CN116903237A - Glass tectorial membrane cutting device - Google Patents

Abstract

The invention belongs to the technical field of glass cutting, and particularly relates to a glass tectorial membrane cutting device, which comprises a feeding mechanism and a working platform, wherein the working platform is provided with a cutting mechanism, the cutting mechanism comprises a portal frame, a transverse driving component and a longitudinal driving component, the portal frame is connected with a sliding seat in a sliding manner, the longitudinal driving component is provided with a cutting knife, the working platform is provided with a transverse sliding rail, the working platform is also provided with a fixed-length control mechanism, the fixed-length control mechanism comprises a first sliding frame and a second sliding frame, the working platform is internally provided with a first transmission component, the first transmission component comprises a first gear, a first straight rack, a second gear and a second straight rack, and the working platform is connected with a first rotating shaft and a second rotating shaft; according to the invention, the second probe is always positioned at the middle point between the stay bar and the first probe through the fixed-length control mechanism, so that fixed-length cutting is performed, and the stay bar of the second carriage is always aligned with the cutting seam, so that fixed-length breaking is facilitated.

Description

Glass tectorial membrane cutting device

Technical Field

The invention belongs to the technical field of glass cutting, and particularly relates to a glass coating cutting device.

Background

In the composition of a display screen, a glass cover plate is an indispensable important component, and people usually need to cut the glass cover plate in size, and film the surface of the glass cover plate to protect the surface of the glass.

The prior patent (application number CN 202110982987.1) discloses a float ultra-thin glass cutting device, which aims at the means, and discovers that a large gap exists between each piece of cover glass after the cover glass is cut, and a large waste exists in the film utilization process, so another solution is proposed, namely, the whole glass is comprehensively coated firstly, and then the coated glass is cut, so that the utilization rate of the film is improved.

However, in the technology of the patent, it is not easy for people to cut the coated glass at a fixed length and break the glass at a fixed length.

Disclosure of Invention

The purpose of the invention is that: aims to provide a glass coating cutting device which is used for solving the problems existing in the background technology.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

the glass laminating cutting device comprises a feeding mechanism and a working platform, wherein the feeding mechanism comprises a plurality of feeding platforms which are transversely arranged, and each feeding platform comprises a plurality of feeding rollers which are transversely arranged;

the cutting mechanism comprises a portal frame, a transverse driving assembly and a longitudinal driving assembly, wherein the portal frame is connected with a sliding seat in a sliding manner, the transverse driving assembly is in transmission connection with the sliding seat, the longitudinal driving assembly is fixedly installed with the sliding seat, and a cutting knife is installed on the longitudinal driving assembly;

the working platform is symmetrically provided with first probes matched with the portal frame, two sides of the working platform are respectively provided with a transverse sliding rail, the working platform is also provided with a fixed length control mechanism, the fixed length control mechanism comprises a first sliding frame and a second sliding frame, two sides of the first sliding frame are respectively and transversely connected with the transverse sliding rails in a sliding manner, two sides of the second sliding frame are respectively and transversely connected with the transverse sliding rails in a sliding manner, the first sliding frame is positioned between the portal frame and the second sliding frame, and two sides of the first sliding frame are symmetrically provided with second probes;

the inside of the working platform is of a hollow structure and is provided with a first transmission assembly, the first transmission assembly comprises a first gear, a first straight rack, a second gear and a second straight rack, the first straight rack is fixedly connected with the first sliding frame, the second straight rack is fixedly connected with the second sliding frame, a first rotating shaft and a second rotating shaft are also rotationally connected inside the working platform, the first gear is fixedly arranged on the first rotating shaft, the second gear is fixedly arranged on the second rotating shaft, the gear ratio of the second gear to the first gear is 2:1, the first gear is meshed with the first straight rack, the second gear is meshed with the second straight rack, and the first rotating shaft is in transmission connection with the second rotating shaft through the second transmission assembly;

the utility model provides a piece mechanism is broken off with fingers and thumb to work platform still carriage, work platform has still erect the frame, frame fixed mounting has hold-down mechanism, hold-down mechanism is including fixed platform and a plurality of second electric telescopic handle, the second electric telescopic handle with fixed platform installs fixedly, fixed platform is located and is close to one side of portal frame, each the flexible end of second electric telescopic handle extends fixedly connected with pressure flitch downwards, the work platform has seted up the indent, it includes the vaulting pole to break off with fingers and thumb the piece mechanism, the bar spout has been seted up to indent both sides inner wall, the vaulting pole with bar spout sliding connection, just the vaulting pole with second balladeur train both ends fixed connection.

