CN117430322B - Automatic glass cutting equipment - Google Patents

Abstract

The application provides a glass automatic cutout equipment belongs to glass cutting technical field, includes: the cutting table is provided with a first electric conveying belt on the upper surface, a first linear motor is arranged on the side wall of the cutting table, and a portal frame is arranged at the execution end of the first linear motor; the cutting mechanism is arranged on the side wall of the portal frame; the workbench is arranged on the side wall of the cutting table, a second electric conveying belt is arranged in the workbench, a bracket is rotationally connected to the side wall of the workbench, a first electric push rod is rotationally connected to the interior of the workbench, the execution end of the first electric push rod is rotationally connected with the bracket, a plurality of first U-shaped frames are rotationally connected to the bottom surface of the bracket, and a first pressing plate is rotationally connected between the plurality of first U-shaped frames; the dust removing mechanism is arranged inside the workbench. The glass cutting and scribing, breaking and feeding and discharging device can automatically complete cutting and scribing, breaking and feeding and discharging of glass, and the problem that great difficulty exists due to manual operation of personnel is avoided.

Description

Automatic glass cutting equipment

Technical Field

The application relates to the technical field of glass cutting, in particular to automatic glass cutting equipment.

Background

The glass automatic cutting device is a machine controlled by a numerical control system, and can automatically cut glass according to preset drawings or design requirements. After cutting and slotting the glass, the glass cutting machine also needs to convey the glass after slotting to a splitting workbench, and the glass after slotting is broken and molded and then transferred to a receiving device.

Referring to the Chinese patent with the application number of CN202020739899.X, the name is automatic glass cutting equipment, the cutting work of glass is automatically finished by freely adjusting the positions of a knife rest and a cutting knife head, and then the glass breaking work after cutting and slotting is manually finished by personnel.

With reference to the above technical solution, the applicant found that when a person manually breaks glass, it is inconvenient for the person to hold and apply force to some larger glass, and when the glass is light in weight, the glass at the tail is liable to tilt and break after the person manually applies force.

Disclosure of Invention

In view of this, this application provides a glass automatic cutout equipment, not only can accomplish cutting marking off, break off and go up unloading work of glass voluntarily, avoids the problem that exists great degree of difficulty because of personnel manual operation, but also can carry out effectual pressure to the glass afterbody and hold spacing in breaking off the in-process, reduces breaking off the probability that broken because of the perk of in-process glass's afterbody.

For solving the technical problem, the application provides a glass automatic cutting equipment, include: the cutting table is provided with a first electric conveying belt on the upper surface, a first linear motor is arranged on the side wall of the cutting table, and a portal frame is arranged at the execution end of the first linear motor; the cutting mechanism is arranged on the side wall of the portal frame and used for cutting and scribing glass placed on the upper surface of the cutting table; the workbench is arranged on the side wall of the cutting table, a second electric conveying belt is arranged in the workbench, a bracket is rotationally connected to the side wall of the workbench, a first electric push rod is rotationally connected to the inside of the workbench, the execution end of the first electric push rod is rotationally connected with the bracket, a plurality of first U-shaped frames are rotationally connected to the bottom surface of the bracket, and a first pressing plate is rotationally connected between the plurality of first U-shaped frames; the workbench is internally connected with a plurality of second U-shaped frames in a rotating way, a second pressing plate is connected between the second U-shaped frames in a rotating way, the second pressing plate is positioned above the second electric conveyor belt, the workbench is internally connected with a second electric push rod in a rotating way, and the execution end of the second electric push rod is connected with the second U-shaped frames in a rotating way; the bottom surface of the bracket is provided with a servo motor, an output shaft of the servo motor is fixedly connected with a worm, and the middle part of the first U-shaped frame is provided with a turbine which is meshed with the worm; the dust removing mechanism is arranged inside the workbench and is used for cleaning dust and glass residues attached to the surface of the second electric conveyer belt.

