CN212385180U - Glass conveying table with auxiliary steering function - Google Patents

Abstract

The utility model provides a supplementary glass of turning to function in area carries platform which characterized in that: it includes location frame, a plurality of steering frame, is located the supplementary device that turns to of location frame below one side, location frame upper end form directional area, install a plurality of sharp roller shaft in the directional area, a plurality of steering frame interconnect, its upper end forms the steering area, turns to and installs a plurality of slant roller shaft in the area, its end of sharp roller shaft and slant roller shaft pass through conveyer belt and rotation axis connection, the axis of rotation drives sharp roller shaft and slant roller shaft rotation, treats that glass that turns to gets into in the directional area working range to be connected with supplementary steering device. The utility model has the advantages that: when the steering operation is performed, the sucker is utilized to adsorb the glass, so that the glass rotates around the central point of the sucker, the steering speed of the glass can be effectively improved, the moving distance of the reduced glass during steering is reduced, the size of a steering table is reduced, and the steering efficiency of the glass is improved.

Description

Glass conveying table with auxiliary steering function

Technical Field

The utility model relates to a glass processing machinery specifically is a platform is carried to glass of supplementary function that turns to in area.

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.

In the technical field of glass processing machinery, a glass edge grinding machine generally utilizes a 90-degree transfer table to convey glass, wherein the turning operation is mostly carried out by adopting inclined rollers, but in the structure, the transfer table is required to have enough movement stroke, so that the equipment is large in size, meanwhile, the turning is carried out by depending on the friction force between the glass and the rollers, so that the glass is easily scratched by the rollers in the turning process, the turning speed is low, the working efficiency of the edge grinding machine is seriously limited, and therefore, the 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, low in production cost, convenient operation is simple, turns to fastly, and a supplementary glass that turns to function in area that work efficiency is high carries the platform.

The utility model discloses the purpose is realized with following mode: the utility model provides a supplementary glass of turning to function in area carries platform which characterized in that: the glass to be turned enters the working range of the orientation area and is connected with the auxiliary turning device, the auxiliary turning device adsorbs and fixes the lower part of one side of the glass to be turned, and the glass to be turned can move from the orientation area to the turning area along the rotation of the auxiliary turning device under the driving of the rotation shaft to finish the turning operation;

the auxiliary steering device comprises a mounting seat mounted with the positioning rack and a lifting device arranged on the mounting seat, wherein a vacuum sucker is rotatably mounted at the top of the lifting device, the lifting device drives the vacuum sucker to ascend, adsorb to the glass to be steered and separate from the glass to be steered.

The mounting seat comprises a guide rod seat, a guide rod is formed at the lower end of the guide rod seat by protruding from the body of the guide rod seat, the guide rod extends into and protrudes out of a guide groove in the guide column, the bottom of the guide rod is connected with a lifting device, and the lifting device pushes the guide rod to slide upwards along the guide groove to drive the vacuum chuck to move up and down.

The lifting device is an air cylinder arranged at the bottom of the mounting seat.

The mounting seat comprises a first mounting seat and a second mounting seat, the lower parts of the first mounting seat and the second mounting seat are fixed on the cantilever, and the first mounting seat is in threaded connection with the lower part of the positioning rack through a base plate; the upper end of the second mounting seat is provided with a mounting plate, a baffle formed by the protruding lower end of the guide post is clamped on a mounting groove in the end face of the mounting plate, and a fixing screw penetrates through the baffle to be in threaded connection with the mounting plate to connect the auxiliary steering device with the positioning rack.

One side of the mounting groove is provided with a directional groove in a penetrating way, a directional rod screwed with the lower end of the guide rod seat is clamped in the directional groove, and the directional rod can slide up and down along the directional groove.

The guide rod seat penetrates through to form a clearance groove which is arranged in a T shape.

The linear roller shafts are longitudinally distributed above the positioning rack at equal intervals and comprise linear rotating shafts and a plurality of guide wheels sleeved on the outer cylindrical surfaces of the linear rotating shafts, and the linear rotating shafts are connected with the positioning rack through bearing seats; the glass to be turned is placed on the guide wheel, and the upper end of the guide wheel is higher than the upper end of the bearing block.