The second transmission assembly comprises a first motor and belt pulleys, wherein the first motor is fixedly arranged in the working platform, an output shaft of the first motor is fixedly connected with the first rotating shaft, the number of the belt pulleys is two and respectively connected with the first rotating shaft and the second rotating shaft in a fixed mode, and the two belt pulleys are in transmission connection through a transmission belt.

The horizontal drive assembly comprises a positioning rod, a screw rod and a second motor, wherein the positioning rod and the screw rod are installed on the top of the portal frame in a erected mode, a first connecting frame is fixedly connected to the upper side of the sliding seat, a sliding table is fixedly connected to the upper end of the first connecting frame, the screw rod is in threaded rotary connection with one side of the sliding table, and the positioning rod is in sliding connection with the other side of the sliding table.

The longitudinal driving assembly comprises a first electric telescopic rod, the first electric telescopic rod is fixedly arranged on the upper side of the sliding seat, and the movable end of the first electric telescopic rod is fixedly arranged with the cutting knife.

The sheet breaking mechanism further comprises two sliding platforms, two V-shaped connecting frames, a plurality of third electric telescopic rods and a plurality of sliding rods, wherein the two sliding platforms are in sliding connection with the frame, the two V-shaped connecting frames are respectively fixed on two sides of the second sliding frame, two ends of each V-shaped connecting frame are respectively fixedly connected with the two sliding platforms, the third electric telescopic rods are fixedly installed on one sliding platform close to the portal frame, the sliding rods are in sliding connection with the other sliding platform, the telescopic ends of the third electric telescopic rods are fixedly installed on the second connecting frames together with the sliding rods, elastic pressing components are arranged at the lower ends of the telescopic ends of the third electric telescopic rods, and sheet breaking plates are arranged at the lower ends of the sliding rods.

The working platform is further provided with a plurality of strip-shaped grooves communicated with the inner grooves, each strip-shaped groove is slidably connected with a strip-shaped supporting block, and each strip-shaped supporting block is fixedly connected with the supporting rod.

The elastic pressing assembly comprises a first mounting plate, a second mounting plate and a plurality of spring rods, wherein the first mounting plate is fixedly connected with the lower end of the telescopic end of the third electric telescopic rod, and the first mounting plate is fixedly connected with the second mounting plate through the spring rods.

The inside of the working platform is also provided with a bucket-shaped slag discharging channel positioned at the lower side of the inner groove, and the bottom surface of the inner groove is provided with a plurality of strip-shaped leakage grooves.

According to the invention, the fixed-length control mechanism is arranged, so that the second probe of the first sliding frame is always positioned at the middle point between the stay bar of the second sliding frame and the first probe of the portal frame, the glass can be cut in a fixed length, and the stay bar of the second sliding frame can support the lower surface of the coated glass and is aligned with the cutting seam, so that the fixed-length piece breaking after the coated glass cutting is facilitated.

Drawings

The invention may be further illustrated by means of non-limiting examples given in the accompanying drawings.

FIG. 1 is a schematic diagram of the overall structure of a first embodiment of the present invention;

FIG. 2 is a schematic side view of a working platform according to a first embodiment of the present invention;

fig. 3 is a schematic perspective view of a first embodiment of a working platform in an initial state;

fig. 4 is a schematic perspective view of a second embodiment of the present invention in an initial state of a working platform;

fig. 5 is a schematic diagram of a three-dimensional structure after adjustment of a fixed-length control mechanism according to a first embodiment of the present invention;

fig. 6 is a schematic diagram of a second perspective structure of the first embodiment of the present invention after adjustment of the fixed-length control mechanism;

fig. 7 is a schematic perspective view of a working platform according to a second embodiment of the present invention in an initial state;

fig. 8 is a schematic perspective view of an adjusted fixed length control mechanism according to a second embodiment of the present invention;

fig. 9 is a schematic view of an installation structure of the breaking mechanism of the present invention;

the main reference numerals are as follows:

the feeding platform 100, the feeding roller 101, the working platform 110, the first probe 111, the inner groove 112, the bar-shaped chute 113, the portal frame 120, the sliding seat 121, the cutting knife 122, the transverse sliding rail 130, the first sliding frame 131, the second sliding frame 132, the second probe 133, the first gear 140, the first straight rack 141, the second gear 142, the second straight rack 143, the first rotating shaft 144, the second rotating shaft 145, the first motor 150, the belt pulley 151, the positioning rod 160, the screw 161, the second motor 162, the first connecting frame 163, the sliding table 164, the first electric telescopic rod 165, the frame 170, the fixed platform 171, the second electric telescopic rod 172, the pressing plate 173 and the supporting rod 180;

the device comprises a sliding platform 200, a V-shaped connecting frame 201, a third electric telescopic rod 202, a sliding rod 203, a second connecting frame 204, a breaking plate 205, a strip-shaped groove 206, a strip-shaped supporting block 207, a first mounting plate 208, a second mounting plate 209, a spring rod 210, a bucket-shaped slag discharging channel 211 and a strip-shaped leakage groove 212.

Detailed Description

In order that those skilled in the art will better understand the present invention, the following technical scheme of the present invention will be further described with reference to the accompanying drawings and examples.

Embodiment 1, as shown in fig. 1 to 6, a glass coated film cutting device comprises a feeding mechanism and a working platform 110, wherein the feeding mechanism comprises a plurality of feeding platforms 100 which are transversely arranged, and the feeding platforms 100 comprise a plurality of feeding rollers 101 which are transversely arranged;

a cutting mechanism is arranged at one end of the working platform 110, which is close to the feeding mechanism, and comprises a portal frame 120, a transverse driving component and a longitudinal driving component, wherein the portal frame 120 is connected with a sliding seat 121 in a sliding manner, the transverse driving component is in transmission connection with the sliding seat 121, the longitudinal driving component is fixedly arranged on the sliding seat 121, and a cutting knife 122 is arranged on the longitudinal driving component;

the working platform 110 is symmetrically provided with a first probe 111 matched with the portal frame 120, both sides of the working platform 110 are provided with transverse sliding rails 130, the working platform 110 is also provided with a fixed length control mechanism, the fixed length control mechanism comprises a first sliding frame 131 and a second sliding frame 132, both sides of the first sliding frame 131 are transversely connected with the transverse sliding rails 130 in a sliding manner, both sides of the second sliding frame 132 are transversely connected with the transverse sliding rails 130 in a sliding manner, the first sliding frame 131 is positioned between the portal frame 120 and the second sliding frame 132, and both sides of the first sliding frame 131 are symmetrically provided with a second probe 133;

the working platform 110 is internally of a hollow structure and is provided with a first transmission assembly, the first transmission assembly comprises a first gear 140, a first straight rack 141, a second gear 142 and a second straight rack 143, the first straight rack 141 is fixedly connected with a first sliding frame 131, the second straight rack 143 is fixedly connected with a second sliding frame 132, a first rotating shaft 144 and a second rotating shaft 145 are also rotationally connected inside the working platform 110, the first gear 140 is fixedly arranged on the first rotating shaft 144, the second gear 142 is fixedly arranged on the second rotating shaft 145, the gear ratio of the second gear 142 to the first gear 140 is 2:1, the first gear 140 is meshed with the first straight rack 141, the second gear 142 is meshed with the second straight rack 143, and the first rotating shaft 144 is in transmission connection with the second rotating shaft 145 through the second transmission assembly;

the working platform 110 is also provided with a piece breaking mechanism in a sliding manner, the working platform 110 is provided with an inner groove 112, the piece breaking mechanism comprises a supporting rod 180, the inner walls of two sides of the inner groove 112 are provided with strip-shaped sliding grooves 113, the supporting rod 180 is in sliding connection with the strip-shaped sliding grooves 113, and the supporting rod 180 is fixedly connected with two ends of the second sliding frame 132.

