CN220660271U - Double-station anti-sticking glass chamfering machine - Google Patents

Abstract

The utility model provides a double-station anti-sticking glass chamfering machine which comprises a clamping mechanism, a chamfering mechanism and a conveying mechanism, and is characterized in that the conveying mechanism comprises an equipment main body and lifting suckers, wherein the lifting suckers are arranged on the equipment main body, conveying sliding rails are arranged on two sides of the equipment main body, and the equipment main body moves through the conveying sliding rails; the conveying slide rail comprises a fixed rail and a movable rail, wherein a rail notch of the fixed rail faces downwards, the movable rail is connected in the fixed rail in a sliding manner through balls, and the movable rail is fixedly connected with the equipment main body. In order to prevent glass powder from accumulating on the sliding rail and affecting the normal use of the sliding rail, the utility model provides a fully-enclosed sliding rail structure, wherein a sliding surface of a movable rail is enclosed by a fixed rail with a lower opening, so that glass powder bonding generated by chamfering can be isolated, and the normal operation of a conveying mechanism is ensured.

Description

Double-station anti-sticking glass chamfering machine

Technical Field

The utility model relates to the field of glass chamfering machines, in particular to a double-station anti-sticking glass chamfering machine.

Background

The glass chamfering machine is a necessary processing device in the glass production and processing process and is used for rounding sharp corners of glass, so that a large amount of glass powder can be generated in the chamfering process. And need be provided with the transport mechanism who carries glass piece removal in the glass chamfer process, transport mechanism's transport needs rely on the slide rail, and conventional slide rail is that track part exposes outside, consequently the glass powder that produces of polishing and water gather on the track easily, forms the caking piece on the track after the water is dry, can block up the slide rail, influences the normal operating of slide rail.

Disclosure of Invention

The purpose of the application is to provide a double-station anti-sticking glass chamfering machine, so as to solve the defects in the prior art.

The embodiment of the application provides a double-station anti-sticking glass chamfering machine, which comprises a clamping mechanism, a chamfering mechanism and a conveying mechanism, wherein the conveying mechanism comprises an equipment main body and lifting suckers, the lifting suckers are arranged on the equipment main body, conveying sliding rails are arranged on two sides of the equipment main body, and the equipment main body moves through the conveying sliding rails;

the conveying slide rail comprises a fixed rail and a movable rail, a rail notch of the fixed rail faces downwards, the movable rail is connected in the fixed rail in a sliding manner through balls, and the movable rail is fixedly connected with the equipment main body.

Further, rolling grooves with arc bottom surfaces are formed in two sides of the track notch of the fixed rail, and accommodating spaces are formed in the fixed rail corresponding to the movable rail; the movable rail is T-shaped, a plurality of mounting grooves are formed in the bottom surface of the transverse end of the movable rail, which corresponds to the rolling grooves, a ball is mounted in each mounting groove, and the other end of the ball is contacted with the rolling grooves.

Further, a space is arranged between the movable rail and the upper bottom of the accommodating space; the transverse top surface of the movable rail is arc-shaped, and the upper bottom of the accommodating space is the same arc-shape.

Further, the lower end of the movable rail is fixedly connected with a connecting arm which transversely extends to be fixedly connected with the equipment main body.

Further, the top surface of the fixed rail is provided with a mounting screw hole which is communicated with the accommodating space; the fixed rail is fixed on the connecting frame through the installation screw hole.

Further, the clamping mechanism is arranged on the frame, the connecting frame is triangular, one surface of the connecting frame is connected with the fixed rail, and the other surface of the connecting frame is connected with the frame.

Further, the frame and the chamfering mechanism are arranged on two sides of the running direction of the conveying mechanism, the clamping mechanism is arranged at the chamfering position of the frame, and the height of the frame where the conveying mechanism is located is lower than that of the frame where the clamping mechanism is located.

The beneficial effects of the utility model are as follows: in order to prevent glass powder from accumulating on the sliding rail and affecting the normal use of the sliding rail, the utility model provides a fully-enclosed sliding rail structure, wherein a sliding surface of a movable rail is enclosed by a fixed rail with a lower opening, so that glass powder bonding generated by chamfering can be isolated, and the normal operation of a conveying mechanism is ensured.

Drawings

Fig. 1 is a schematic diagram of a half-face structure of the present utility model.

Fig. 2 is a schematic cross-sectional structure of the conveying rail.

In the figure: 1. a clamping mechanism; 2. chamfering mechanism; 3. a conveying mechanism; 4. a frame; 5. an apparatus main body; 6. lifting the sucker; 7. a conveying slide rail; 8. a connecting frame; 9. a fixed rail; 10. a movable rail; 11. a rolling groove; 12. an accommodation space; 13. installing a screw hole; 14. a mounting groove; 15. a ball; 16. and a connecting arm.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The double-station anti-sticking glass chamfering machine shown in fig. 1 comprises a clamping mechanism 1, a chamfering mechanism 2 and a conveying mechanism 3. Still include frame 4, the running direction both sides of transport mechanism 3 all are provided with frame 4 and chamfer mechanism 2, and frame 4 is located the both sides of transport direction, and the transport passageway that extends along the transport direction is enclosed to both sides frame 4. The frame 4 is provided with the clamping mechanism 1 at the chamfering position, and the height of the frame 4 where the conveying mechanism 3 is positioned is lower than the height of the frame 4 where the clamping mechanism 1 is positioned. That is, the conveying mechanism 3 is positioned below the conveying passage, and the clamping mechanism 1 and the chamfering mechanism 2 are positioned above the conveying passage.

