CN113733370A - Photoelectric glass cutting machine capable of accurately controlling cutting process and method - Google Patents

Abstract

The invention discloses a photoelectric glass cutting machine capable of accurately controlling a cutting process and a method thereof, wherein the photoelectric glass cutting machine comprises an installation box, a control box is installed on the front surface of the installation box, a dust suction device is installed inside the installation box, an air cylinder a is installed inside the installation box and is positioned below the dust suction device, an installation plate is installed at the top of the installation box, a workbench is movably installed at the top of the installation plate, a support frame is installed on the top wall of the installation plate, installation frames are installed on two sides of the installation box in an embedded mode, and a Y-axis driving mechanism is installed on the inner side of each installation frame. The glass cutting machine can slide on the top of the mounting plate through the workbench, the workbench can slide out of the top of the mounting plate after glass processing, and the stability of the workbench during sliding can be guaranteed through the embedding of the sliding block in the sliding groove, so that a worker can take the cut glass off the glass cutting machine conveniently, the working efficiency of the worker is improved, and the glass cutting machine is convenient for the worker to use.

Description

Photoelectric glass cutting machine capable of accurately controlling cutting process and method

Technical Field

The invention relates to the technical field of cutting machines, in particular to a photoelectric glass cutting machine and a method capable of accurately controlling a cutting process.

Background

The photoelectric glass cutting machine is a processing machine special for glass processing and blanking, and comprises an air-floating sheet conveying table and a double-bridge overpass type cutting table which are arranged end to end, but when the existing photoelectric glass cutting machine is used, a worker cannot conveniently take out cut glass, the glass is taken out, the work efficiency of the worker is reduced, and the work efficiency of the worker is relatively high.

The prior art cutting machine has the following defects:

1. the comparison document CN104609716B discloses a photoelectric glass cutting machine, "relate to glass cutting machinery, the prior art inefficiency is solved, it is big to consume, the defect of low accuracy, it can improve productivity to provide one kind, the big and thickness requirement that will cut glass original size is more and more thin, and can cut out the glass of polylith different specifications, size, reduce the consumption of raw and other materials, improve work efficiency, be the important equipment that reduces manufacturing cost, through computer automatic control, mutually support between three axles, make the cutting force even, steady, it is quick, the noise is little and the cutting effect can't be replaced by all glass cutting equipment before. Particularly, the ultrathin glass can be cut into any shape, so that the working efficiency is greatly improved, but when the ultrathin glass cutting device is used, a worker cannot conveniently take out the cut glass, the glass is taken out more difficultly, and the working efficiency of the worker is reduced;

2. in the prior art, most of cutting machines are inconvenient for workers to disassemble, and the workers are troublesome to maintain;

3. in the prior art, when the cutting machine is used, the cutting process can not be accurately controlled, the precision of the cutting machine for cutting glass is reduced, and the cutting machine is inconvenient for workers to use;

4. when the cutting machine in the prior art is used, most of the glass materials cannot be well fixed, so that glass is easy to shake during cutting, and the glass cutting precision is affected.

Disclosure of Invention

The present invention is directed to a photoelectric glass cutting machine and a method thereof, which can precisely control the cutting process, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme that the photoelectric glass cutting machine and the method capable of accurately controlling the cutting process comprise an installation box, wherein a control box is installed on the front surface of the installation box, a dust suction device is installed inside the installation box, a cylinder a is installed inside the installation box, and the cylinder a is positioned below the dust suction device;

the top of the mounting box is provided with a mounting plate, the top of the mounting plate is movably provided with a workbench, and the top wall of the mounting plate is provided with a support frame;

the mounting bracket is installed in the both sides gomphosis of install bin, Y axle actuating mechanism is installed to the inboard of mounting bracket.

Preferably, the outer walls of the two sides of the installation box are provided with connecting grooves, and the top wall of the installation box is provided with a through hole a.

Preferably, the top of control box is equipped with the display screen, and control panel is installed on the front of control box.

Preferably, the collecting box is movably mounted inside the mounting box and is positioned below the dust suction device.

Preferably, the output of cylinder a runs through and installs in the bottom of install bin, and the connecting plate is installed to cylinder a's output, and the universal wheel is installed to the bottom of connecting plate, and the spliced pole is installed to the bottom of install bin, and the inboard movable mounting of spliced pole has the base, and spring damper is installed at the top of base, and spring damper is connected with the interior roof of spliced pole.

Preferably, the top of the mounting plate is provided with a through hole b, the top of the mounting plate is provided with a sliding groove, and the sliding groove is positioned on two sides of the through hole b.