In the initial state of the device, as shown in fig. 1 to 4:

(1) the longitudinal driving component drives the cutting knife 122 to ascend, and the transverse driving component drives the sliding seat 121 to approach to one end of the portal frame 120;

(2) the first carriage 131 of the fixed-length control mechanism is positioned at one side of the working platform 110 close to the portal frame 120, the second carriage 132 is positioned at one side of the inner groove 112 close to the portal frame 120, and at this time, the distance between the first probe 111 and the second probe 133 is equal to the distance between the second carriage 132 and the first carriage 131;

the device comprises the following steps in the using process:

step (1): for the cutting size of the glass, the fixed length control mechanism is adjusted as follows, as shown in fig. 5 to 6:

firstly, the first rotating shaft 144 and the second rotating shaft 145 are started by the second transmission assembly to rotate in the same speed and the same direction, then the two first gears 140 and the second gear 142 are rotated in the same speed and the same direction, and when the second gear 142 and the first gear 140 rotate, the number of teeth of the second gear 142 is 2 times that of the gears rotated by the first gear 140 because the number of teeth of the second gear 142 and the first gear 140 are 2:1, so that the movement distance of the second straight rack 143 is 2 times that of the first straight rack 141, and the movement distance of the second carriage 132 away from the portal frame 120 is 2 times that of the first carriage 131 away from the portal frame 120;

assuming that the distance between the first probe 111 of the gantry 120 and the second probe 133 of the first carriage 131 in the initial state is X, the distance between the stay 180 of the second carriage 132 and the first probe 111 of the gantry 120 is 2, and it can be known that the second probe 133 of the first carriage 131 is located at the midpoint between the stay 180 of the second carriage 132 and the first probe 111 of the gantry 120;

after the adjustment of the fixed length control mechanism, the distance that the first carriage 131 moves away from the gantry 120 is Δx, and as can be seen from the foregoing, the distance that the second carriage 132 moves away from the gantry 120 is 2Δx, where the distance between the second probe 133 of the first carriage 131 and the first probe 111 of the gantry 120 is x+Δx, and the distance between the stay 180 of the second carriage 132 and the first probe 111 of the gantry 120 is 2x+2Δx, so that during the adjustment of the fixed length control mechanism, the second probe 133 of the first carriage 131 is always located at the midpoint between the stay 180 of the second carriage 132 and the first probe 111 of the gantry 120;

the distance between the second probe 133 of the first carriage 131 and the first probe 111 of the portal frame 120 can be adjusted by people through the fixed-length control mechanism, and the distance between the second probe 133 of the first carriage 131 and the first probe 111 of the portal frame 120 is used as the cutting size of glass, so that the control of the cutting size of the glass is realized;

step (2): the glass after being conveyed and coated moves towards the working platform 110 by rotating the feeding rollers 101 of the feeding platform 100, and the conveyed coated glass can be subjected to distance measurement by the first probe 111 and the second probe 133 (the specific principle is that after a coated glass plate enters the working platform 110, the end faces of the coated glass plate sequentially pass through the first probe 111 and the second probe 133, so that the time difference of the end faces of the glass plate is detected by the first probe 111 and the second probe 133 and the distance measurement data between the first probe 111 and the second probe 133 are obtained by measuring and calculating the feeding speed of the feeding platform 100), and the feeding platform 100 can control the feeding length of the glass according to the distance measurement data, so that the fixed-length conveying of the glass is realized;

step (3): the longitudinal driving component of the cutting mechanism pushes the cutting knife 122 to descend and abut against the surface of the glass, and then the transverse driving component drives the sliding seat 121 to move along the portal frame 120, and as the upper surface of the glass is coated, the coating on the upper surface of the glass can be cut by the cutting knife 122 firstly, and then a cutting seam is cut on the upper surface of the glass;

step (4): after the glass is cut, as the feeding platform 100 continues to convey the coated glass, the coated glass with the cut seam moves towards the second carriage 132, and since the second probe 133 of the first carriage 131 is always located at the midpoint between the stay bar 180 of the second carriage 132 and the first probe 111 of the portal frame 120, the stay bar 180 of the second carriage 132 supports the lower surface of the coated glass and aligns with the cut seam (specifically, in each third cutting process, the cut seam on the lower surface of the coated glass supported by the stay bar 180 is the cut seam cut for the first time, and two pieces of coated glass with cut dimensions exist between the first probe 111 and the stay bar 180 of the second carriage 132);

step (5): people can cut the film-covered glass into pieces with fixed length by aligning the stay bars 180 with the cutting slits through the piece breaking mechanism;

according to the invention, the fixed-length control mechanism is arranged, so that the second probe of the first sliding frame is always positioned at the middle point between the stay bar of the second sliding frame and the first probe of the portal frame, the glass can be cut in a fixed length, and the stay bar of the second sliding frame can support the lower surface of the coated glass and is aligned with the cutting seam, so that the fixed-length piece breaking after the coated glass cutting is facilitated.

