CN210825941U - Cutting device for production of toughened glass - Google Patents

Abstract

The utility model relates to the technical field of glass processing, in particular to a cutting device for toughened glass production, which saves labor and time and improves efficiency; comprises a cutter; the display screen is placed on the left front end of the welding frame, and the two groups of first bases are fixed on the front face and the back face of the welding frame respectively.

Description

Cutting device for production of toughened glass

Technical Field

The utility model relates to a technical field of glass processing especially relates to a cutting device for toughened glass production.

Background

As is known, a cutting device for the production of tempered glass is an auxiliary device for the production of glass, which is widely used in the field of glass processing; the existing cutting device for the production of toughened glass comprises a cutter; when the existing cutting device for producing toughened glass is used, a handle of a cutter is held by a hand, and then the cutter is stroked to cut the glass; present a cutting device for toughened glass production discovers in using, and cutter manual operation leads to wasting time and energy with leaning on artifical measurement size, and is inefficient, and the measurement size causes the deviation easily.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a cutting device for toughened glass production which uses manpower sparingly, time, raises the efficiency.

The utility model relates to a cutting device for toughened glass production, which comprises a cutter; the display screen is placed on the ground at the left front end of the welding frame, the two groups of first bases are respectively fixed at the front and the back upper ends of the welding frame, the four groups of first sliding rails are respectively fixed on the inner bottom surfaces of the two groups of first bases, the four groups of first bearings are respectively embedded in inner holes at the left and the right ends of the two groups of first bases, two groups of first screw sleeves are respectively arranged in two groups of first bases and are in sliding fit with two groups of first slide rails left and right and are simultaneously in rotating fit with two groups of first screw rods, two groups of first screw rods and two groups of first servo motors are respectively connected and arranged, two groups of first servo motors are connected and arranged with two groups of first base end surfaces, two groups of first screw sleeve connecting blocks are connected with two groups of first screw sleeves, two groups of first cover plates are fixedly arranged on the two groups of first bases by penetrating through middle holes of the two groups of first screw sleeve connecting blocks, a second base is fixedly arranged on the right side surface of a cross beam, two second slide rails are fixed on the inner bottom surface of the second base, two groups of second bearings are respectively embedded in inner holes at the left and right ends of the second base, a second screw rod is arranged in the second base and is in sliding fit with the second screw sleeves left and right and is simultaneously in rotating fit with the second screw rod, and, the second servo motor is connected with the end face of the second base, the second lead screw sleeve connecting block is connected with the second lead screw sleeve, the second end cover penetrates through a middle hole of the second lead screw sleeve connecting block and is fixedly installed on the second base, the cross beam is connected with the first lead screw sleeve connecting block and the second lead screw sleeve connecting block, the output end of the motor is connected with a motor fixing plate, the motor fixing plate is connected with the upper end face of a cylinder, the cylinder connecting block is connected with the output end of a cylinder rod of the cylinder, two groups of first copper sleeves are embedded in the inner end faces of the left hole and the right hole of the cylinder connecting block, four groups of second copper sleeves are embedded in four middle end face holes of the cylinder connecting block, and a pin shaft penetrates through the two groups of first copper sleeves, the two groups of pressing wheels, the four groups of.

The utility model discloses a cutting device for toughened glass production still includes work platform and air-blower, and work platform connects on welded frame, and the air-blower is installed and is located at work platform lower extreme blowing port.

The utility model discloses a cutting device for toughened glass production still includes the sensor, sensor installation work platform left front end.

The utility model discloses a cutting device for toughened glass production, the cylinder upper end links to each other with the motor fixed plate.

The utility model discloses a cutting device for toughened glass production, two sets of first bases and two sets of first cover connection are fixed, and second end cover and second base are connected fixedly.

The utility model discloses a cutting device for toughened glass production, two sets of pinch rollers are connected with the cylinder connecting block through the round pin axle.

The utility model discloses a cutting device for toughened glass production, support the wire casing and connect in the preceding below of weld frame.

The utility model discloses a cutting device for toughened glass production still includes four group's footing, and four group's footing are installed on four angles of welding frame lower extreme.

Compared with the prior art, the beneficial effects of the utility model are that: the display screen shows the drawing and convenience of customers compares, control first servo motor drive first lead screw and pass through first lead screw cover and drive first lead screw cover connecting block and accomplish and remove the removal, while second servo motor drive second lead screw drives second lead screw cover connecting block and cooperates first lead screw cover connecting block to drive the crossbeam seesaw in step, motor drive motor fixed plate takes the actuating cylinder, the cylinder connecting block, the round pin axle, first copper sheathing, the pinch roller, second copper sheathing and cutter are accomplished rotatoryly, simultaneously the cylinder drives the cylinder connecting block and drives the round pin axle, first copper sheathing, the pinch roller, second copper sheathing and cutter accomplish the downstream, can accomplish corresponding size glass-cutting according to the drawing procedure fast, save manpower, time, and efficiency is improved.