The oblique roller shaft is obliquely arranged across the steering frame and comprises an oblique rotating shaft and a plurality of guide wheels sleeved on the outer cylindrical surface of the oblique rotating shaft, and the oblique rotating shaft is connected with the steering frame through a bearing seat; the glass to be turned is placed on the guide wheel, and the upper end of the guide wheel is higher than the upper end of the bearing block.

The tail end of one side of the steering area is provided with a linear roller shaft.

The front ends of the positioning frame and the steering frame are provided with guardrails, the rear ends of the positioning frame and the steering frame are provided with positioning idler wheels, and the glass to be steered is clamped between the guardrails and the positioning idler wheels.

The utility model has the advantages that: 1. simple structure, the cost of manufacture is low, improves market competition. 2. The whole steering process realizes automatic operation without manual intervention, and the production cost is reduced. 3. When the steering operation is performed, the sucker is utilized to adsorb the glass, so that the glass rotates around the central point of the sucker, the steering speed of the glass can be effectively improved, the moving distance of the reduced glass during steering is reduced, the size of a steering table is reduced, and the steering efficiency of the glass is improved.

Drawings

Fig. 1 is a turning state diagram of the glass to be turned in the utility model.

Fig. 2 is a state diagram of the glass to be turned in the turning process.

Fig. 3 is a state diagram of the turning completion of the glass to be turned.

Fig. 4 is a schematic structural view of the glass to be turned hidden in the present invention.

Fig. 5 is an enlarged view of a portion a of fig. 4 according to the present invention.

Fig. 6 is a schematic structural view of the middle auxiliary steering device of the present invention.

Fig. 7 is a schematic structural view of the middle mounting seat and the lifting device of the present invention.

Fig. 8 is a sectional view of the middle auxiliary steering apparatus of the present invention.

Fig. 9 is an assembly view of the structure of the middle auxiliary steering device of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings. The utility model provides a supplementary glass of turning to function in area carries platform which characterized in that: which comprises a positioning frame 1, a plurality of steering frames 2 and an auxiliary steering device 4 positioned at one side below the positioning frame 1, the upper end of the positioning frame 1 forms an orientation area, a plurality of linear roller shafts are arranged in the orientation area, a plurality of steering frames 2 are connected with each other, the upper end part of the glass turning device is provided with a turning area, a plurality of oblique roller shafts are arranged in the turning area, the tail ends of the linear roller shafts and the oblique roller shafts are connected with a rotating shaft 6 through a conveyor belt 5, the rotating shaft 6 drives the linear roller shafts and the oblique roller shafts to rotate, when the glass 3 to be turned enters the working range of the turning area, and is connected with an auxiliary steering device 4, the auxiliary steering device 4 adsorbs and fixes the lower part of one side of the glass 3 to be steered, under the drive of the rotating shaft 6, the glass 3 to be steered can move from the orientation area to the steering area along the auxiliary steering device 4 in a rotating mode, and the steering operation is completed;

the auxiliary steering device 4 comprises a mounting seat 41 mounted with the positioning rack 1 and a lifting device arranged on the mounting seat, wherein a vacuum sucker 7 is rotatably mounted at the top of the lifting device, and the lifting device drives the vacuum sucker 7 to ascend, adsorb to the glass 3 to be steered and descend to separate from the glass 3 to be steered.

The mounting base 41 comprises a guide rod base 411, a guide rod 4111 is formed at the lower end of the guide rod base 411 in a protruding mode through the body of the guide rod base, the guide rod 4111 extends into and protrudes out of a guide groove 81 in the guide column 8, the bottom of the guide rod 4111 is connected with a lifting device, and the lifting device pushes the guide rod 4111 to slide upwards along the guide groove 81 to drive the vacuum chuck 7 to move upwards and downwards.

The lifting device is a cylinder 42 installed at the bottom of the mounting seat.

The mounting base 41 comprises a first mounting base 412 and a second mounting base 413, the lower parts of the first mounting base 412 and the second mounting base 413 are fixed on the cantilever 11, and the first mounting base 412 is screwed below the positioning rack 1 through a backing plate 9; the upper end of the second mounting seat 413 is provided with a mounting plate 10, a baffle 82 formed by the protruding lower end of the guide post 8 is clamped on the mounting groove 101 on the end surface of the mounting plate 10, and a fixing screw penetrates through the baffle 82 to be screwed with the mounting plate 10, so that the auxiliary steering device 4 is connected with the positioning rack 1.