Preferably, the bottom of workstation is installed the slider, and the mounting groove has been seted up at the top of workstation, and dust absorption mouth a has been seted up to the diapire of mounting groove, and the slipmat is installed to the inboard of mounting groove, and the top of slipmat is equipped with dust absorption mouth b.

Preferably, a cylinder b is installed at the top of the support frame, the output end of the cylinder b penetrates through the bottom of the support frame, and a pressure plate is installed at the output end of the cylinder b.

Preferably, the stopper is installed to the inside wall of mounting bracket, and drive block an is installed to Y axle actuating mechanism's outer wall, and X axle actuating mechanism is installed to drive block an's inboard, and the locating lever is located X axle actuating mechanism's top, and drive block b is installed to X axle actuating mechanism's outer wall, and Z axle actuating mechanism is installed to drive block b's outer wall, and the connecting rod is installed to the bottom of mounting bracket.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the glass cutting machine, the sliding groove is formed in the top of the mounting plate, the workbench can slide on the top of the mounting plate, the workbench can slide out of the top of the mounting plate after glass is machined, and the stability of the workbench during sliding can be guaranteed by embedding the sliding block in the sliding groove, so that a worker can take cut glass off the glass cutting machine conveniently, the working efficiency of the worker is improved, and the glass cutting machine is convenient for the worker to use.

2. According to the Y-axis driving mechanism, the mounting frames are installed on the two sides of the mounting box in an embedded mode, the limiting blocks are installed on the inner side wall of the mounting frame, the mounting positions can be provided for the transmission mechanism of the Y-axis driving mechanism through the mounting frames, the stability of the Y-axis driving mechanism is guaranteed, the mounting frames can be conveniently installed on the two sides of the mounting box by workers through the fact that the limiting blocks are embedded on the inner sides of the connecting grooves, when the transmission mechanism needs to be overhauled, the workers can conveniently take down the transmission mechanism, and the working efficiency of the workers is improved.

3. The driving block a can be driven to move in the Y-axis direction when the Y-axis driving mechanism runs, the driving block a can provide an installation position for the X-axis driving mechanism, the driving block b can be driven to move in the X-axis direction when the X-axis driving mechanism runs, the driving block b is connected with the positioning rod, and the stability of the driving block b in moving can be improved through the positioning rod, so that the cutting process can be accurately controlled, the glass cutting precision of the cutting machine is improved, and the cutting machine is convenient for workers to use.

4. The mounting position can be provided for the air cylinder b through the support frame, the stability of the air cylinder b is guaranteed, the pressing plate can be driven to press downwards when the air cylinder b runs, the glass material can be pressed tightly through the pressing plate, the glass material is prevented from shaking during machining, the stability of the glass material during machining is guaranteed, the precision of the cutting machine for cutting the glass is improved, the cutting machine is convenient for workers to use, the mounting position can be provided for the non-slip mat through the mounting groove, the stability of the non-slip mat is guaranteed, the non-slip mat can prevent the glass from sliding during machining, and the stability of the glass during machining is guaranteed.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the mounting box of the present invention;

FIG. 3 is a schematic view of the structure of the mounting box of the present invention;

FIG. 4 is a schematic diagram of a mounting plate structure according to the present invention;

FIG. 5 is a schematic view of the structure of the working table of the present invention;

FIG. 6 is a schematic structural view of a pressing device according to the present invention;

FIG. 7 is a schematic view of the structure of the mounting bracket of the present invention;

fig. 8 is a schematic structural diagram of the transmission mechanism of the present invention.

In the figure: 1. installing a box; 101. a through hole a; 102. connecting grooves; 2. a control box; 201. a display screen; 202. a control panel; 3. a dust collection device; 301. a collection box; 4. a cylinder a; 401. a connecting plate; 402. a universal wheel; 403. connecting columns; 404. a spring damper; 405. a base; 5. mounting a plate; 501. a through hole b; 502. a chute; 6. a work table; 601. a slider; 602. mounting grooves; 603. a dust suction port a; 604. a non-slip mat; 605. a dust suction port b; 7. a support frame; 701. a cylinder b; 702. a material pressing plate; 8. a mounting frame; 801. a limiting block; 802. a Y-axis drive mechanism; 803. a driving block a; 804. an X-axis drive mechanism; 805. positioning a rod; 806. a drive block b; 807. a Z-axis drive mechanism; 808. a connecting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, 2 and 3, a photoelectric glass cutting machine and a method for precisely controlling a cutting process,

