, and the material pushing plates 4 are uniformly arranged on the second transmission chain 27 so as to push out the material in the movement process of the second transmission chain 27.

The bottom of the shell 1 is provided with a roller 29 with a parking mechanism, the access hole corresponds to a second tensioning mechanism 30, one end of the second tensioning mechanism 30 is fixed on the inner wall of the shell 1, and the other end is connected with the chain 14 to keep the chain 14 in tension.

The first driving wheels 18, the first driven wheels 19 and the tension wheels 20 are symmetrically arranged at the upper part of the inner side of the shell 1, and the adjacent first driving wheels 18 are in meshing transmission through gears.

The first motor 17 and the second motor 25 are respectively located at two sides of the limiting mechanism, the second driving wheel 26, the second driven wheel 28 and the second transmission chain 27 are all located between the supporting pieces 23 arranged in a row, and the second driving wheel 26 and the second driven wheel 28 are rotationally connected with the corresponding supporting pieces 23.

The working principle is as follows:

through the transmission effect of the first driving screw rod 9, the material rack frames 5 can be mutually close to each other and mutually far away to adapt to glass products with different sizes, and the second driving screw rod 11 can drive the adjusting plate 6 to move so that the positions of the glass products on the material rack frames 5 are aligned to facilitate the work of the material pushing device.

The feeding mechanisms are arranged inside the material frame 5, the bent plate chain 15 is fixed on the inner side of the material frame 5 through the driving shaft 7 and the driven shaft 8 and rotates circularly under the driving of the driving shaft 7, the rubber-coating fluent frame 16 is used for supporting glass products, a material pushing device can conveniently withdraw the products, and the glass can be prevented from being scratched when being pushed into or withdrawn from the shell 1.

The driving shaft 7 is driven by the first motor 17, and transmission systems formed by the first driving wheel 18, the first driven wheel 19, the tensioning wheel 20 and the first transmission chain 21 are symmetrically arranged, each transmission system corresponds to the material frame 5 respectively to realize transmission, and the adjacent first driving wheels 18 are in meshing transmission through gears, so that synchronous transmission can be realized by only one first motor 17 in the two transmission systems.

After the glass product is conveyed to the top, the movement of the glass product is further limited by the limiting mounting bracket 24, and the second motor 25 drives the material pushing plate 4 on the second transmission chain 27 to push the product out of the discharge hole 2 to complete feeding.

Meanwhile, a sensor for detecting whether materials exist is arranged on the inner wall of the shell 1 on the same plane with the limiting mounting bracket 24, the materials are detected through the sensor, if the materials exist, the materials work, if the materials do not exist, the commands for stopping the work of the first motor 17 and the second motor 25 are sent, signals are sent to an alarm device, the attention of an operator is reminded, and therefore the function of automatic feeding is achieved.

In order to ensure the moving stability of the adjusting plate 6, the top end of the adjusting plate 6 can be slidably connected with the limit mounting bracket 24, so that the adjusting plate 6 is kept vertical during moving.

The bottom end of the material frame 5 can be provided with an adjusting groove for adjusting the position of the driven shaft 8 so as to tension the bent plate chain 15.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a unloader on large-scale glass processing, includes casing (1), its characterized in that: a material rest device which is used for fixing glass and is used for adjusting the distance according to the size of the glass is arranged on the inner side of the shell (1), the top end of the material rest device corresponds to the discharge hole (2) in one side wall of the shell (1), a material pushing device is arranged on the top end of the material rest device and positioned on the top of the inner side of the shell (1), and a feeding observation hole (3) is formed in the position, corresponding to the material rest device, of the other side of the shell (1);

the material rack device comprises two groups of driving components which are crossed and vertically arranged, the driving components are respectively in transmission connection with corresponding movable material rack components, the movable material rack components are symmetrically distributed about the corresponding driving components, the inner side of each group of movable material rack components is symmetrically provided with a circularly rotating feeding mechanism, the feeding mechanism is in transmission connection with a first driving component on one side of the inner top of the shell (1) through a transmission shaft so as to realize circular rotation, and a limiting mechanism is arranged at a position corresponding to the top of the material rack device;

the pushing device comprises a pushing plate (4) which is arranged at the top of the inner side of the shell (1) and connected with the second transmission assembly to realize circular pushing, and the pushing plate (4) is matched with the top of the feeding mechanism.

