CN214878508U - Glass chamfering production line - Google Patents

Abstract

The utility model provides a glass chamfering production line, its straight line transfer chain and the slant transfer chain of connecting around including is provided with stop device between two transfer chains, and glass bilateral chamfering mechanism is all installed to the entry end of straight line transfer chain and the exit end of slant transfer chain, carries out synchronous chamfering to glass's opposite side. The linear conveying line comprises a first main frame, a plurality of linear rotating rollers which are distributed at equal intervals are transversely arranged on the first main frame, a first belt pulley is arranged at one end of each linear rotating roller and connected with a first power mechanism, and the first power mechanism drives the linear rotating rollers to synchronously move. The utility model has the advantages that: install the bilateral chamfering mechanism of glass at the both ends of sharp transfer chain and slant transfer chain respectively in the present case, after the bilateral chamfering mechanism chamfering operation of glass of entry end, turn to glass through sharp transfer chain and slant transfer chain, utilize the bilateral chamfering mechanism of back glass to carry out the chamfering to remaining two opposite sides, full automatization completion production, but reduction in production cost.

Description

Glass chamfering production line

Technical Field

The utility model relates to a glass processing equipment specifically is a glass chamfering production line.

Background

Glass is hard and brittle, and is difficult to machine, for example, glass cutting is often required in the glass processing process of furniture glass, industrial glass, building doors and windows, curtain walls and the like, the four sides and corners of the cut glass are sharp and sharp due to the rigidity of the glass, so that the attractiveness is influenced, the safety of constructors is directly influenced in the installation process, and in order to meet the process requirements of safety, breakage prevention, attractiveness and the like, almost all glass needs to be subjected to edge grinding treatment by a manual or mechanical method before being processed secondarily or becoming products.

Most of the existing glass edge grinding machines rely on manual processing, the processing efficiency is low, the labor intensity is high, full-automatic glass processing is difficult, continuous processing cannot be achieved on four sides of glass, meanwhile, in the existing glass chamfering equipment, glass is conveyed to enter a grinding wheel through an upper belt and a lower belt in a clamping mode, in the structure, the pressure of the upper belt and the lower belt need to be adjusted, and otherwise, the phenomenon that the glass slips and deviates is caused. If the belt pressure is adjusted too tightly, the scratch between the belt and the glass is easy to occur, which affects the quality of the glass product, therefore, further improvement is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the shortcoming that prior art exists, providing a simple structure, convenient to use can effectively avoid glass by the fish tail, and can continuous processing, realizes a glass chamfering production line of glass four sides chamfer.

The utility model discloses the purpose is realized with following mode: the utility model provides a glass chamfering production line which characterized in that: the glass double-edge chamfering mechanism comprises a front straight line conveying line and a rear straight line conveying line which are connected with each other, a blocking device is arranged between the two conveying lines, the inlet end of each straight line conveying line and the outlet end of each inclined conveying line are provided with the glass double-edge chamfering mechanisms, and opposite edges of glass are chamfered synchronously.

The linear conveying line comprises a first main frame, a plurality of linear rotating rollers which are distributed at equal intervals are transversely arranged on the first main frame, a first belt pulley is arranged at one end of each linear rotating roller and connected with a first power mechanism, and the first power mechanism drives the linear rotating rollers to synchronously move.

The slant conveying line comprises a second main frame, a plurality of slant rotary rollers distributed at equal intervals are obliquely arranged on the second main frame, a second belt pulley is arranged at one end of each slant rotary roller and connected with a second power mechanism, and the second power mechanism drives the slant rotary rollers to move synchronously.

The stopping device comprises a fixed seat, a sliding rod is installed in the fixed seat in a sliding mode, the tail of the sliding rod is connected with a stopping cylinder, a wheel stopping plate is installed at the front end of the sliding rod, and three stopping wheels which are distributed obliquely are arranged on the wheel stopping plate.