the first embodiment is as follows: the glass cutting machine is characterized in that connecting grooves 102 are formed in the outer walls of two sides of the installation box 1, a through hole a101 is formed in the top wall of the installation box 1, a control box 2 is installed on the front face of the installation box 1, a display screen 201 is arranged on the top of the control box 2, a control panel 202 is installed on the front face of the control box 2, a dust suction device 3 is installed inside the installation box 1, a collection box 301 is movably installed inside the installation box 1, the collection box 301 is located below the dust suction device 3, the operation of the glass cutting machine can be controlled through the control box 2, the dust suction device 3 can suck dust from the top of the installation plate 5 through the through hole a101 and a through hole b501, the sucked dust enters the inner side of the collection box 301 and is collected through the collection box 301, an air cylinder a4 is installed inside the installation box 1, the output end of the air cylinder a4 penetrates through the bottom of the installation box 1, and a connecting plate 401 is installed at the output end of the air cylinder a4, universal wheel 402 is installed to the bottom of connecting plate 401, can drive connecting plate 401 and go up and down during operation through cylinder a4, remove glass-cutting machine in needs, descend through connecting plate 401, make universal wheel 402 support install bin 1, can be convenient for the staff through universal wheel 402 and remove glass-cutting machine, spliced pole 403 is installed to the bottom of install bin 1, the inboard movable mounting of spliced pole 403 has base 405, spring damper 404 is installed at the top of base 405, and spring damper 404 is connected with the interior roof of spliced pole 403, can carry on spacingly to base 405 through spliced pole 403, can slide in the inboard of spliced pole 403 through base 405, spring damper 404 is installed at the top of rethread base 405, spring damper 404 is connected with the interior roof of spliced pole 403, make base 405 have the shock attenuation effect, guarantee that glass-cutting machine can stable operation.

Referring to fig. 1, 4, 5, 6 and 7, an electro-optical glass cutting machine and a method for precisely controlling a cutting process,

example two: the mounting box comprises a mounting box 1, a mounting plate 5 is mounted at the top of the mounting box 1, a through hole b501 is formed in the top of the mounting plate 5, a sliding groove 502 is formed in the top of the mounting plate 5, the sliding groove 502 is located on two sides of the through hole b501, the mounting plate 5 can slide on the top of the mounting plate 5 through a workbench 6, after glass is processed, the workbench 6 can slide out from the top of the mounting plate 5, and the sliding block 601 is embedded in the sliding groove 502 to ensure the stability of the workbench 6 during sliding, so that a worker can take off cut glass from a glass cutting machine conveniently, the working efficiency of the worker is improved, the worker can use the glass conveniently, the workbench 6 is movably mounted at the top of the mounting plate 5, the sliding block 601 is mounted at the bottom of the workbench 6, a mounting groove 602 is formed in the top of the workbench 6, a dust suction port a603 is formed in the bottom wall of the mounting groove 602, and an anti-slip pad 604 is mounted on the inner side of the mounting groove 602, a dust suction port b605 is arranged above the non-slip mat 604, the dust suction device 3 can normally suck dust generated by glass cutting through the dust suction port a603 and the dust suction port b605, an installation position can be provided for the non-slip mat 604 through the installation groove 602, the stability of the non-slip mat 604 is ensured, the non-slip mat 604 can prevent glass from sliding during processing, the stability of the glass during processing is ensured, the support frame 7 is installed on the top wall of the installation plate 5, the cylinder b701 is installed on the top of the support frame 7, the output end of the cylinder b701 penetrates through the bottom of the support frame 7, the pressure plate 702 is installed at the output end of the cylinder b701, the installation position can be provided for the cylinder b701 through the support frame 7, the stability of the cylinder b701 is ensured, the pressure plate 702 can be driven to press downwards when the cylinder b701 operates, the glass material can be compressed through the pressure plate 702, and the glass material is prevented from shaking during processing, the stability of glass material when processing is guaranteed, the precision of cutting machine to glass cutting is improved, and the staff of being convenient for uses.

Referring to fig. 1 and 8, a photoelectric glass cutting machine and a method for precisely controlling the cutting process,