As a further explanation of the second transmission assembly of the present embodiment, as shown in fig. 4 to 6, the second transmission assembly includes a first motor 150 and a belt pulley 151, the first motor 150 is fixed in the working platform 110, the output shaft of the first motor 150 is fixedly connected to the first rotating shaft 144, the number of the belt pulleys 151 is two and respectively fixedly connected to the first rotating shaft 144 and the second rotating shaft 145, and the two belt pulleys 151 are connected by transmission belt.

When the first motor 150 is started, the first rotating shaft 144 can be driven to rotate, and as the first rotating shaft 144 and the second rotating shaft 145 are both provided with the belt pulleys 151 with the same specification, the first rotating shaft 144 and the second rotating shaft 145 can rotate in the same direction and at the same speed under the transmission of the belt, and the structure is simple and the installation is convenient.

As a further explanation of the transverse driving assembly of this embodiment, as shown in fig. 2 and 3, the transverse driving assembly includes a positioning rod 160, a screw 161 and a second motor 162, the positioning rod 160 and the screw 161 are installed on the top of the portal frame 120 in a erecting manner, a first connecting frame 163 is fixedly connected to the upper side of the sliding seat 121, a sliding table 164 is fixedly connected to the upper end of the first connecting frame 163, the screw 161 is in threaded rotation connection with one side of the sliding table 164, and the positioning rod 160 is in sliding connection with the other side of the sliding table 164.

The second motor 162 is started to enable the screw 161 to rotate, the screw 161 is in threaded connection with the sliding table 164, the sliding table 164 can move relative to the screw 161 under the positioning of the positioning rod 160 and the sliding table 164, and accordingly the first connecting frame 163 and the sliding seat 121 are driven to move, and the cutting knife 122 is driven to move to cut a cutting seam.

As a further explanation of the longitudinal driving assembly of this embodiment, as shown in fig. 2, the longitudinal driving assembly includes a first electric telescopic rod 165, where the first electric telescopic rod 165 is fixedly mounted on the upper side of the sliding seat 121, and the movable end of the first electric telescopic rod 165 is fixedly mounted on the cutter 122.

The movable end of the first electric telescopic rod 165 can be extended and contracted, and the cutter blade 122 can be controlled to be lowered to come into contact with the glass surface when cutting the glass.

As a further improvement and explanation of this embodiment, as shown in fig. 1, 2, 3 and 5, the working platform 110 is further provided with a frame 170, the frame 170 is fixedly provided with a pressing mechanism, the pressing mechanism includes a fixed platform 171 and a plurality of second electric telescopic rods 172, the second electric telescopic rods 172 are fixedly installed on the fixed platform 171, the fixed platform 171 is located at a side close to the portal frame 120, and the telescopic ends of the second electric telescopic rods 172 are fixedly connected with a pressing plate 173 in a downward extending manner.

The frame 170 is used for installing a fixed platform 171, and before the glass is cut by the cutter 122, the glass is pressed on the surface of the working platform 110 by the pressing plate 173 through the actuation of each second electric telescopic rod 172 of the fixed platform 171, so that displacement is avoided in the glass cutting process of the cutter 122.

In embodiment 2, on the basis of embodiment 1, a further improvement is made on the sheet breaking mechanism, as shown in fig. 7 to 9, the sheet breaking mechanism further comprises two sliding platforms 200, two V-shaped connecting frames 201, a plurality of third electric telescopic rods 202 and a plurality of sliding rods 203, the two sliding platforms 200 are in sliding connection with the frame 170, the two V-shaped connecting frames 201 are respectively fixed on two sides of the second carriage 132, two ends of the V-shaped connecting frames 201 are respectively fixedly connected with the two sliding platforms 200, the third electric telescopic rods 202 are fixedly installed on one sliding platform 200 close to the portal frame 120, the sliding rods 203 are in sliding connection with the other sliding platform 200, the telescopic ends of the third electric telescopic rods 202 and the sliding rods 203 are jointly installed and fixed with a second connecting frame 204, the lower ends of the telescopic ends of the third electric telescopic rods 202 are respectively provided with an elastic material pressing component, and the lower ends of the sliding rods 203 are respectively provided with a sheet breaking plate 205;

the working platform 110 is further provided with a plurality of bar-shaped grooves 206 communicated with the inner grooves 112, each bar-shaped groove 206 is slidably connected with a bar-shaped supporting block 207, and each bar-shaped supporting block 207 is fixedly connected with the supporting rod 180.