One side of the mounting groove 101 is provided with an orientation groove 102 in a penetrating manner, an orientation rod 12 screwed on the lower end of the guide rod seat 411 is clamped in the orientation groove 102, and the orientation rod 12 can slide up and down along the orientation groove 102.

The guide rod seat 411 penetrates to form a clearance groove 4112, and the clearance groove 4112 is arranged in a T shape.

The linear roller shafts are longitudinally distributed above the positioning rack 1 at equal intervals and comprise linear rotating shafts 13 and a plurality of guide wheels sleeved on the outer cylindrical surface of the linear rotating shafts 13, and the linear rotating shafts 13 are connected with the positioning rack 1 through bearing seats 15; the glass 3 to be turned is placed on the guide wheel, and the height of the upper end of the guide wheel is higher than that of the upper end of the bearing seat 15.

The oblique roller shaft is obliquely arranged across the steering frame 2 and comprises an oblique rotating shaft 14 and a plurality of guide wheels sleeved on the outer cylindrical surface of the oblique rotating shaft 14, and the oblique rotating shaft 14 is connected with the steering frame 2 through a bearing seat 15; the glass 3 to be turned is placed on the guide wheel, and the height of the upper end of the guide wheel is higher than that of the upper end of the bearing seat 15.

The tail end of one side of the steering area is provided with a linear roller shaft.

The front ends of the positioning frame 1 and the steering frame 2 are provided with guardrails 16, the rear ends of the positioning frame 1 and the steering frame 2 are provided with positioning idler wheels 17, and the glass 3 to be steered is clamped between the guardrails 16 and the positioning idler wheels 17.

The working principle is as follows: when glass needs to be steered, the glass to be steered is conveyed to the orientation area at the upper end of the positioning rack and is butted with the auxiliary steering device, and the auxiliary steering device is adsorbed and fixed below one side of the glass to be steered. Because the rotating shaft drives the linear roller shaft in the orientation area and the oblique roller shaft in the turning area to rotate, the glass to be turned can rotate along the auxiliary turning device under the driving of the rotating shaft, and simultaneously moves from the orientation area to the turning area until the glass to be turned finishes 90-degree turning operation, and moves to the next working procedure area under the action of the continuous rotation of the oblique roller shaft.

It should be noted that the auxiliary steering device includes a mounting seat for mounting the positioning frame, and a lifting device disposed thereon, wherein a vacuum chuck is rotatably mounted on the top of the lifting device. When the lifting device pushes the mounting seat to slide upwards, the vacuum chuck is driven to move upwards, the vacuum chuck adsorbs one side of the glass to be turned on, and the rotating central point of the glass is fixed in the process that the glass to be turned continues to rotate, so that the other three end angles of the glass to be turned can rotate along the end angle on the fixed side. The rotating mode avoids the defects that the traditional glass steering table needs to move forwards integrally when the glass is steered, so that the steering stroke is long, the time is long and the efficiency is low.

Further, the lifting device is an air cylinder arranged at the bottom of the mounting seat; the mount pad includes the guide bar seat, and its lower extreme of guide bar seat is formed with the guide bar by its body is outstanding, and the guide bar stretches into and in the inside guide way of outstanding guide post, and the guide bar bottom is connected with the cylinder, and the cylinder promotes the guide bar and upwards slides along the guide way, drives vacuum chuck up-and-down motion, turns to the completion back when glass, and lifting device can break away from sucking disc and glass fast for glass can get into next process smoothly, and for the next glass that turns to prepare work.