example three: the mounting frame 8 is installed on two sides of the mounting box 1 in an embedded mode, the limiting block 801 is installed on the inner side wall of the mounting frame 8, a mounting position can be provided for a transmission mechanism of the Y-axis driving mechanism 802 through the mounting frame 8, the stability of the Y-axis driving mechanism 802 is guaranteed, the mounting frame 8 can be conveniently installed on two sides of the mounting box 1 by a worker through the fact that the limiting block 801 is embedded on the inner side of the connecting groove 102, when the transmission mechanism needs to be overhauled, the transmission mechanism can be conveniently taken down by the worker, the working efficiency of the worker is improved, the Y-axis driving mechanism 802 is installed on the inner side of the mounting frame 8, the driving block a803 is installed on the outer wall of the Y-axis driving mechanism 802, the X-axis driving mechanism 804 is installed on the inner side of the driving block a803, the positioning rod 805 is located above the X-axis driving mechanism 804, and the driving block b806 is installed on the outer wall of the X-axis driving mechanism 804, z axle actuating mechanism 807 is installed to the outer wall of drive block b806, connecting rod 808 is installed to the bottom of mounting bracket 8, can drive block a803 through Y axle actuating mechanism 802 operation and move in the Y axle direction, drive block a803 can provide the mounted position for X axle actuating mechanism 804, can drive block b806 through X axle actuating mechanism 804 operation and move in the X axle direction, be connected with locating lever 805 through drive block b806, can increase the stability of drive block b806 when removing through locating lever 805, thereby can accurate control cutting process, improve the precision of cutting machine to glass-cutting, the staff of being convenient for uses, can provide the mounted position for Z axle actuating mechanism 807 drive mechanism through drive block b806, install the cutting head through the bottom of Z axle actuating mechanism 807, cut glass through the cutting head.

The method of use of the device is as follows,

1. the pressing plate 702 can be driven to press downwards through the air cylinder b701 during operation, the glass material can be pressed through the pressing plate 702 to prevent the glass material from shaking during processing, the cutting head is driven to move in a three-dimensional space through the X-axis driving mechanism 804, the Y-axis driving mechanism 802 and the Z-axis driving mechanism 807 to cut the glass through the cutting head, the glass can slide at the top of the mounting plate 5 through the workbench 6, the workbench 6 can slide out of the top of the mounting plate 5 after the glass is processed, the stability of the workbench 6 during sliding can be ensured through the embedding of the sliding block 601 in the sliding groove 502, so that a worker can take the cut glass off from the glass cutting machine conveniently, the base 405 can be limited through the connecting column during the operation of the device, the base 405 can slide at the inner side of the connecting column 403 through the base 405, and the spring damper 403 is installed at the top of the base 405, the spring damper 404 is connected with the inner top wall of the connecting column 403, so that the base 405 has a damping effect, and the glass cutting machine can stably operate;

2. the dust suction device 3 can suck dust from the top of the mounting plate 5 through the through hole a101 and the through hole b501, the dust suction device 3 can normally suck dust generated by glass cutting through the dust suction port a603 and the dust suction port b605, the sucked dust enters the inner side of the collecting box 301, and the dust is collected through the collecting box 301;

3. when the glass cutting machine needs to be moved, the connecting plate 401 descends, so that the universal wheels 402 support the installation box 1, and workers can move the glass cutting machine conveniently through the universal wheels 402;

4. when maintaining the device, through stopper 801 gomphosis in the inboard of spread groove 102, can be convenient for the staff installs mounting bracket 8 in the both sides of install bin 1, when needs overhaul drive mechanism, can be convenient for the staff take off drive mechanism, improve staff's work efficiency.

The working principle is that the support frame 7 can provide an installation position for the air cylinder b701, the stability of the air cylinder b701 is ensured, the pressing plate 702 can be driven to press downwards through the operation of the air cylinder b701, the glass material can be pressed through the pressing plate 702, the driving block a803 can be driven to move in the Y-axis direction through the operation of the Y-axis driving mechanism 802, the driving block a803 can provide an installation position for the X-axis driving mechanism 804, the driving block b806 can be driven to move in the X-axis direction through the operation of the X-axis driving mechanism 804, the driving block b806 is connected with the positioning rod 805, the stability of the driving block b806 in the moving process can be increased through the positioning rod 805, the installation position can be provided for the transmission mechanism of the Z-axis driving mechanism 807 through the driving block b806, the cutting head is installed at the bottom of the Z-axis driving mechanism 807, the glass is cut through the cutting head, the operation of the glass cutting machine can be controlled through the control box 2, the dust suction device 3 can suck dust at the top of the mounting plate 5 through the through hole a101 and the through hole b501, the dust suction device 3 can normally suck dust generated by glass cutting through the dust suction port a603 and the dust suction port b605, the sucked dust enters the inner side of the collecting box 301, the dust is collected through the collecting box 301, the workbench 6 can slide out of the top of the mounting plate 5 after the glass is machined, the stability of the workbench 6 during sliding can be ensured through the sliding block 601 embedded in the sliding groove 502, so that a worker can take the cut glass off from the glass cutting machine, the work efficiency of the worker is improved, the worker can conveniently use the glass cutting machine, the connecting plate 401 can be driven to lift when the glass cutting machine needs to be moved through the air cylinder a4, the mounting box 1 is supported through the universal wheels 402, and the worker can conveniently move the glass cutting machine through the universal wheels 402, can provide the mounted position for Y axle actuating mechanism 802 drive mechanism through mounting bracket 8, guarantee the stability of Y axle actuating mechanism 802, inboard at spread groove 102 through stopper 801 gomphosis, can be convenient for the staff installs the both sides at install bin 1 with mounting bracket 8, when needs overhaul drive mechanism, can be convenient for the staff takes off drive mechanism, improve staff's work efficiency, can carry on spacingly to base 405 through spliced pole 403, can slide in spliced pole 403 inboard through base 405, spring damper 404 is installed at the top of rethread base 405, spring damper 404 is connected with the interior roof of spliced pole 403, make base 405 have the shock attenuation effect, guarantee the operation that glass-cutting machine can be stable.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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 (9)