Through adopting above-mentioned technical scheme, when carrying out glass cutting work, first electronic conveyer belt operation carries the glass that outside feed equipment provided to the cutting bench, then first linear motor drives the portal frame and removes and make cutting mechanism cut the marking line to glass. And then the first electric conveying belt and the second electric conveying belt are matched to convey glass between the workbench and the bracket, at the moment, a longitudinal trace groove to be broken off is located between the workbench and the bracket after the glass is cut and scored, and after the first U-shaped frame rotates to enable the first pressing plate to be pressed on the surface of the glass, the first electric push rod operates to enable the bracket to rotate downwards, so that the breaking off operation of the glass at the longitudinal position is automatically completed. The dust removing mechanism can clean dust and glass residues attached to the surface of the second electric conveying belt.

When the servo motor operates to drive the worm to rotate, the first U-shaped frame rotates along with the worm to drive the first pressing plate to be pressed on the surface of the glass to carry out subsequent work under the influence of the meshing connection relation of the worm and the turbine.

When the breaking work is carried out, the second electric push rod operates to drive the second U-shaped frame to rotate, so that the second pressing plate is pressed at the tail of the glass. The second pressing plate is used for pressing and limiting the tail of the glass before breaking, so that the tail of the glass is prevented from tilting to lose a larger stressed supporting area in the breaking process, and the glass at the tail is prevented from being broken due to resonance force impact generated in the breaking process.

The automatic glass cutting and scribing, breaking and feeding and discharging device has the advantages that the automatic technology is adopted to complete cutting and scribing, breaking and feeding and discharging of glass, the problem of great difficulty caused by manual operation of personnel is avoided, meanwhile, the efficiency of the whole processing work can be improved to a certain extent, and the dust removing mechanism is utilized to automatically clean an operation table top so that follow-up work can be developed.

Optionally, the cutting mechanism includes: the second linear motor is arranged on the side wall of the portal frame; and the cutting head is arranged at the execution end of the second linear motor.

Through adopting above-mentioned technical scheme, when second linear motor operation drove the cutting head and remove, the cooperation of rethread first linear motor can carry out the cutting marking off work of different orbit to glass.

Optionally, all be provided with the sleeve in the installation mouth that first clamp plate upper surface evenly offered, the inside equal sliding connection of sleeve has the lifter, the equal spherical hinge in lifter bottom surface has the sucking disc.

Optionally, the array of first clamp plate upper surface is provided with the third electric putter, the linkage frame bottom surface that the third electric putter execution end set up is provided with the depression bar, the depression bar extends to inside the sleeve, the depression bar with be provided with the spring between the lifter.

Through adopting above-mentioned technical scheme, after the glass on the bracket accomplishes breaking off work on the longitudinal position, third electric putter operation drives link frame, depression bar, spring and lifter together and moves down, until the sucking disc adsorbs on glass surface, and then third electric putter is according to the horizontal trace groove position on the glass and is moderately flexible and exert pressure again, so that accomplish the glass and break off work on the longitudinal position, this in-process spring can provide certain elasticity tensioning force for the lifter and make the sucking disc can carry out free swing according to breaking off the angle. Then when the bracket is unfolded outwards, the sucker can drive the broken glass to hang on external receiving equipment and carry out discharging work.

By independently applying force to different transverse points on the surface of the glass, the breaking work and the subsequent discharging work of the glass at the transverse position are automatically completed, and the labor burden of personnel is further reduced.

Optionally, the dust removing mechanism includes: a cleaning roller rotatably connected to the inside of the workbench and abutted against the second electric conveyor belt; the dust hood is arranged inside the workbench and is used for being matched with an external dust collector to adsorb dust and glass residues scraped by the cleaning roller.

Optionally, the cleaning roller and the driving shaft of the second electric conveyer belt are both provided with belt pulleys, and the two belt pulleys are connected through belt transmission.