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 supplementary glass of turning to function in area carries platform which characterized in that: the glass steering device comprises a positioning rack (1), a plurality of steering racks (2) and an auxiliary steering device (4) positioned on one side below the positioning rack (1), wherein an orientation area is formed at the upper end of the positioning rack (1), a plurality of linear roller shafts are installed in the orientation area, the plurality of steering racks (2) are connected with each other, a steering area is formed at the upper end part of each steering rack, a plurality of oblique roller shafts are installed in the steering area, the tail ends of the linear roller shafts and the oblique roller shafts are connected with a rotating shaft (6) through a conveyor belt (5), the rotating shaft (6) drives the linear roller shafts and the oblique roller shafts to rotate, the glass (3) to be steered enters the working range of the orientation area and is connected with the auxiliary steering device (4), the auxiliary steering device (4) adsorbs and fixes the lower side of the glass (3) to be steered, the glass (3) to be steered can move to the steering area from the orientation area along the auxiliary steering device (4) under the driving of the rotating shaft (6), completing the steering operation;

the auxiliary steering device (4) comprises a mounting seat (41) mounted with the positioning rack (1) and a lifting device arranged on the auxiliary steering device, wherein a vacuum sucker (7) is rotatably mounted at the top of the lifting device, the lifting device drives the vacuum sucker (7) to ascend and adsorb to-be-steered glass (3), and the lifting device descends and separates to-be-steered glass (3).

2. The glass conveying table with the auxiliary steering function according to claim 1, wherein: mount pad (41) including guide bar seat (411), its lower extreme of guide bar seat (411) is formed with guide bar (4111) by its body is outstanding, guide bar (4111) stretch into and in outstanding guide way (81) of guide post (8) inside, guide bar (4111) bottom is connected with lifting devices, lifting devices promotes guide bar (4111) and upwards slides along guide way (81), drives vacuum chuck (7) up-and-down motion.

3. The glass conveying table with the auxiliary steering function according to claim 1, wherein: the lifting device is an air cylinder (42) arranged at the bottom of the mounting seat (41).

4. The glass conveying table with the auxiliary steering function according to claim 1, wherein: the mounting base (41) comprises a first mounting base (412) and a second mounting base (413), the lower parts of the first mounting base (412) and the second mounting base (413) are fixed on the cantilever (11), and the first mounting base (412) is in threaded connection with the lower part of the positioning rack (1) through a base plate (9); the upper end of the second mounting seat (413) is provided with a mounting plate (10), a baffle plate (82) formed by the protruding lower end of the guide column (8) is clamped on a mounting groove (101) on the end face of the mounting plate (10), a fixing screw penetrates through the baffle plate (82) to be in threaded connection with the mounting plate (10), and the auxiliary steering device (4) is connected with the positioning rack (1).

5. The glass conveying table with the auxiliary steering function according to claim 4, wherein: one side of the mounting groove (101) is provided with a directional groove (102) in a penetrating way, a directional rod (12) screwed at the lower end of the guide rod seat (411) is clamped in the directional groove (102), and the directional rod (12) can slide up and down along the directional groove (102).

6. The glass conveying table with the auxiliary steering function according to claim 2, characterized in that: the guide rod seat (411) penetrates to form a clearance groove (4112), and the clearance groove (4112) is arranged in a T shape.

7. The glass conveying table with the auxiliary steering function according to claim 1, wherein: the linear roller shafts are longitudinally distributed above the positioning rack (1) at equal intervals and comprise linear rotating shafts (13) and a plurality of guide wheels sleeved on the outer cylindrical surface of the linear rotating shafts, and the linear rotating shafts (13) are connected with the positioning rack (1) through bearing seats (15); the glass (3) to be steered is placed on the guide wheel, and the upper end of the guide wheel is higher than the upper end of the bearing seat (15).

8. The glass conveying table with the auxiliary steering function according to claim 1, wherein: the oblique roller shaft is obliquely installed across the steering frame (2) and comprises an oblique rotating shaft (14) and a plurality of guide wheels sleeved on the outer cylindrical surface of the oblique rotating shaft, and the oblique rotating shaft (14) is connected with the steering frame (2) through a bearing seat (15); the glass (3) to be steered is placed on the guide wheel, and the upper end of the guide wheel is higher than the upper end of the bearing seat (15).

9. The glass conveying table with the auxiliary steering function according to claim 1, wherein: the tail end of one side of the steering area is provided with a linear roller shaft.

10. The glass conveying table with the auxiliary steering function according to claim 1, wherein: the front ends of the positioning frame (1) and the steering frame (2) are provided with guardrails (16), the rear ends of the positioning frame and the steering frame are provided with positioning idler wheels (17), and the glass (3) to be steered is clamped between the guardrails (16) and the positioning idler wheels (17).

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