CN210388623U - Glass edging system turn to conveyer - Google Patents

Abstract

The utility model discloses a steering and transporting device of a glass edging system, which has the technical scheme that the steering and transporting device comprises a frame, an input assembly and a driving assembly are arranged on the frame, a transporting assembly and a rotating assembly are arranged on the frame, the track of the driving assembly for driving glass to move is mutually vertical to the track of the rotating assembly for driving glass to move, a lifting assembly is arranged on the frame, and the lifting assembly is positioned below the rotating assembly and the transporting assembly; after one side of the glass is ground, the glass is output, the drive assembly is used for driving the input assembly to convey the glass to the input assembly, the lifting assembly lifts the glass and separates from the input assembly, the rotating assembly drives the conveying assembly to output the glass, and the track of the drive assembly for driving the glass to move is perpendicular to the track of the rotating assembly for driving the glass to move, so that the glass can be output by turning to ninety degrees, the glass is conveyed by workers, the workload of the workers is reduced, the working efficiency is improved, and the possibility that the glass cuts the workers is reduced.

Description

Glass edging system turn to conveyer

Technical Field

The utility model relates to a glass production auxiliary assembly, more specifically say, it relates to a glass edging system turn to conveyer.

Background

With the wide application of special glass in industrial production and household life, the demand of glass is increasing day by day, in the process of glass manufacture and processing, in order to ensure the beauty, safety and no hurt to people of glass products, the glass edging technology is widely applied in the field of special glass manufacture, and the edge grinding of plate glass is an important and indispensable link in manufacturing various special glass.

Chinese patent with publication number CN208163297U discloses a glass edge grinding device and a toughened glass production line, the glass edge grinding device includes a frame, a transmission mechanism and an edge grinding mechanism, the transmission mechanism includes a transmission motor and a plurality of rollers, the transmission motor is fixedly mounted on the frame, each roller is in transmission connection with the transmission motor, two ends of each roller are respectively rotatably mounted on two opposite side walls of the frame, the edge grinding mechanism includes two side rough grinding wheels and two side fine grinding wheels, the two side rough grinding wheels are respectively mounted on two opposite side walls of the frame, and the two side fine grinding wheels are respectively mounted on two opposite side walls of the frame. The outer edge of the toughened glass can contact the two edge face rough grinding wheels to further realize rough grinding treatment, and then the outer edge of the toughened glass can move to the two edge face fine grinding wheels to be subjected to fertilization grinding treatment. Therefore, the probability of microcracks at the outer edge of the toughened glass is further reduced, and the probability of edge breakage, corner breakage and spontaneous explosion of the toughened glass is further obviously reduced.

When using the edging device among the prior art, after the edging to one side of glass, when needs grind adjacent limit, need the workman to carry glass this moment, waste time and energy, and because glass's corner is comparatively sharp, easily incised the workman, so need to develop a equipment that turns to transportation glass urgently.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a glass edging system turn to conveyer.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a glass edging system turn to conveyer, includes the frame, be equipped with in the frame and be used for transporting glass's input subassembly and be used for driving the drive assembly of input subassembly motion, be equipped with in the frame and be used for transporting the transport assembly of glass output and drive the runner assembly of transport subassembly motion, the orbit of drive assembly drive glass motion with the orbit mutually perpendicular of runner assembly drive glass motion, be equipped with in the frame and be used for transporting subassembly, runner assembly and the ascending lifting unit of glass, lifting unit is located the below of runner assembly and transport subassembly.

Through adopting above-mentioned technical scheme, after having ground glass one side, with glass output, utilize drive assembly drive input subassembly to carry glass to input assembly on, lifting unit risees glass and breaks away from input assembly, export glass through runner assembly drive transportation subassembly, the orbit that utilizes drive assembly drive glass to move is mutually perpendicular with the orbit that runner assembly drive glass moved to this can turn to ninety degrees output with glass, reduce workman's transport glass, alleviate workman's work burden, and the efficiency of operation is improved, and the possibility that the workman was cut injury to glass is reduced simultaneously.