Through adopting above-mentioned technical scheme, can rotate along with it because of the transmission effect cleaning roller of belt pulley at the operation in-process of second electronic conveyer belt, clean the dust that second electronic conveyer belt surface attached and because of breaking off the glass residue that the work produced off the fingers and thumb under the prerequisite that does not increase driving cost, finally the dust hood cooperates dust and the glass residue that will scrape the cleaning roller with outside dust catcher and sucks away, reduces the glass that follow-up transportation to second electronic conveyer belt surface and is scratched probability.

In summary, compared with the prior art, the present application includes at least one of the following beneficial technical effects:

1. the automatic glass cutting and scribing, breaking and loading and unloading are completed by adopting an automatic technology, the problem of great difficulty caused by manual operation of personnel is avoided, and meanwhile, the efficiency of the whole processing work can be improved to a certain extent.

2. When the breaking work is carried out, the tail part of the glass can be automatically pressed and limited, and the tail part of the glass is prevented from tilting to lose a larger stressed supporting area in the breaking process, so that the glass at the tail end is prevented from being broken due to resonance force impact generated in the breaking process.

3. In the operation process of the second electric conveyer belt, the cleaning roller is driven to rotate through the transmission effect of the belt pulley, dust attached to the surface of the second electric conveyer belt and glass residues generated by breaking work are cleaned on the premise of not increasing driving cost, and finally dust and glass residues scraped by the cleaning roller are sucked away by the cooperation of the dust hood and an external dust collector, so that the probability of scratching glass transported to the surface of the second electric conveyer belt in the follow-up process is reduced.

Drawings

FIG. 1 is a schematic view of a glass automatic cutting apparatus according to the present application;

FIG. 2 is a schematic view of a structure of the display workbench from the bottom up view of the present application;

FIG. 3 is an enlarged view of a portion of area A of FIG. 2 of the present application;

FIG. 4 is a cross-sectional view of the display table from the main perspective of the present application;

fig. 5 is a cross-sectional view showing the first platen from the main perspective of the present application.

Reference numerals illustrate: 1. a cutting table; 11. a first electric conveyor belt; 12. a first linear motor; 13. a portal frame; 2. a cutting mechanism; 21. a second linear motor; 22. a cutting head; 3. a work table; 31. a second electric conveyor belt; 32. a second U-shaped frame; 33. a second pressing plate; 34. a second electric push rod; 4. a bracket; 41. a first U-shaped frame; 42. a first platen; 421. a sleeve; 422. a lifting block; 423. a suction cup; 424. a third electric push rod; 425. a linkage frame; 426. a compression bar; 427. a spring; 43. a servo motor; 44. a worm; 45. a turbine; 5. a first electric push rod; 6. a dust removing mechanism; 61. a cleaning roller; 62. a dust hood; 63. a belt pulley.

Detailed Description

For the purposes, technical solutions and advantages of the embodiments of the present application to be more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to fig. 1 to 5 of the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the described embodiments of the present application are within the scope of the protection of the present application.

Referring to fig. 1, the embodiment provides an automatic glass cutting apparatus, which comprises a cutting table 1, wherein a first electric conveyer belt 11 is arranged on the upper surface of the cutting table 1, a first linear motor 12 is arranged on the side wall of the cutting table 1, and a portal frame 13 is arranged at the execution end of the first linear motor 12; the side wall of the portal frame 13 is provided with a cutting mechanism 2 for cutting and scribing glass placed on the upper surface of the cutting table 1; the cutting table 1 is provided with a workbench 3 on the side wall, a second electric conveyer belt 31 is arranged in the workbench 3, a bracket 4 is rotatably connected to the side wall of the workbench 3, a first electric push rod 5 (refer to fig. 2) is rotatably connected to the workbench 3, an execution end of the first electric push rod 5 is rotatably connected with the bracket 4, a plurality of first U-shaped frames 41 are rotatably connected to the bottom surface of the bracket 4, and a first pressing plate 42 is rotatably connected between the plurality of first U-shaped frames 41; a dust removing mechanism 6 (see fig. 2) is provided inside the table 3 for cleaning dust and glass residues adhering to the surface of the second electric conveyer 31.