The glass double-side chamfering mechanism comprises a support, a conveying roller is transversely installed on the support, a transverse guide rail is further transversely installed at the top end of the support, a fixed grinding wheel group is installed at one end of the transverse guide rail, a movable grinding wheel group is installed at the other end of the transverse guide rail through a sliding table, and the movable grinding wheel group slides along the transverse guide rail under the driving of a power structure to adjust the relative position between the movable grinding wheel group and the fixed grinding wheel group; the support on one side of the fixed grinding wheel group is provided with a leaning wheel and a fixed pressing wheel device, the support on one side of the movable grinding wheel group is provided with a pushing wheel device and a movable pressing wheel device, and the glass entering the chamfering mechanism is leaned and compressed.

The fixed grinding wheel group and the movable grinding wheel group respectively comprise grinding wheel frames, driving motors are respectively installed on the left side and the right side of each grinding wheel frame, an upper grinding wheel and a lower grinding wheel are arranged at the bottom of each grinding wheel frame, the two grinding wheels are connected with the driving motors through belts, and the upper grinding wheel and the lower grinding wheel are installed in a vertically staggered mode.

The side wall of the upper grinding wheel is provided with a depended wheel.

The power structure for fix drive pulley and driven pulley on the crossbeam, connect through the hold-in range between two belt pulleys, the hold-in range passes through the belt clamp plate and is connected with the slip table, drive pulley is driven its rotation by servo motor.

The fixed pinch roller device comprises a support connected with the bracket, a wheel leaning frame is arranged on the support, and a plurality of leaning wheels are arranged on the wheel leaning frame in a parallel manner; the glass pressing device is characterized in that a first pressing wheel cylinder is further mounted on the wheel leaning frame, a first pressing wheel frame is mounted on an output shaft of the first pressing wheel cylinder, a plurality of pressing wheels are mounted at the bottom of the first pressing wheel frame, and the first pressing wheel cylinder drives the first pressing wheel to move up and down, so that the pressing wheels are separated from or contacted with glass.

The movable pressing wheel device comprises an auxiliary support connected with the support, a first pressing wheel plate is mounted on the auxiliary support through a second pressing wheel cylinder, a plurality of pressing wheels are mounted at the bottom of the first pressing wheel plate, and the second pressing wheel cylinder drives the pressing wheels to move up and down, so that the pressing wheels are separated from or contacted with the glass; the push wheel device comprises a push wheel cylinder and a push wheel support which are hinged and fixed on the auxiliary support, the push wheel support is hinged with a piston rod of the push wheel cylinder, and a push wheel is installed at the bottom of the push wheel support.

The utility model has the advantages that: 1. simple structure, low production cost and improved market competitiveness. 2. Install glass bilateral chamfering mechanism at the both ends of sharp transfer chain and slant transfer chain respectively in the present case, after the bilateral chamfering mechanism chamfering operation of glass of entry end, turn to glass through sharp transfer chain and slant transfer chain, utilize the bilateral chamfering mechanism of back glass to carry out the chamfering to remaining two opposite sides, consequently this production line can accomplish glass's four sides chamfering voluntarily, and need not artificial intervention midway, and full automatization accomplishes production, but reduction in production cost. 3. The pressing wheel device is arranged in the glass double-side chamfering mechanism, glass is tightly pressed on the conveying roller by the pressing wheel to be conveyed, and the pressing wheel rolls on the surface of the glass, so that the glass is prevented from being scraped by the conveying belt, and the quality of a glass finished product is ensured.

Drawings

Fig. 1, 2 and 3 are the final assembly effect diagrams of the present invention.

Fig. 4 is the utility model discloses well straight line transfer chain schematic diagram.

Fig. 5 is the utility model discloses well slant transfer chain structural schematic.

Fig. 6 is an enlarged view of the structure of the part a in fig. 1 of the present invention.

Fig. 7 is a schematic structural view of the middle blocking device of the present invention.

Fig. 8 and 9 are schematic structural views of the double-edge chamfering mechanism for medium glass of the present invention.

Fig. 10 is an enlarged view of the structure of the part B in fig. 9 according to the present invention.

Fig. 11 is an enlarged view of the structure of the part C in fig. 9 according to the present invention.

Fig. 12 is a schematic structural view of the middle movable pressing wheel device of the present invention.

Fig. 13 is a schematic structural view of the middle fixed pressing wheel device of the present invention.

Fig. 14 and 15 are schematic structural views of the middle grinding wheel set of the present invention.