Wherein the conveying mechanism 3 comprises an equipment main body 5 and a lifting sucker 6, the lifting sucker 6 is arranged on the equipment main body 5 through a lifting structure, conveying sliding rails 7 are arranged on two sides of the equipment main body 5, and the equipment main body 5 moves through the conveying sliding rails 7.

The use process is that the lifting sucker 6 ascends to adsorb the glass sheet from the bottom surface, and then the glass sheet is driven to move along with the movement of the equipment main body 5 along the sliding rail. The glass sheet moves to the clamping mechanism 1 to stop moving, and the upper clamping plate and the lower clamping plate of the clamping mechanism 1 are respectively positioned on the upper side and the lower side of the glass sheet, so that the glass sheet can be clamped and fixed by the upper clamping plate and the lower clamping plate. At this time, the lifting suction cup 6 is in contact with the suction state and is lowered without contact with the glass sheet. The chamfering mechanism 2 grinding wheels on the two sides grind the two corners of the glass sheet. After polishing, the lifting sucker 6 rises to suck the glass sheet, the clamping mechanism 1 is loosened, and the equipment main body 5 carries the glass sheet to move continuously.

Wherein the conveying slide rail 7 and the frame 4 are arranged through a connecting frame 8. The connecting frame 8 is triangular, one surface of the connecting frame 8 is connected with the conveying slide rail 7, and the other surface is connected with the frame 4 through bolts.

As shown in fig. 2, the conveying slide rail 7 comprises a fixed rail 9 and a movable rail 10, the rail notch of the fixed rail 9 faces downwards, rolling grooves 11 with arc bottom surfaces are arranged on two sides of the rail notch of the fixed rail 9, and an accommodating space 12 is arranged in the fixed rail 9 corresponding to the movable rail 10. The top surface of the fixed rail 9 is provided with a mounting screw hole 13, and the mounting screw hole 13 is communicated with the accommodating space 12; the fixed rail 9 is fixed on the connecting frame 8 through a bolt arranged in the mounting screw hole 13. The upper bottom of the receiving space 12 is provided with a nut groove for receiving the nut of the fixing bolt.

The movable rail 10 is T-shaped, a plurality of mounting grooves 14 are formed in the bottom surface of the transverse end of the movable rail 10, corresponding to the rolling grooves 11, a ball 15 is mounted in each mounting groove 14, and the other end of the ball 15 is contacted with the rolling grooves 11. The sliding of the movable rail 10 in the fixed rail 9 is thereby achieved by the rolling of the balls 15. And the contact surface between the fixed rail and the movable rail is fully surrounded by the fixed rail, so that glass powder can be completely isolated when the movable rail slides in the fixed rail.

The lower end of the movable rail 10 is fixedly connected with a connecting arm 16, and the connecting arm 16 transversely extends to be fixedly connected with the equipment main body 5.

A space is arranged between the movable rail 10 and the upper bottom of the accommodating space 12; the transverse top surface of the movable rail 10 is arc-shaped, and the upper bottom of the accommodating space 12 is the same arc-shaped, so that the movable rail 10 can be conveniently installed in the fixed rail 9.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The double-station anti-sticking glass chamfering machine comprises a clamping mechanism, a chamfering mechanism and a conveying mechanism, and is characterized in that the conveying mechanism comprises an equipment main body and lifting suckers, the lifting suckers are arranged on the equipment main body, conveying sliding rails are arranged on two sides of the equipment main body, and the equipment main body moves through the conveying sliding rails;

the conveying slide rail comprises a fixed rail and a movable rail, a rail notch of the fixed rail faces downwards, the movable rail is connected in the fixed rail in a sliding manner through balls, and the movable rail is fixedly connected with the equipment main body.

2. The double-station anti-sticking glass chamfering machine according to claim 1, wherein rolling grooves with arc bottom surfaces are arranged on two sides of a track notch of the fixed rail, and accommodating spaces are arranged in the fixed rail corresponding to the movable rail; the movable rail is T-shaped, a plurality of mounting grooves are formed in the bottom surface of the transverse end of the movable rail, which corresponds to the rolling grooves, a ball is mounted in each mounting groove, and the other end of the ball is contacted with the rolling grooves.

3. The dual station release glass chamfering machine as defined in claim 2 wherein there is a gap between said movable rail and the upper bottom of the receiving space; the transverse top surface of the movable rail is arc-shaped, and the upper bottom of the accommodating space is the same arc-shape.

4. The double-station anti-sticking glass chamfering machine according to claim 3, wherein the lower end of the movable rail is fixedly connected with a connecting arm which transversely extends to be fixedly connected with the equipment main body.

5. The double-station anti-sticking glass chamfering machine according to claim 4, wherein the top surface of the fixed rail is provided with a mounting screw hole which is communicated with the accommodating space; the fixed rail is fixed on the connecting frame through the installation screw hole.

6. The dual-station anti-sticking glass chamfering machine according to claim 5, wherein the clamping mechanism is installed on a frame, the connecting frame is triangular, one face of the connecting frame is connected with the fixed rail, and the other face of the connecting frame is connected with the frame.

7. The double-station anti-sticking glass chamfering machine according to claim 6, wherein the machine frame and the chamfering mechanism are arranged on two sides of the running direction of the conveying mechanism, the clamping mechanism is arranged on the machine frame at the chamfering position, and the height of the machine frame where the conveying mechanism is located is lower than that of the machine frame where the clamping mechanism is located.