When the glass cutting work is carried out, the first electric conveying belt 11 runs to convey glass provided by external feeding equipment to the cutting table 1, and then the first linear motor 12 drives the portal frame 13 to move so that the cutting mechanism 2 cuts and lines the glass.

Then, the first electric conveying belt 11 and the second electric conveying belt 31 are matched to convey glass between the workbench 3 and the bracket 4, at the moment, a longitudinal trace groove to be broken after cutting and scribing on the glass is ensured to be positioned between the workbench 3 and the bracket 4, and after the first U-shaped frame 41 rotates to enable the first pressing plate 42 to be pressed on the surface of the glass, the first electric push rod 5 operates to enable the bracket 4 to rotate downwards, so that the breaking work of the glass in the longitudinal position is automatically completed.

The dust removing mechanism 6 can remove dust and glass residues adhering to the surface of the second electric conveyer belt 31.

The automatic glass cutting and scribing, breaking and loading and unloading work is completed by adopting an automatic technology, the problem of great difficulty caused by manual operation of personnel is avoided, meanwhile, the efficiency of the whole processing work can be improved to a certain extent, and the operation table top can be automatically cleaned by utilizing the dust removing mechanism 6 so as to facilitate the development of subsequent work.

Referring to fig. 1, the cutting mechanism 2 includes a second linear motor 21, and the second linear motor 21 is disposed on a side wall of the gantry 13; the execution end of the second linear motor 21 is provided with a cutting head 22.

When the second linear motor 21 operates to drive the cutting head 22 to move, the glass can be cut and scribed in different tracks through the cooperation of the first linear motor 12.

Referring to fig. 1 and 2, a plurality of second U-shaped frames 32 are rotatably connected inside the workbench 3, a second pressing plate 33 is rotatably connected between the plurality of second U-shaped frames 32, the second pressing plate 33 is located above the second electric conveyer 31, a second electric push rod 34 (refer to fig. 4) is rotatably connected inside the workbench 3, and an execution end of the second electric push rod 34 is rotatably connected with the second U-shaped frames 32.

When the breaking operation is performed, the second electric push rod 34 operates to drive the second U-shaped frame 32 to rotate, so that the second pressing plate 33 is pressed at the tail of the glass.

The second pressing plate 33 is used for pressing and limiting the tail of the glass before breaking, so that the tail of the glass is prevented from tilting to lose a larger stressed supporting area in the breaking process, and the glass at the tail is prevented from being broken due to resonance force impact generated in the breaking process.

Referring to fig. 3, a servo motor 43 is provided on the bottom surface of the bracket 4, a worm 44 is fixedly connected to an output shaft of the servo motor 43, and a turbine 45 engaged with the worm 44 is provided in the middle of the first U-shaped frame 41.

When the servo motor 43 operates to drive the worm 44 to rotate, the first U-shaped frame 41 rotates along with the worm 44 to drive the first pressing plate 42 to press against the glass surface to perform subsequent work under the influence of the meshing connection relationship between the worm 44 and the turbine 45.

Referring to fig. 1 and 5, sleeves 421 are all arranged in mounting holes uniformly formed in the upper surface of the first pressing plate 42, lifting blocks 422 are all slidably connected in the sleeves 421, and suction cups 423 are all hinged to the bottom surfaces of the lifting blocks 422.

Referring to fig. 1 and 5, a third electric push rod 424 is disposed on the upper surface of the first pressing plate 42 in an array manner, a pressing rod 426 is disposed on the bottom surface of a linkage frame 425 disposed at the execution end of the third electric push rod 424, the pressing rod 426 extends into the sleeve 421, and a spring 427 is disposed between the pressing rod 426 and the lifting block 422.