Further, the input assembly is including setting up axis of rotation and a plurality of live-rollers of equipartition on the axis of rotation lateral wall in the frame, axis of rotation and a plurality of live-rollers constitute input group, be equipped with a plurality of input group in the frame.

Through adopting above-mentioned technical scheme, after glass grinds, the grinding production line exports glass, and glass exports and moves to the live-rollers from grinding the production line on, utilizes multiunit input group transportation glass, increases the stability of glass transportation.

Furthermore, a ring groove for installing the rotating roller is arranged on the side wall of the rotating shaft.

Through adopting above-mentioned technical scheme, install the live-rollers in the annular, increase the area of contact of live-rollers and axis of rotation, reduce and produce gliding possibility between live-rollers and the axis of rotation, be favorable to increasing the axis of rotation and drive the live-rollers rotation, thereby the live-rollers can drive glass removal smoothly.

Furthermore, one end of the rotating shaft is coaxially connected with an input wheel;

the drive assembly is including setting up driving motor in the frame, driving motor's drive shaft coaxial coupling's universal driving shaft, with universal driving pulley of universal driving shaft coaxial coupling, be equipped with the driven shaft in the frame, the axis of driven shaft with the axis mutually perpendicular of axis of rotation, driven shaft coaxial coupling has driven pulley, driving pulley with driven pulley passes through the hold-in range and connects, the equipartition has a plurality of driven arbor wheel on the lateral wall of driven shaft, driven arbor wheel is located the below of input wheel, the input wheel with driven arbor wheel passes through first belt and connects.

Through adopting above-mentioned technical scheme, after glass exports from grinding production line, driving motor drives driving pulley, hold-in range, driven shaft, driven pulley, first belt rotation in proper order to can drive input wheel, axis of rotation and live-rollers and rotate, with this can drive glass smoothly and remove to turning to on the conveyer.

Further, the transportation assembly is including setting up first band pulley and second band pulley in the frame, first band pulley with the second band pulley passes through the second belt and connects, the second belt is followed the axial setting of axis of rotation, first band pulley, second band pulley and second belt constitute output group, and adjacent output group is located the both sides of axis of rotation.

By adopting the technical scheme, after all the glass is moved to the steering and conveying device, the belt is arranged along the axial direction of the rotating shaft, the belt drives the moving track of the glass to be vertical to the moving track of the glass driven by the rotating shaft, so that the glass can be driven to be steered and conveyed by ninety degrees, the manual glass conveying of workers is reduced, the workload of the workers is reduced, the working efficiency is improved, and the possibility of scratching of the workers is reduced; and the glass is moved by utilizing a plurality of groups of output groups, so that the stability of the moving glass is improved.

Furthermore, the rotating assembly comprises a rotating motor arranged on the rack, an output shaft is arranged on the side wall of the rotating motor, a plurality of output belt wheels are uniformly distributed on the side wall of the output shaft, the output belt wheels are located below the first belt wheel, and the second belt bypasses the first belt wheel and the second belt wheel and is connected with the output belt wheels.

Through adopting above-mentioned technical scheme, after glass moved into and turns to conveyer, utilize to rotate motor drive output shaft, band pulley, first band pulley, second band pulley and second belt rotation in proper order to this can realize glass and turn to the output.

Furthermore, a tensioning wheel for tensioning the second belt is arranged on the machine frame.

Through adopting above-mentioned technical scheme, utilize take-up pulley tensioning second belt, increase second belt pivoted stability.