Detailed Description

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

The utility model provides a glass chamfering production line which characterized in that: it includes the straight line transfer chain 1 and the slant transfer chain 2 of connecting around, is provided with stop device 3 between two transfer chains, and glass bilateral chamfering mechanism 4 is all installed to the entry end of straight line transfer chain 1 and the exit end of slant transfer chain 2, carries out synchronous chamfering to glass's opposite side.

The linear conveying line 1 comprises a first main frame 11, a plurality of linear rotating rollers 12 which are distributed at equal intervals are transversely arranged on the first main frame 11, a first belt pulley 13 is arranged at one end of each linear rotating roller 12 and connected with a first power mechanism 14, and the first power mechanism 14 drives the linear rotating rollers 12 to synchronously move.

The slant conveying line 2 comprises a second main frame 21, a plurality of slant rotating rollers 22 distributed at equal intervals are obliquely arranged on the second main frame 21, one end of each slant rotating roller 22 is provided with a second belt pulley 23 connected with a second power mechanism 24, and the second power mechanism drives the slant rotating rollers 22 to move synchronously.

The blocking device 3 comprises a fixed seat 31, a sliding rod 32 is installed in the fixed seat 31 in a sliding manner, the tail of the sliding rod 32 is connected with a blocking cylinder 33, a wheel blocking plate 34 is installed at the front end of the sliding rod 32, and three blocking wheels 35 which are distributed obliquely are arranged on the wheel blocking plate 34.

The glass double-side chamfering mechanism 4 comprises a support 41, a conveying roller 42 is transversely installed on the support 41, a transverse guide rail 43 is also transversely installed at the top end of the support, a fixed grinding wheel group 5 is installed at one end of the transverse guide rail 43, a movable grinding wheel group 6 is installed at the other end of the transverse guide rail 43 through a sliding table 44, and the movable grinding wheel group 6 slides along the transverse guide rail 43 under the driving of a power structure to adjust the relative position between the movable grinding wheel group 6 and the fixed grinding wheel group 5; the support on one side of the fixed grinding wheel group 5 is provided with a leaning wheel 7 and a fixed pinch roller device 8, the support on one side of the movable grinding wheel group 6 is provided with a push wheel device 9 and a movable pinch roller device 10, and the glass entering the chamfering mechanism is leaned and compressed.

The fixed grinding wheel group 5 and the movable grinding wheel group 6 both comprise a grinding wheel frame 51, driving motors 52 are respectively installed on the left side and the right side of the grinding wheel frame 51, an upper grinding wheel 53 and a lower grinding wheel 54 are arranged at the bottom of the grinding wheel frame 51, the two grinding wheels are connected with the driving motors 52 through belts, and the upper grinding wheel 53 and the lower grinding wheel 54 are installed in a vertically staggered mode.

The side wall of the upper grinding wheel 53 is provided with a depended wheel 55.

The power structure for fix driving pulley 61 and driven pulley 62 on the crossbeam, connect through hold-in range 63 between two pulleys, hold-in range 63 is connected with slip table 44 through belt clamp plate 64, driving pulley 61 is driven its rotation by servo motor 65.

The fixed pinch roller device 8 comprises a support 81 connected with the bracket 41, a wheel leaning frame 82 is arranged on the support 81, and a plurality of wheel leaning wheels 7 are arranged on the wheel leaning frame 82 in a parallel shape; the pressing wheel support 82 is further provided with a first pressing wheel cylinder 83, an output shaft of the first pressing wheel cylinder 83 is provided with a first pressing wheel support 84, a plurality of pressing wheels 85 are arranged at the bottom of the first pressing wheel support 84, and the first pressing wheel cylinder 83 drives the first pressing wheels to move up and down, so that the pressing wheels 85 are separated from or contacted with the glass.

The movable pinch roller device 10 comprises an auxiliary support 101 connected with the support 41, a first pinch roller plate 103 is arranged on the auxiliary support 101 through a second pinch roller cylinder 102, a plurality of pinch rollers 85 are arranged at the bottom of the first pinch roller plate 103, and the second pinch roller cylinder 102 drives the pinch rollers to move up and down, so that the pinch rollers are separated from or contacted with the glass; the push wheel device 9 comprises a push wheel cylinder 91 and a push wheel support 92 which are hinged and fixed on the auxiliary support 101, the push wheel support 92 is hinged with a piston rod of the push wheel cylinder 91, and a push wheel 93 is installed at the bottom of the push wheel support 92.