After the glass on the bracket 4 is broken off in the longitudinal position, the third electric push rod 424 operates to drive the linkage frame 425, the compression bar 426, the spring 427 and the lifting block 422 to move downwards together until the suction disc 423 is adsorbed on the surface of the glass, then the third electric push rod 424 stretches moderately according to the transverse groove position on the glass and applies pressure, so that the glass is broken off in the longitudinal position, and the spring 427 can provide a certain elastic tension for the lifting block 422 in the process to enable the suction disc 423 to swing freely according to the breaking angle.

Then when the bracket 4 is unfolded outwards, the sucker 423 can drive the broken glass to hang on external receiving equipment and carry out discharging work.

By independently applying force to different transverse points on the surface of the glass, the breaking work and the subsequent discharging work of the glass at the transverse position are automatically completed, and the labor burden of personnel is further reduced.

Referring to fig. 2 and 4, the dust removing mechanism 6 includes a cleaning roller 61, the cleaning roller 61 is rotatably connected inside the table 3, and the cleaning roller 61 abuts against the second electric conveyer belt 31; inside the table 3 is provided a suction hood 62 for sucking dust and glass residues scraped by the cleaning roller 61 in cooperation with an external cleaner.

Referring to fig. 2, a pulley 63 is provided on each of the cleaning roller 61 and the driving shaft of the second electric conveyer 31, and both pulleys 63 are connected by a belt transmission.

The cleaning roller 61 rotates along with the belt pulley 63 under the transmission action of the belt pulley during the operation of the second electric conveyer belt 31, dust attached to the surface of the second electric conveyer belt 31 and glass residues generated by breaking off work are cleaned on the premise of not increasing the driving cost, and finally the dust hood 62 is matched with an external dust collector to suck away the dust and the glass residues scraped off by the cleaning roller 61, so that the probability of scratching glass transported to the surface of the second electric conveyer belt 31 in the follow-up process is reduced.

The implementation principle of the automatic glass cutting equipment provided by the embodiment of the application is as follows: when the glass cutting operation is carried out, the first electric conveying belt 11 operates to convey glass provided by external feeding equipment to the cutting table 1, then the first linear motor 12 drives the portal frame 13 to transversely move, the second linear motor 21 operates to drive the cutting head 22 to longitudinally move, and the first linear motor 12 and the second linear motor 21 are matched to enable the cutting head 22 to cut and score the glass in different tracks.

The first and second electric conveyor belts 11, 31 then cooperate to convey the glass between the table 3 and the carrier 4, while ensuring that the longitudinal score-slot to be broken after the cut score-line on the glass is located between the table 3 and the carrier 4. The servo motor 43 then operates to rotate the worm 44, and the first U-shaped frame 41 rotates to urge the first platen 42 against the glass surface, as affected by the meshing connection of the worm 44 and the worm wheel 45.

Then the second electric push rod 34 operates to drive the second U-shaped frame 32 to rotate until the second pressing plate 33 is pressed on the tail of the glass, and the first electric push rod 5 operates to drive the bracket 4 to rotate downwards, so that the breaking work of the glass in the longitudinal position is automatically completed.

After the glass on the bracket 4 is broken off in the longitudinal position, the third electric push rod 424 operates to drive the linkage frame 425, the compression bar 426, the spring 427 and the lifting block 422 to move downwards together until the suction disc 423 is adsorbed on the surface of the glass, then the third electric push rod 424 stretches moderately according to the transverse groove position on the glass and applies pressure, so that the glass is broken off in the longitudinal position, and the spring 427 can provide a certain elastic tension for the lifting block 422 in the process to enable the suction disc 423 to swing freely according to the breaking angle.

Then the bracket 4 is unfolded outwards, so that the sucker 423 drives the broken glass to hang on external receiving equipment and carry out discharging work.