Furthermore, a bracket for fixing the rotating motor, the first belt wheel, the second belt wheel and the output belt wheel is arranged on the frame;

the lifting assembly comprises an air cylinder arranged on a rack, the air cylinder is arranged along the axial direction of a rotating shaft, the end wall of an air cylinder piston rod is hinged with a connecting rod, one end, away from the air cylinder, of the connecting rod is hinged with a connecting frame, two ends of the connecting frame are hinged with a linkage rod, two ends of the linkage rod are respectively provided with an eccentric shaft, two ends of the eccentric shaft are respectively provided with a roller, the axis of the eccentric shaft is parallel to the axis of the roller, the rack is provided with two cross frames connected with the support, one side, away from the support, of each cross frame is provided with a lantern ring for the rollers to roll, and the rack is provided with a rod.

Through adopting above-mentioned technical scheme, after the axis of rotation moved glass into on turning to the conveyer, the cylinder promotes the connecting rod, the link, trace and eccentric shaft reciprocating motion, thereby can promote the gyro wheel and roll on the lantern ring, and then promote crossbearer and support and reciprocate, when needs output glass, the cylinder promotes crossbearer and support rebound, can promote the belt rebound, thereby glass breaks away from the live-rollers, utilize at last to rotate motor drive second belt and rotate, export glass, with this can turn to glass output, replace the manual transport glass of workman, alleviate workman work burden, and the work efficiency is improved, also can reduce glass fish tail workman's possibility.

Further, the live-rollers include that two concatenations are the annular ring roller of circle, the one end of ring roller be equipped with the lug, the other end and the unsmooth complex recess of lug, be equipped with the locating hole on the lateral wall of ring roller, be equipped with spacing hole on the lateral wall of lug, be equipped with the gag lever post that passes locating hole and spacing hole on the lateral wall of ring roller, the one end threaded connection that the gag lever post passed the ring roller has lock nut.

Through adopting above-mentioned technical scheme, when the installation live-rollers, utilize lug and recess unsmooth cooperation, assemble two ring rollers each other, pass locating hole and spacing hole with the gag lever post again, utilize lock nut to lock the gag lever post at last, be favorable to convenient and fast's installation live-rollers.

To sum up, the utility model discloses following beneficial effect has:

1. the driving assembly is used for driving the input assembly to drive the glass to move into the steering transportation device, the lifting assembly is used for pushing the transportation assembly, the rotating assembly and the glass to rise, the glass is separated from the input assembly, the rotating assembly drives the transportation assembly to drive the glass to output and steer the transportation device, and the moving track of the glass driven by the driving assembly is perpendicular to the moving track of the glass driven by the rotating assembly, so that the glass can be steered and output, the labor force generated by workers in glass carrying is reduced, the efficiency is improved, and the possibility of injury of the workers is reduced;

2. the second belt is tensioned by the tensioning wheel, so that the rotation stability of the second belt is increased;

3. the convex blocks of the two ring rollers are matched with the concave grooves in a concave-convex mode, the limiting rods penetrate through the positioning holes and the limiting holes, and then the bolts are locked, so that the rotating rollers can be installed conveniently and quickly.

Drawings

Fig. 1 is a schematic structural view showing embodiment 1.

Fig. 2 is a schematic structural view of the bottom of embodiment 1.

Fig. 3 is a schematic structural diagram of an input assembly and a driving assembly in an embodiment.

FIG. 4 is a schematic structural diagram of a transport assembly embodying an embodiment.

Fig. 5 is a schematic structural diagram of a lifting assembly in an embodiment.

FIG. 6 is a sectional view of an eccentric shaft and a roller embodying the embodiment.

Fig. 7 is a schematic structural view of embodiment 2.

Fig. 8 is a sectional view showing a-a in fig. 7.