The working principle is as follows: as shown in fig. 1, when the glass chamfering machine is used for processing, a manual or automatic manipulator is used for feeding the glass with chamfering into the glass double-edge chamfering mechanism, when the detection system detects that the glass is in place, the push wheel cylinder 91 on the auxiliary support 101 moves to swing the push wheel support 92 outwards, the push wheel 93 is used for pushing the glass to the fixed grinding wheel group, the other side of the glass is pressed against the idler wheel 7, and the glass is determined to be in the original position by the blocking effect of the idler wheel 7.

At the moment, the gap system automatically detects the width of the glass, and the power mechanism is used for driving the sliding table to move, so that the relative position between the movable grinding wheel set 6 and the fixed grinding wheel set 5 is adjusted, and the grinding amount of the movable grinding wheel set 6 is determined. At this time, the first pinch roller cylinder 83 and the second pinch roller cylinder 102 move synchronously to drive the pinch rollers to move up and down, so that the glass is pressed against the conveying roller 42. The friction force between the conveying roller 42 and the glass pushes the glass to move forwards, the glass is forced to enter the grinding wheel set, and the upper and lower grinding wheels in the glass set are used for grinding the upper and lower edges of the glass, so that chamfering operation is realized.

Wherein, it is required to be noted that: in the structure, the pinch roller used for conveying the glass presses the glass downwards, so that friction force is generated between the lower surface of the glass and the conveying roller 42, and the glass is driven to move forwards by the power generated by the rotation of the conveying roller 42. Wherein, the pinch roller of exerting pressure compresses tightly on glass for the roll formula, consequently, the glass of flower can not scraped to the gyro wheel to in having avoided traditional technique, in the belt presss from both sides tight glass's scheme about adopting, relative displacement appears easily between belt and glass, and lead to glass to be scraped the flower by the belt, guaranteed off-the-shelf quality.

After glass finishes first butt chamfering, the glass is conveyed to the linear conveying line 1 by the glass bilateral chamfering mechanism, so that the glass is moved towards the direction of the inclined conveying line 2 by the linear rotating roller 12 in the linear conveying line 1, when the glass is conveyed to the junction of the glass and the linear conveying line, one side angle of the glass is blocked by the blocking wheel 35 and cannot continue to advance, at the moment, the blocking cylinder 33 moves backwards, one angle of the glass is pushed to move backwards, so that the glass is forced to swing and displace, and the front angle of the glass enters the inclined conveying line 2, wherein the inclined conveying line 2 is obliquely provided with a plurality of inclined rotating rollers 22 which are distributed at equal intervals, the inclined rotating rollers 22 generate rotating force, the glass is forced to deflect by itself while moving forwards, and finally the glass is forced to rotate 90 for edge changing operation. The glass which is subjected to the steering operation is sent to a next group of glass double-edge chamfering mechanisms, and the chamfering operation of the remaining pair of edges is finished. The processing procedure is the same as that described above, and thus is not described in detail.

Compared with the prior art, the production line in the present case can accomplish glass's four sides chamfering operation automatically, and chamfering process automation goes on, need not artificial intervention, improvement production efficiency that can by a wide margin, guarantees the chamfering quality, so can extensively use widely.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a glass chamfering production line which characterized in that: the glass double-side chamfering machine comprises a straight line conveying line (1) and an inclined conveying line (2) which are connected in a front-back mode, a blocking device (3) is arranged between the two conveying lines, a glass double-side chamfering mechanism (4) is installed at the inlet end of the straight line conveying line (1) and the outlet end of the inclined conveying line (2), and the opposite sides of glass are chamfered synchronously.

2. The glass chamfering production line according to claim 1, wherein: the linear conveying line (1) comprises a first main frame (11), a plurality of linear rotating rollers (12) which are distributed at equal intervals are transversely arranged on the first main frame (11), a first belt pulley (13) is arranged at one end of each linear rotating roller (12) and connected with a first power mechanism (14), and the first power mechanism (14) drives the linear rotating rollers (12) to synchronously move.