1. The utility model provides a but photoelectricity glass-cutting machine of accurate control cutting process and method, includes install bin (1), its characterized in that: the front surface of the installation box (1) is provided with a control box (2), a dust suction device (3) is installed inside the installation box (1), a cylinder a (4) is installed inside the installation box (1), and the cylinder a (4) is located below the dust suction device (3);

the top of the mounting box (1) is provided with a mounting plate (5), the top of the mounting plate (5) is movably provided with a workbench (6), and the top wall of the mounting plate (5) is provided with a support frame (7);

mounting bracket (8) are installed in the both sides gomphosis of install bin (1), Y axle actuating mechanism (802) are installed to the inboard of mounting bracket (8).

2. The photoelectric glass cutting machine and the method capable of precisely controlling the cutting process according to claim 1, wherein: the outer wall of two sides of the installation box (1) is provided with a connecting groove (102), and the top wall of the installation box (1) is provided with a through hole a (101).

3. The photoelectric glass cutting machine and the method capable of precisely controlling the cutting process according to claim 1, wherein: the top of control box (2) is equipped with display screen (201), and control panel (202) are installed on the front of control box (2).

4. The photoelectric glass cutting machine and the method capable of precisely controlling the cutting process according to claim 1, wherein: the dust collector is characterized in that a collecting box (301) is movably mounted inside the mounting box (1), and the collecting box (301) is located below the dust collecting device (3).

5. The photoelectric glass cutting machine and the method capable of precisely controlling the cutting process according to claim 1, wherein: the output of cylinder a (4) runs through and installs in the bottom of install bin (1), connecting plate (401) are installed to the output of cylinder a (4), universal wheel (402) are installed to the bottom of connecting plate (401), spliced pole (403) are installed to the bottom of install bin (1), the inboard movable mounting of spliced pole (403) has base (405), spring damper (404) are installed at the top of base (405), and spring damper (404) are connected with the interior roof of spliced pole (403).

6. The photoelectric glass cutting machine and the method capable of precisely controlling the cutting process according to claim 1, wherein: through-hole b (501) have been seted up at the top of mounting panel (5), spout (502) have been seted up at the top of mounting panel (5), and spout (502) are located the both sides of through-hole b (501).

7. The photoelectric glass cutting machine and the method capable of precisely controlling the cutting process according to claim 1, wherein: the bottom of workstation (6) is installed slider (601), and mounting groove (602) have been seted up at the top of workstation (6), and dust absorption mouth a (603) have been seted up to the diapire of mounting groove (602), and slipmat (604) are installed to the inboard of mounting groove (602), and the top of slipmat (604) is equipped with dust absorption mouth b (605).

8. The photoelectric glass cutting machine and the method capable of precisely controlling the cutting process according to claim 1, wherein: cylinder b (701) is installed at the top of support frame (7), and the output of cylinder b (701) runs through and installs in the bottom of support frame (7), and pressure flitch (702) are installed to the output of cylinder b (701).

9. The photoelectric glass cutting machine and the method capable of precisely controlling the cutting process according to claim 1, wherein: limiting blocks (801) are installed on the inner side wall of the mounting rack (8), driving blocks a (803) are installed on the outer wall of the Y-axis driving mechanism (802), X-axis driving mechanisms (804) are installed on the inner side of the driving blocks a (803), positioning rods (805) are installed on the inner side of the driving blocks a (803), the positioning rods (805) are located above the X-axis driving mechanisms (804), driving blocks b (806) are installed on the outer wall of the X-axis driving mechanisms (804), Z-axis driving mechanisms (807) are installed on the outer wall of the driving blocks b (806), and connecting rods (808) are installed at the bottom of the mounting rack (8).

Images