In addition, the cleaning roller 61 rotates with the belt pulley 63 during the operation of the second electric conveyer 31, and the dust adhering to the surface of the second electric conveyer 31 and the glass residues generated by the breaking operation are cleaned without increasing the driving cost. The dust hood 62 cooperates with an external dust collector to suck away dust and glass residues scraped off by the cleaning roller 61, and reduces the probability of scratching glass subsequently transported to the surface of the second electric conveyer belt 31.

Furthermore, it should be noted that, in the description of the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those skilled in the art as the case may be.

While the foregoing is directed to the preferred embodiments of the present application, it should be noted that modifications and adaptations to those embodiments may occur to one skilled in the art and that such modifications and adaptations are intended to be comprehended within the scope of the present application without departing from the principles set forth herein.

Claims (2)

1. An automatic glass cutting apparatus, comprising:

the cutting table (1) is provided with a first electric conveying belt (11) on the upper surface, a first linear motor (12) is arranged on the side wall of the cutting table (1), and a portal frame (13) is arranged at the execution end of the first linear motor (12);

the cutting mechanism (2) is arranged on the side wall of the portal frame (13) and is used for cutting and scribing glass placed on the upper surface of the cutting table (1);

the workbench (3) is arranged on the side wall of the cutting table (1), a second electric conveyer belt (31) is arranged inside the workbench (3), a bracket (4) is rotationally connected to the side wall of the workbench (3), a first electric push rod (5) is rotationally connected to the inside of the workbench (3), the execution end of the first electric push rod (5) is rotationally connected with the bracket (4), a plurality of first U-shaped frames (41) are rotationally connected to the bottom surface of the bracket (4), and a first pressing plate (42) is rotationally connected between the plurality of first U-shaped frames (41);

the workbench (3) is internally connected with a plurality of second U-shaped frames (32) in a rotating way, a second pressing plate (33) is rotatably connected between the second U-shaped frames (32), the second pressing plate (33) is positioned above the second electric conveying belt (31), the workbench (3) is internally connected with a second electric push rod (34) in a rotating way, and the executing end of the second electric push rod (34) is rotatably connected with the second U-shaped frames (32);

a servo motor (43) is arranged on the bottom surface of the bracket (4), a worm (44) is fixedly connected to an output shaft of the servo motor (43), and a turbine (45) meshed with the worm (44) is arranged in the middle of the first U-shaped frame (41);

the dust removing mechanism (6) is arranged inside the workbench (3) and is used for removing dust and glass residues attached to the surface of the second electric conveyor belt (31);

the upper surface of the first pressing plate (42) is provided with sleeves (421) in an array, the sleeves (421) penetrate through the first pressing plate (42), lifting blocks (422) are slidably connected inside the sleeves (421), and suction cups (423) are hinged to the bottom surfaces of the lifting blocks (422) in a spherical mode;

a third electric push rod (424) is arranged on the upper surface of the first pressing plate (42) in an array mode, a pressing rod (426) is arranged on the bottom surface of a linkage frame (425) arranged at the execution end of the third electric push rod (424), the pressing rod (426) extends into the sleeve (421), and a spring (427) is arranged between the pressing rod (426) and the lifting block (422);

the dust removing mechanism (6) includes: a cleaning roller (61) rotatably connected to the inside of the table (3) and abutted against the second electric conveyor belt (31);

a dust hood (62) which is provided inside the table (3) and is used for sucking dust and glass residues scraped by the cleaning roller (61) in cooperation with an external dust collector;

the cleaning roller (61) and the driving shaft of the second electric conveying belt (31) are respectively provided with a belt pulley (63), and the two belt pulleys (63) are connected through belt transmission.

2. An automatic glass cutting apparatus according to claim 1, wherein the cutting mechanism (2) comprises:

a second linear motor (21) provided on the side wall of the gantry (13);

and a cutting head (22) provided at the execution end of the second linear motor (21).