Since the V-shaped link 201 is fixed to both sides of the second carriage 132, the V-shaped link 201 can move along with the second carriage 132, and the two sliding platforms 200 are fixed to both ends of the V-shaped link 201, so that the two sliding platforms 200 are respectively located on both sides of the second carriage 132 and the stay 180 while being able to move along with the frame 170 along with the movement of the V-shaped link 201;

meanwhile, the movement of the supporting rods 180 can enable each strip-shaped supporting block 207 to slide out of the strip-shaped groove 206 to support glass, in the process of breaking the glass, the third electric telescopic rod 202 moves downwards, the sliding rod 203 moves downwards through the transmission of the second connecting frame 204, and the lower end of the third electric telescopic rod 202 is an elastic pressing component, so that after the elastic pressing component contacts the surface of the glass, the elastic pressing component is prevented from pressing and deforming the glass close to one side of the portal frame 120 through the support of the strip-shaped supporting blocks 207, during breaking, the third electric telescopic rod 202 continues to move downwards, the elastic pressing component compresses, and the breaking plate 205 at the lower end of the sliding rod 203 continues to move downwards, so that glass far away from one side of the portal frame 120 is broken, the glass after breaking the glass falls into the inner groove 112, and people can recover the glass after breaking the glass, and finely polish the glass.

As a further explanation of the elastic pressing assembly of the present embodiment, as shown in fig. 9, the elastic pressing assembly includes a first mounting plate 208, a second mounting plate 209, and a plurality of spring rods 210, where the first mounting plate 208 is fixedly connected with the lower end of the telescopic end of the third electric telescopic rod 202, and the first mounting plate 208 is fixedly connected with the second mounting plate 209 through each spring rod 210.

The first mounting plate 208, the second mounting plate 209 and the spring rod 210 are arranged, so that the elastic pressing assembly can be compressed through the spring rod 210 in the breaking process, and the elastic pressing assembly is simple in structure and convenient to process.

As a further optimization of this embodiment, as shown in fig. 7 and 8, a bucket-shaped slag discharging channel 211 is further formed inside the working platform 110 and located below the inner groove 112, and a plurality of strip-shaped leaking grooves 212 are formed on the bottom surface of the inner groove 112.

Glass slag can be generated in the breaking process, and the generated glass slag can enter the bucket-shaped slag discharging channel 211 to be discharged through the strip-shaped slag leakage groove 212, so that people can conveniently clean the glass slag in the inner groove 112.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims of this invention, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the invention disclosed herein.

Claims (8)

1. The utility model provides a glass tectorial membrane cutting device, includes feeding mechanism and work platform, feeding mechanism is including a plurality of transverse arrangement's feeding platform, feeding platform is including a plurality of transverse arrangement's feed roll, its characterized in that:

the cutting mechanism comprises a portal frame, a transverse driving assembly and a longitudinal driving assembly, wherein the portal frame is connected with a sliding seat in a sliding manner, the transverse driving assembly is in transmission connection with the sliding seat, the longitudinal driving assembly is fixedly installed with the sliding seat, and a cutting knife is installed on the longitudinal driving assembly;

the working platform is symmetrically provided with first probes matched with the portal frame, two sides of the working platform are respectively provided with a transverse sliding rail, the working platform is also provided with a fixed length control mechanism, the fixed length control mechanism comprises a first sliding frame and a second sliding frame, two sides of the first sliding frame are respectively and transversely connected with the transverse sliding rails in a sliding manner, two sides of the second sliding frame are respectively and transversely connected with the transverse sliding rails in a sliding manner, the first sliding frame is positioned between the portal frame and the second sliding frame, and two sides of the first sliding frame are symmetrically provided with second probes;