In the figure: 1. a frame; 10. a support; 2. an input component; 20. a rotating shaft; 21. a rotating roller; 22. inputting a group; 23. a ring groove; 24. an input wheel; 25. a ring roller; 26. a bump; 27. a groove; 28. positioning holes; 29. a limiting hole; 200. a limiting rod; 210. locking the nut; 3. a drive assembly; 30. a drive motor; 31. a driving pulley; 32. a driven shaft; 33. a driven pulley; 34. a synchronous belt; 35. a driven shaft wheel; 36. a first belt; 37. a linkage shaft; 4. a transport assembly; 40. a first pulley; 41. a second pulley; 42. a second belt; 43. outputting the group; 5. a rotating assembly; 50. rotating the motor; 51. an output shaft; 52. an output pulley; 53. a tension wheel; 6. a lifting assembly; 60. a cylinder; 61. a connecting rod; 62. a connecting frame; 63. a linkage rod; 64. an eccentric shaft; 65. a roller; 66. a cross frame; 67. a collar; 68. a rod seat; 69. and supporting the wheels.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to fig. 1 and 2, a turning and conveying device of a glass edge grinding system comprises a frame 1, wherein an input assembly 2 for conveying glass and a driving assembly 3 for driving the input assembly 2 to move are arranged on the frame 1, a conveying assembly 4 for outputting glass and a rotating assembly 5 for driving the conveying assembly 4 to move are arranged on the frame 1, the track of the driving assembly 3 for driving the glass to move is perpendicular to the track of the rotating assembly 5 for driving the glass to move, and a lifting assembly 6 for lifting the conveying assembly 4, the rotating assembly 5 and the glass is arranged on the frame 1.

Referring to fig. 1 and 2, the lifting assembly 6 is located below the rotating assembly 5 and the transport assembly 4; after one side of glass is ground, utilize 3 drive input assembly 2 of drive assembly to drive glass immigration to turn to on the conveyer, lifting unit 6 drive transportation assembly 4, runner assembly 5 and glass rise, runner assembly 5 drives transportation assembly 4 again and drives the glass output, the orbit that the drive assembly 3 drive glass removed and runner assembly 5 drive glass removed is mutually perpendicular, drive glass ninety degrees and turn to the output with this, reduce the work burden that the workman carried glass, improve work efficiency, the possibility by the glass fish tail when reducing the workman and carry glass.

Referring to fig. 3, the input assembly 2 includes a rotating shaft 20 disposed on the frame 1 and a plurality of rotating rollers 21 uniformly distributed on the side walls of the rotating shaft 20, the rotating rollers 21 are made of rubber, the rotating shaft 20 is disposed along the length direction of the frame 1, and one end of the rotating shaft 20 is coaxially connected with an input wheel 24; the side wall of the rotating shaft 20 is provided with a ring groove 23 for installing the rotating roller 21, the rotating roller 21 is installed in the ring groove 23, the friction force between the rotating roller 21 and the ring groove 23 is increased, and the possibility of rotation between the rotating roller 21 and the rotating shaft 20 is reduced.

Referring to fig. 3, the rotating shaft 20 and the plurality of rotating rollers 21 form an input group 22, the rack 1 is provided with the plurality of input groups 22, the plurality of input shafts are uniformly distributed along the width direction of the rack 1, and the plurality of input groups 22 move glass, so that the stability of moving the glass is improved.

Referring to fig. 3, the driving assembly 3 includes a driving motor 30 disposed on the frame 1, a linkage shaft 37 coaxially connected to a driving shaft of the driving motor 30, and a driving pulley 31 coaxially connected to the linkage shaft 37, a driven shaft 32 is disposed on the frame 1, the driven shaft 32 is disposed above the driving pulley 31, an axis of the driven shaft 32 is perpendicular to an axis of the rotating shaft 20, the driven shaft 32 is coaxially connected to a driven pulley 33, and the driving pulley 31 and the driven pulley 33 are connected by a synchronous belt 34; by utilizing the driven shaft 32 to be perpendicular to the rotating shafts 20, the driven shaft 32 can drive the rotating shafts 20 to rotate simultaneously, and a mode that one driving motor 30 drives one rotating shaft 20 to rotate is replaced, so that the use of the driving motor 30 can be reduced, and the cost is saved.