Drawings

FIG. 1 is a schematic view of a motor and motor mounting plate assembly (enlarged);

FIG. 2 is a front view of the first base and the first cover plate in the lower part of the drawing, and FIG. 2 is a sectional view A-A of the lower end view of FIG. 2 in the upper part of the drawing;

FIG. 3 is a front view of the second base and the second cover plate in the lower end view, and FIG. 3 is a sectional view B-B of the lower end view of FIG. 3 in the upper end view;

fig. 4 is a front view of the present invention;

FIG. 5 is a cross-sectional view C-C of FIG. 6;

fig. 6 is a schematic top view of the present invention;

fig. 7 is a schematic view of the axial measurement structure of the present invention;

reference numerals: 1. a display screen; 2. welding the frame; 3. a wire supporting groove; 4. a first base; 5. a first slide rail; 6. a first bearing; 7. a first lead screw sleeve; 8. a first lead screw; 9. a first servo motor; 10. a first lead screw sleeve connecting block; 11. a first cover plate; 12. a second base; 13. a second slide rail; 14. a second bearing; 15. a second lead screw sleeve; 16. a second lead screw; 17. a second servo motor; 18. a second lead screw sleeve connecting block; 19. a second end cap; 20. a cross beam; 21. a motor; 22. a motor fixing plate; 23. a cylinder; 24. a cylinder connecting block; 25. a pin shaft; 26. a first copper bush; 27. a pinch roller; 28. a second copper sleeve; 29. a cutter; 30. a working platform; 31. footing; 32. a blower; 33. a sensor.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 to 7, the cutting device for tempered glass production of the present invention comprises a cutting knife 29; the display screen comprises a display screen 1, a welding frame 2, two groups of first bases 4, four groups of first sliding rails 5, four groups of first bearings 6, two groups of first screw sleeves 7, two groups of first screws 8, two groups of first servo motors 9, two groups of first screw sleeve connecting blocks 10, two groups of first cover plates 11, a second base 12, two groups of second sliding rails 13, two groups of second bearings 14, a second screw sleeve 15, a second screw 16, a second servo motor 17, a second screw sleeve connecting block 18, a second end cover 19, a cross beam 20, a motor 21, a motor fixing plate 22, a cylinder 23, a cylinder connecting block 24, a pin shaft 25, two groups of first copper sleeves 26, two groups of press wheels 27 and four groups of second copper sleeves 28, wherein the display screen 1 is placed on the ground at the left front end of the welding frame 2, the two groups of first bases 4 are respectively fixed at the front and back upper ends of the welding frame 2, the four groups of first sliding rails 5 are respectively fixed on the inner bottom surfaces of the two groups of first, four groups of first bearings 6 are respectively embedded in inner holes at the left end and the right end of two groups of first bases 4, two groups of first lead screw sleeves 7 are respectively installed inside the two groups of first bases 4 and are in sliding fit with two groups of first slide rails 5 left and right and are in rotating fit with the two groups of first lead screws 8, two groups of first lead screws 8 and two groups of first servo motors 9 are respectively installed in a connecting mode, two groups of first servo motors 9 and two groups of first bases 4 are installed in a connecting mode, two groups of first lead screw sleeve connecting blocks 10 are connected with the two groups of first lead screws 7, two groups of first cover plates 11 are fixedly installed on the two groups of first bases 4 through middle holes of the two groups of first lead screw sleeve connecting blocks 10, a second base 12 is fixedly installed on the right side face of a cross beam 20, two second slide rails 13 are fixed on the inner bottom face of the second base 12, two groups of second bearings 14 are respectively embedded in inner holes at the left end and the right end of the second base 12, a second lead screw 16 is installed inside the second A second screw 16 is connected with a second servo motor 17, the second servo motor 17 is connected with the end surface of a second base 12, a second screw sleeve connecting block 18 is connected with a second screw sleeve 15, a second end cover 19 is fixedly arranged on the second base 12 through a middle hole of the second screw sleeve connecting block 18, a cross beam 20 is connected with a first screw sleeve connecting block 10 and the second screw sleeve connecting block 18, the output end of a motor 21 is connected with a motor fixing plate 22, the motor fixing plate 22 is connected with the upper end surface of an air cylinder 23, the air cylinder connecting block 24 is connected with the air cylinder rod output end of the air cylinder 23, two groups of first copper sleeves 26 are embedded on the inner end surfaces of the left and right holes of the air cylinder connecting block 24, four groups of second copper sleeves 28 are embedded on four end surface holes in the middle of the air cylinder connecting block 24, and a pin shaft 25 passes through the two groups of first copper sleeves, the middle holes of the two groups of pressing wheels 27, the four groups of second copper sleeves 28 and the cutting knife 29 are connected in the middle hole of the cylinder connecting block 24; the display screen 1 displays drawings and facilitates comparison of users, a first servo motor 9 is controlled to drive a first lead screw 8 to drive a first lead screw sleeve connecting block 10 to move left and right through a first lead screw 7, meanwhile, a second servo motor 17 drives a second lead screw 16 to drive a second lead screw sleeve connecting block 18 and to cooperate with the first lead screw sleeve connecting block 10 to synchronously drive a cross beam 20 to move front and back, a motor 21 drives a motor fixing plate 22 to drive a cylinder 23, a cylinder connecting block 24, a pin shaft 25, a first copper sleeve 26, a pinch roller 27, a second copper sleeve 28 and a cutter 29 to rotate, the cylinder 23 drives the cylinder connecting block 24 to drive the pin shaft 25, the first copper sleeve 26, the pinch roller 27, the second copper sleeve 28 and the cutter 29 to move downwards, accordingly, glass cutting with corresponding sizes can be rapidly completed according to drawing programs, manpower and time are saved, and efficiency is improved.