the inside of the working platform is of a hollow structure and is provided with a first transmission assembly, the first transmission assembly comprises a first gear, a first straight rack, a second gear and a second straight rack, the first straight rack is fixedly connected with the first sliding frame, the second straight rack is fixedly connected with the second sliding frame, a first rotating shaft and a second rotating shaft are also rotationally connected inside the working platform, the first gear is fixedly arranged on the first rotating shaft, the second gear is fixedly arranged on the second rotating shaft, the gear ratio of the second gear to the first gear is 2:1, the first gear is meshed with the first straight rack, the second gear is meshed with the second straight rack, and the first rotating shaft is in transmission connection with the second rotating shaft through the second transmission assembly;

the utility model provides a piece mechanism is broken off with fingers and thumb to work platform still carriage, work platform has still erect the frame, frame fixed mounting has hold-down mechanism, hold-down mechanism is including fixed platform and a plurality of second electric telescopic handle, the second electric telescopic handle with fixed platform installs fixedly, fixed platform is located and is close to one side of portal frame, each the flexible end of second electric telescopic handle extends fixedly connected with pressure flitch downwards, the work platform has seted up the indent, it includes the vaulting pole to break off with fingers and thumb the piece mechanism, the bar spout has been seted up to indent both sides inner wall, the vaulting pole with bar spout sliding connection, just the vaulting pole with second balladeur train both ends fixed connection.

2. A glass-coated cutting apparatus according to claim 1, wherein: the second transmission assembly comprises a first motor and belt pulleys, wherein the first motor is fixedly arranged in the working platform, an output shaft of the first motor is fixedly connected with the first rotating shaft, the number of the belt pulleys is two and respectively connected with the first rotating shaft and the second rotating shaft in a fixed mode, and the two belt pulleys are in transmission connection through a transmission belt.

3. A glass-coated cutting apparatus according to claim 2, wherein: the horizontal drive assembly comprises a positioning rod, a screw rod and a second motor, wherein the positioning rod and the screw rod are installed on the top of the portal frame in a erected mode, a first connecting frame is fixedly connected to the upper side of the sliding seat, a sliding table is fixedly connected to the upper end of the first connecting frame, the screw rod is in threaded rotary connection with one side of the sliding table, and the positioning rod is in sliding connection with the other side of the sliding table.

4. A glass-coated cutting apparatus according to claim 3, wherein: the longitudinal driving assembly comprises a first electric telescopic rod, the first electric telescopic rod is fixedly arranged on the upper side of the sliding seat, and the movable end of the first electric telescopic rod is fixedly arranged with the cutting knife.

5. The glass-coated cutting apparatus of claim 4, wherein: the sheet breaking mechanism further comprises two sliding platforms, two V-shaped connecting frames, a plurality of third electric telescopic rods and a plurality of sliding rods, wherein the two sliding platforms are in sliding connection with the frame, the two V-shaped connecting frames are respectively fixed on two sides of the second sliding frame, two ends of each V-shaped connecting frame are respectively fixedly connected with the two sliding platforms, the third electric telescopic rods are fixedly installed on one sliding platform close to the portal frame, the sliding rods are in sliding connection with the other sliding platform, the telescopic ends of the third electric telescopic rods are fixedly installed on the second connecting frames together with the sliding rods, elastic pressing components are arranged at the lower ends of the telescopic ends of the third electric telescopic rods, and sheet breaking plates are arranged at the lower ends of the sliding rods.

6. The glass-coated cutting apparatus of claim 5, wherein: the working platform is further provided with a plurality of strip-shaped grooves communicated with the inner grooves, each strip-shaped groove is slidably connected with a strip-shaped supporting block, and each strip-shaped supporting block is fixedly connected with the supporting rod.

7. The glass-coated cutting apparatus of claim 6, wherein: the elastic pressing assembly comprises a first mounting plate, a second mounting plate and a plurality of spring rods, wherein the first mounting plate is fixedly connected with the lower end of the telescopic end of the third electric telescopic rod, and the first mounting plate is fixedly connected with the second mounting plate through the spring rods.

8. The glass-coated cutting apparatus of claim 7, wherein: the inside of the working platform is also provided with a bucket-shaped slag discharging channel positioned at the lower side of the inner groove, and the bottom surface of the inner groove is provided with a plurality of strip-shaped leakage grooves.