Referring to fig. 3, a plurality of driven shaft wheels 35 are uniformly distributed on the side wall of the driven shaft 32, the driven shaft wheels 35 are located below the input wheel 24, and the input wheel 24 and the driven shaft wheels 35 are connected through a first belt 36; after glass is ground, when the adjacent side walls of the glass need to be ground, the grinding production line outputs the glass, the driving motor 30 sequentially drives the driving belt wheel 31, the synchronous belt 34, the driven belt wheel 33 and the driven shaft 32 to rotate, the driven shaft wheel 35, the first belt 36, the input wheel 24, the rotating shaft 20 and the rotating roller 21 are further driven to rotate, and therefore the rotating roller 21 can smoothly move the glass to the steering transportation device.

Referring to fig. 4, the transportation assembly 4 includes a first belt wheel 40 and a second belt wheel 41 disposed on the frame 1, the first belt wheel 40 and the second belt wheel 41 are connected by a second belt 42, the second belt 42 is disposed along the axial direction of the rotating shaft 20, the first belt wheel 40, the second belt wheel 41 and the second belt 42 form output groups 43, adjacent output groups 43 are disposed on two sides of the rotating shaft 20, and the plurality of output groups 43 are used for driving the glass to move, thereby increasing the stability of the moving glass.

Referring to fig. 5, the rotating assembly 5 includes a rotating motor 50 disposed on the frame 1, the rotating motor 50 employs a helical gear reduction motor, an output shaft 51 is disposed on a side wall of the rotating motor 50, a plurality of output belt wheels 52 are uniformly distributed on a side wall of the output shaft 51, the output belt wheels 52 are disposed below the first belt wheel 40, the second belt 42 bypasses the first belt wheel 40 and the second belt wheel 41 and is in belt connection with the output belt wheel 52, the first belt wheel 40, the second belt wheel 41 and the output belt wheel 52 are synchronous belt wheels, and the second belt 42 is a synchronous belt.

Referring to fig. 4, the frame 1 is provided with a tension pulley 53 for tensioning the second belt 42, so as to increase the stability of the rotation of the second belt 42; when glass needs to be output, the rotating motor 50 sequentially drives the output shaft 51, the first belt wheel 40, the second belt wheel 41, the third belt wheel and the second belt 42 to rotate, so that the glass can be driven to smoothly move out of the steering and conveying device, the workload of workers for manually carrying the glass is reduced, the working efficiency is improved, and the possibility of scratching the workers is also reduced.

Referring to fig. 4, a bracket 10 for fixing a rotation motor 50, a first pulley 40, a second pulley 41 and an output pulley 52 is disposed on the frame 1, and the bracket 10 is located between two adjacent rotation shafts 20;

referring to fig. 5 and 6, the lifting assembly 6 includes an air cylinder 60 disposed on the frame 1, the air cylinder 60 is disposed along the axial direction of the rotating shaft 20, the air cylinder 60 is disposed between the driven shaft 32 (refer to fig. 3) and the output shaft 51 and disposed along the axial direction of the rotating shaft 20, an end wall of a piston rod of the air cylinder 60 is hinged with a connecting rod 61, one end of the connecting rod 61 away from the air cylinder 60 is hinged with a connecting frame 62, both ends of the connecting frame 62 are hinged with a linking rod 63, the connecting frame 62 is disposed along the axial direction of the rotating shaft 20, both ends of the linking rod 63 are provided with eccentric shafts 64, a maximum stroke of up-down movement of the eccentric shafts 64 is greater than a distance between the second belt 42 (refer to fig. 4) and the rotating roller 21, the two eccentric shafts 64 are disposed on both sides of the air cylinder 60, an axis of the eccentric shafts 64 is perpendicular.