In the cutting device for producing toughened glass, the air blower 32 blows air through the holes on the working platform 30 to form an air film between the glass and the working platform 30, so that the glass is convenient to disassemble; and a sensor 33, wherein the sensor 33 is arranged at the left front end of the working platform 30.

The utility model discloses a cutting device for toughened glass production, which also comprises a sensor 33, wherein the sensor 33 is arranged at the left front end of the working platform 30; the position of the glass is detected through the sensor 33, so that the positioning is quick and accurate, the time is saved, and the efficiency is improved.

The utility model relates to a cutting device for toughened glass production, the upper end of a cylinder 23 is connected with a motor fixing plate 22; the cylinder 23 has more convenient return stroke and is not easy to deform.

The utility model relates to a cutting device for toughened glass production, wherein two groups of first bases 4 and two groups of first cover plates 11 are fixedly connected, and a second end cover 19 and a second base 12 are fixedly connected; the power part is sealed by the two groups of the first cover plate 11 and the second end cover 19 so as to avoid danger caused by touch of hands, and the safety is improved.

In the cutting device for producing toughened glass, two groups of pressing wheels 27 are connected with a cylinder connecting block 24 through pin shafts 25; two sets of pinch rollers 27 are installed about the cutter, compress tightly fixedly when the cutter cuts glass, and the cutting can not remove, guarantees size accuracy.

The utility model relates to a cutting device for toughened glass production, a wire supporting groove 3 is connected below the front surface of a welding frame 2; the electric wire is supported by the wire supporting groove 3 to make the wiring beautiful.

The cutting device for the production of the toughened glass of the utility model also comprises four groups of feet 31, wherein the four groups of feet 31 are arranged at four corners at the lower end of the welding frame 2; the flatness of the working table surface can be ensured by adjusting the heights of the four groups of feet 31, and the quality of processed products is ensured.

The utility model discloses a cutting device for toughened glass production, it is at the during operation, at first observe the drawing through display screen 1, then sensor 33 detects the glass original point, later the first lead screw 8 of first servo motor 9 drive drives and controls about crossbeam 20, second servo motor 17 drives second lead screw 16 simultaneously and drives 18 seesaws of second lead screw cover connecting block, motor 21 driving motor fixed plate 22 drives cylinder 23, cylinder connecting block 24, round pin axle 25, first copper sheathing 26, pinch roller 27, second copper sheathing 28 and cutter 29 are rotatory, cylinder 23 drives cylinder connecting block 24 simultaneously and drives round pin axle 25, first copper sheathing 26, pinch roller 27, second copper sheathing 28 and cutter 29 downstream accomplish the glass cutting can.