3. The glass chamfering production line according to claim 1, wherein: the slant conveying line (2) comprises a second main frame (21), a plurality of slant rotating rollers (22) distributed at equal intervals are obliquely arranged on the second main frame (21), a second belt pulley (23) is arranged at one end of each slant rotating roller (22) and connected with a second power mechanism (24), and the second power mechanism (24) drives the slant rotating rollers (22) to move synchronously.

4. The glass chamfering production line according to claim 1, wherein: the blocking device (3) comprises a fixed seat (31), a sliding rod (32) is installed in the fixed seat (31) in a sliding mode, the tail of the sliding rod (32) is connected with a blocking cylinder (33), a wheel blocking plate (34) is installed at the front end of the sliding rod (32), and three blocking wheels (35) which are distributed obliquely are arranged on the wheel blocking plate (34).

5. The glass chamfering production line according to claim 1, wherein: the glass double-side chamfering mechanism (4) comprises a support (41), a conveying roller (42) is transversely installed on the support (41), a transverse guide rail (43) is further transversely installed at the top end of the support, a fixed grinding wheel group (5) is installed at one end of the transverse guide rail (43), a movable grinding wheel group (6) is installed at the other end of the transverse guide rail (43) through a sliding table (44), the movable grinding wheel group (6) slides along the transverse guide rail (43) under the driving of a power structure, and the relative position between the movable grinding wheel group (6) and the fixed grinding wheel group (5) is adjusted; a lower idler wheel (7) and a fixed pinch roller device (8) are arranged on the support on one side of the fixed grinding wheel group (5), a push wheel device (9) and a movable pinch roller device (10) are arranged on the support on one side of the movable grinding wheel group (6), and glass entering the chamfering mechanism is subjected to edge leaning and pressing operation.

6. The glass chamfering production line according to claim 5, wherein: fixed grinding wheel group (5) and activity grinding wheel group (6) all include grinding wheel frame (51), driving motor (52) are installed respectively to the left and right sides of grinding wheel frame (51), the bottom of grinding wheel frame (51) is provided with emery wheel (53) and lower grinding wheel (54), two emery wheels pass through the belt and are connected with driving motor (52), last emery wheel (53) and lower grinding wheel (54) be dislocation mounting from top to bottom.

7. The glass chamfering production line according to claim 6, wherein: an upper idler wheel (55) is arranged on the side wall of the upper grinding wheel (53).

8. The glass chamfering production line according to claim 5, wherein: the power structure for fix drive pulley (61) and driven pulley (62) on the crossbeam, connect through hold-in range (63) between two belt pulleys, hold-in range (63) are connected with slip table (44) through belt clamp plate (64), drive pulley (61) is driven its rotation by servo motor (65).

9. The glass chamfering production line according to claim 5, wherein: the fixed pinch roller device (8) comprises a support (81) connected with the bracket (41), a wheel leaning frame (82) is arranged on the support (81), and a plurality of lower leaning wheels (7) are arranged on the wheel leaning frame (82) in a parallel manner; the glass pressing device is characterized in that a first pressing wheel cylinder (83) is further mounted on the wheel leaning frame (82), a first pressing wheel frame (84) is mounted on an output shaft of the first pressing wheel cylinder (83), a plurality of pressing wheels (85) are mounted at the bottom of the first pressing wheel frame (84), and the first pressing wheel cylinder (83) drives the first pressing wheel to move up and down, so that the pressing wheels (85) are separated from or contacted with glass.

10. The glass chamfering production line according to claim 5, wherein: the movable pressing wheel device (10) comprises an auxiliary support (101) connected with the support (41), a first pressing wheel plate (103) is installed on the auxiliary support (101) through a second pressing wheel cylinder (102), a plurality of pressing wheels (85) are installed at the bottom of the first pressing wheel plate (103), and the second pressing wheel cylinder (102) drives the pressing wheels to move up and down, so that the pressing wheels are separated from or contacted with glass; the push wheel device (9) comprises a push wheel cylinder (91) and a push wheel support (92) which are hinged and fixed on the auxiliary support (101), the push wheel support (92) is hinged with a piston rod of the push wheel cylinder (91), and a push wheel (93) is installed at the bottom of the push wheel support (92).

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