Referring to fig. 5 and 6, two cross frames 66 connected to the bracket 10 are disposed on the frame 1, the cross frames 66 are disposed along the width direction of the second belt 42 (see fig. 4), a collar 67 for rolling the roller 65 is disposed on a side of the cross frame 66 away from the bracket 10, a rod seat 68 for supporting the eccentric shaft 64 is disposed on the frame 1, a support wheel 69 for passing the eccentric shaft 64 is disposed on the rod seat 68, and the eccentric shaft 64 is rotatably connected to the support wheel 69; the air cylinder 60 pushes the connecting rod 61, the connecting frame 62, the linkage rod 63 and the eccentric shaft 64 to move back and forth, so that the roller 65 is driven to push the cross frame 66 and the support 10 to move up and down, when the glass needs to be moved out to turn the conveying device, the air cylinder 60 moves the eccentric shaft 64 forward to push the support 10 up, so that the second belt 42 and the glass are pushed upwards to separate the glass from the rotating roller 21, the second belt 42 can smoothly output the glass, and therefore the working mode that workers manually carry the glass to turn can be replaced, the work burden of the workers is reduced, the work efficiency is improved, and the possibility that the workers are scratched is reduced.

The implementation principle of the above embodiment is as follows: utilize 3 drive input assembly 2 of drive assembly to move into glass and turn to on the conveyer, lifting unit 6 promotes glass, transport assembly 4 and runner assembly 5 shift up, break away from input assembly 2 with glass, runner assembly 5 promotes transport assembly 4 again and removes glass, the orbit that utilizes drive assembly 3 to drive glass and runner assembly 5 to drive the orbit mutually perpendicular that glass removed, so as to turn to glass ninety degrees and export, reduce workman's transport glass's work burden, and the efficiency of work is improved, and the possibility that the reduction workman was by the fish tail is reduced.

Example 2:

a turning and conveying device of a glass edging system is disclosed, and referring to fig. 7 and 8, based on embodiment 1, the embodiment is different from embodiment 1 in that: the rotating roller 21 comprises two ring rollers 25 which are spliced into a circular ring shape, one end of each ring roller 25 is provided with a convex block 26, the other end of each ring roller 25 is provided with a groove 27 matched with the convex block 26 in a concave-convex mode, the side wall of each ring roller 25 is provided with a positioning hole 28, the side wall of each convex block 26 is provided with a limiting hole 29, the side wall of each ring roller 25 is provided with a limiting rod 200 penetrating through the positioning holes 28 and the limiting holes 29, each limiting rod 200 is shaped like Contraband, one end, penetrating through each ring roller 25, of each limiting rod 200 is connected with a locking nut 210 through threads, and the two.

The implementation principle of the above embodiment is as follows: the difference from the embodiment 1 is that the rotating roller 21 can be conveniently and rapidly installed on the rotating shaft 20 after the locking nut 210 is locked by using the convex block 26 of the two-ring roller 25 to be matched with the concave groove 27 in a concave-convex manner and using the limiting rod 200 to pass through the positioning hole 28 and the limiting hole 29.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a glass edging system turn to conveyer which characterized in that: including frame (1), be equipped with input module (2) that are used for transporting glass on frame (1) and be used for driving drive assembly (3) of input module (2) motion, be equipped with in frame (1) and be used for the pivoted subassembly (5) of transporting subassembly (4) and the motion of drive transport module (4) of glass output, the orbit of drive assembly (3) drive glass motion with the orbit mutually perpendicular of pivoted subassembly (5) drive glass motion, be equipped with in frame (1) and be used for lifting assembly (6) that transport assembly (4), pivoted subassembly (5) and glass rise, lifting assembly (6) are located the below of pivoted subassembly (5) and transport assembly (4).

2. The turning conveyor of a glass edging system according to claim 1, characterized in that: input subassembly (2) are including setting up axis of rotation (20) and a plurality of live-rollers (21) of equipartition on axis of rotation (20) lateral wall on frame (1), axis of rotation (20) and a plurality of live-rollers (21) constitute input group (22), be equipped with a plurality of input group (22) on frame (1).