The utility model discloses a cutting device for toughened glass production, its mounting means, connected mode or set up the mode and be common mechanical system, as long as can reach all can implement of its beneficial effect.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A cutting device for the production of tempered glass, comprising a cutting knife (29); it is characterized by also comprising a display screen (1), a welding frame (2), two groups of first bases (4), four groups of first sliding rails (5), four groups of first bearings (6), two groups of first lead screw sleeves (7), two groups of first lead screws (8), two groups of first servo motors (9), two groups of first lead screw sleeve connecting blocks (10), two groups of first cover plates (11), a second base (12), two groups of second sliding rails (13), two groups of second bearings (14), a second lead screw sleeve (15), a second lead screw (16), a second servo motor (17), a second lead screw sleeve connecting block (18), a second end cover (19), a cross beam (20), a motor (21), a motor fixing plate (22), a cylinder (23), a cylinder connecting block (24), a pin shaft (25), two groups of first copper sleeves (26), two groups of pinch rollers (27) and four groups of second copper sleeves (28), wherein the display screen (1) is placed on the ground at the left front end of the welding frame (2), two groups of first bases (4) are respectively fixed at the upper ends of the front and the back of a welding frame (2), four groups of first sliding rails (5) are respectively fixed on the inner bottom surfaces of the two groups of first bases (4), four groups of first bearings (6) are respectively embedded in inner holes at the left and the right ends of the two groups of first bases (4), two groups of first screw sleeves (7) are respectively arranged in the two groups of first bases (4) and are in sliding fit with the two groups of first sliding rails (5) left and right and are simultaneously in rotating fit with the two groups of first screw rods (8), the two groups of first screw rods (8) and the two groups of first servo motors (9) are respectively connected and arranged, the two groups of first servo motors (9) and the two groups of first bases (4) are connected and arranged, the two groups of first screw sleeve connecting blocks (10) are connected with the two groups of first screw sleeves (7), the two groups of first cover plates (11) pass through intermediate holes of the two groups of first screw sleeve connecting blocks (10) and, the second base (12) is fixedly arranged on the right side surface of the cross beam (20), two second sliding rails (13) are fixed on the inner bottom surface of the second base (12), two groups of second bearings (14) are respectively embedded in inner holes at the left end and the right end of the second base (12), a second lead screw (16) is arranged in the second base (12) and is in sliding fit with a second lead screw sleeve (15) left and right and is in rotating fit with the second lead screw (16), the second lead screw (16) is connected with a second servo motor (17), the second servo motor (17) is connected with the end surface of the second base (12), a second lead screw sleeve connecting block (18) is connected with the second lead screw sleeve (15), a second end cover (19) passes through a middle hole of the second lead screw sleeve connecting block (18) and is fixedly arranged on the second base (12), the cross beam (20) is connected with the first lead screw sleeve connecting block (10) and the second lead screw sleeve connecting block (18), motor (21) output and motor fixed plate (22) are connected, motor fixed plate (22) and cylinder (23) up end are connected, cylinder connecting block (24) and cylinder (23) cylinder pole output are connected the installation, two sets of first copper sheathing (26) are inlayed the terminal surface in two holes about cylinder connecting block (24), four group's second copper sheathing (28) are inlayed on four terminal surface holes in the middle of cylinder connecting block (24), round pin axle (25) are passed two sets of first copper sheathing (26), two sets of pinch rollers (27), four group's second copper sheathing (28) and cutter (29) centre hole are connected in cylinder connecting block (24) centre hole.

2. A cutting apparatus for tempered glass production as claimed in claim 1, further comprising a work platform (30) and a blower (32), wherein the work platform (30) is attached to the welding frame (2), and the blower (32) is installed at a blowing port at a lower end of the work platform (30).

3. A cutting device for the production of tempered glass as in claim 2, wherein the position of the glass is detected by a sensor (33) to make the positioning fast and accurate, save time and improve efficiency.

4. A cutting apparatus for use in the production of tempered glass as claimed in claim 3, wherein the upper end of the cylinder (23) is connected to the motor fixing plate (22).

5. A cutting device for the production of tempered glass as in claim 4, wherein two sets of first bases (4) and two sets of first cover plates (11) are fixedly connected, and wherein the second end caps (19) and the second bases (12) are fixedly connected.

6. A cutting device for the production of tempered glass as in claim 5, wherein two sets of press wheels (27) are connected to the cylinder connecting block (24) by pins (25).

7. A cutting device for the production of tempered glass according to claim 6, characterized in that the wire-holding groove (3) is connected below the front face of the welding frame (2).

8. A cutting device for the production of tempered glass as claimed in claim 7, further comprising four sets of feet (31), wherein the four sets of feet (31) are mounted at four corners of the lower end of the welding frame (2).

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