2. The loading and unloading device for large-scale glass processing according to claim 1, wherein: remove stock frame subassembly includes stock frame (5) and adjusting plate (6), stock frame (5) symmetry sets up, and adjusting plate (6) are located between stock frame (5), feed mechanism is located stock frame (5), and feed mechanism passes through drive shaft (7) and driven shaft (8) and is connected fixedly with stock frame (5), the one end of drive shaft (7) all extends to the outside of stock frame (5).

3. The loading and unloading device for large-scale glass processing according to claim 2, wherein: the driving assembly comprises a first driving screw rod (9), a driven screw rod (10) and a second driving screw rod (11), the first driving screw rod (9) and the driven screw rod (10) are arranged in parallel and are respectively located on the upper portion and the lower portion of the inner side of the shell (1), the first driving screw rod (9) and the driven screw rod (10) are respectively in threaded connection with the top portion and the bottom portion of the corresponding material rack frame (5) to achieve transmission, the second driving screw rod (11) is located on the lower portion of the inner side of the shell (1) and is located above the driven screw rod (10), the second driving screw rod (11) is fixed with the bottom portion of the inner side of the shell (1) through a supporting seat (12), the second driving screw rod (11) is perpendicular to the driven screw rod (10), the second driving screw rod (11) is in transmission connection with the adjusting plate (6), a hand wheel (13) is arranged at one end, located on the outer side of the shell (1), of the first driving screw rod (9) and one, the first driving screw rod (9) and the driven screw rod (10) are both bidirectional screw rods, and the first driving screw rod (9) is in transmission connection with the driven screw rod (10) through a chain (14).

4. The loading and unloading device for large-scale glass processing according to claim 2, wherein: the feeding mechanism comprises bent plate chains (15) which are arranged on the inner sides of the material frame frames (5) and close to the end parts of the driving shafts (7) and the driven shafts (8), rubber coating fluency frames (16) are arranged on the outer sides of the bent plate chains (15) and between the corresponding bent plates, and the rubber coating fluency frames (16) circularly move up and down along with the rotation of the bent plate chains (15).

5. The loading and unloading device for large-scale glass processing according to claim 2, wherein: the first transmission assembly comprises a first motor (17) located at the top of the inner side of the shell (1), a first driving wheel (18) in transmission connection with the first motor (17), a first driven wheel (19) located at the corresponding end of the driving shaft (7), a tensioning wheel (20) and a first transmission chain (21) which sequentially bypasses the first driving wheel (18), the first driven wheel (19) and the tensioning wheel (20), wherein the tensioning wheel (20) is located at the top of the inner side of the shell (1) and is fixedly connected with the shell (1) through a first tensioning mechanism (22), and the first driving wheel (18), the first driven wheel (19) and the tensioning wheel (20) are distributed in a triangular mode so that the first transmission chain (21) is always tensioned in the moving process of the first driven wheel (19).

6. The loading and unloading device for large-scale glass processing according to claim 5, wherein: the limiting mechanism comprises a plurality of supporting pieces (23) which are arranged in a row and vertically arranged on the inner top wall of the shell (1), the bottom ends of the supporting pieces (23) are connected with limiting mounting brackets (24), and the limiting mounting brackets (24) are perpendicular to the discharge hole (2).

7. The loading and unloading device for large-scale glass processing according to claim 6, wherein: the second transmission assembly comprises a second motor (25) arranged at the top of the inner side of the shell (1), a second driving wheel (26) in transmission connection with the second motor (25), and a second driven wheel (28) in transmission connection with the second driving wheel (26) through a second transmission chain (27), and the material pushing plates (4) are uniformly arranged on the second transmission chain (27) so as to push out materials in the moving process of the second transmission chain (27).

8. The loading and unloading device for large-scale glass processing according to claim 3, wherein: the bottom of the shell (1) is provided with a roller (29) with a parking mechanism, the feeding observation port (3) corresponds to a second tensioning mechanism (30), one end of the second tensioning mechanism (30) is fixed on the inner wall of the shell (1), and the other end of the second tensioning mechanism is connected with the chain (14) so as to enable the chain (14) to keep a tensioning force.

9. The loading and unloading device for large-scale glass processing according to claim 5, wherein: the first driving wheels (18), the first driven wheels (19) and the tensioning wheels (20) are symmetrically arranged at the upper part of the inner side of the shell (1), and adjacent first driving wheels (18) are in meshing transmission through gears.

10. The loading and unloading device for large-scale glass processing according to claim 7, wherein: first motor (17) and second motor (25) are located stop gear's both sides respectively, second action wheel (26), second from driving wheel (28) and second drive chain (27) all are located between support piece (23) that become to be listed as the setting, and second action wheel (26) and second from driving wheel (28) and corresponding support piece (23) rotate and be connected.

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