3. The turning conveyor of a glass edging system according to claim 2, characterized in that: and a ring groove (23) for mounting the rotating roller (21) is arranged on the side wall of the rotating shaft (20).

4. The turning conveyor of a glass edging system according to claim 2, characterized in that: one end of the rotating shaft (20) is coaxially connected with an input wheel (24);

drive assembly (3) are including setting up driving motor (30) in frame (1), driving motor's (30) drive shaft coaxial coupling's universal driving shaft (37), with universal driving pulley (31) of universal driving shaft (37) coaxial coupling, be equipped with driven shaft (32) in frame (1), the axis of driven shaft (32) with the axis mutually perpendicular of axis of rotation (20), driven shaft (32) coaxial coupling has driven pulley (33), driving pulley (31) with driven pulley (33) are connected through hold-in range (34), the equipartition has a plurality of driven arbor wheel (35) on the lateral wall of driven shaft (32), driven arbor wheel (35) are located the below of input wheel (24), input wheel (24) with driven arbor wheel (35) are connected through first belt (36).

5. The turning conveyor of a glass edging system according to claim 2, characterized in that: the conveying assembly (4) comprises a first belt wheel (40) and a second belt wheel (41) which are arranged on the rack (1), the first belt wheel (40) and the second belt wheel (41) are connected through a second belt (42), the second belt (42) is arranged along the axial direction of the rotating shaft (20), the first belt wheel (40), the second belt wheel (41) and the second belt (42) form an output group (43), and the adjacent output groups (43) are located on two sides of the rotating shaft (20).

6. The turning conveyor of a glass edging system according to claim 5, characterized in that: rotating assembly (5) is including setting up rotating motor (50) in frame (1), be equipped with output shaft (51) on the lateral wall of rotating motor (50), the equipartition has a plurality of output pulley (52) on the lateral wall of output shaft (51), output pulley (52) are located the below of first band pulley (40), second belt (42) are walked around first band pulley (40) with second band pulley (41) and with output pulley (52) area is connected.

7. The turning conveyor of a glass edging system according to claim 5, characterized in that: and a tensioning wheel (53) for tensioning the second belt (42) is arranged on the frame (1).

8. The turning conveyor of a glass edging system according to claim 6, characterized in that: the rack (1) is provided with a bracket (10) for fixing a rotating motor (50), a first belt wheel (40), a second belt wheel (41) and an output belt wheel (52);

the lifting assembly (6) comprises an air cylinder (60) arranged on a rack (1), the air cylinder (60) is arranged along the axial direction of a rotating shaft (20), the end wall of a piston rod of the air cylinder (60) is hinged with a connecting rod (61), one end, far away from the air cylinder (60), of the connecting rod (61) is hinged with a connecting frame (62), two ends of the connecting frame (62) are hinged with linkage rods (63), two ends of the linkage rods (63) are respectively provided with an eccentric shaft (64), two ends of the eccentric shafts (64) are respectively provided with a roller (65), the axis of the eccentric shafts (64) is parallel to the axis of the rollers (65), the rack (1) is provided with two cross frames (66) connected with the rack (10), the cross frames (66) are arranged along the width direction of a second belt (42), one side, far away from the rack (10), of the cross frames (66) is provided with a lantern ring (67) for the rollers (65), and a rod seat (68) for supporting the eccentric shaft (64) is arranged on the frame (1).

9. The turning conveyor of a glass edging system according to claim 2, characterized in that: the rotating roller (21) is the annular ring roller (25) of circle including two concatenations, the one end of ring roller (25) be equipped with lug (26), the other end with lug (26) unsmooth complex recess (27), be equipped with locating hole (28) on the lateral wall of ring roller (25), be equipped with spacing hole (29) on the lateral wall of lug (26), be equipped with gag lever post (200) that pass locating hole (28) and spacing hole (29) on the lateral wall of ring roller (25), the one end threaded connection that gag lever post (200) passed ring roller (25) has lock nut (210).

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