CN220223992U - Glass cutting machine - Google Patents

Abstract

The utility model discloses a glass cutting machine which comprises a concave displacement transport block, a roller type transport and a cutting structure, wherein the roller type transport is arranged on the concave displacement transport block; the utility model relates to the technical field of glass production, wherein the glass is extruded and limited at the upper end and the lower end through a cutting structure, single cutting is avoided, so that the phenomenon that the glass is displaced on a conveyor is avoided, meanwhile, the glass is extruded and fed in a movable relative telescopic manner in the vertical direction through a feeding structure, the phenomenon that the glass is loosened in adsorption and transportation is avoided, and the glass plate is extruded and fed in the vertical direction.

Description

Glass cutting machine

Technical Field

The utility model relates to the technical field of glass production, in particular to a glass cutting machine.

Background

In an automatic glass production line, after the plate glass is molded, the plate glass is annealed and cooled and then continuously output, at the moment, the plate glass is required to be cut into a rectangle with a certain specification, and then the cut glass is sucked up from a conveying belt, erected and moved into a packaging box by a sucker type conveying device. At present, in the glass automation production line, the plate glass is usually cut manually, two operators are required to respectively stand at two sides of the plate glass to hook the sizing frame on the end face of the plate glass, and the operators cut the plate glass along with the plate glass while moving the plate glass.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the glass cutting machine comprises a concave displacement transport block, a roller type transport and a cutting structure, wherein the roller type transport is arranged on the concave displacement transport block, the cutting structure is arranged on the concave displacement transport block, and a feeding structure is arranged on the concave displacement transport block;

the cutting structure comprises: the device comprises a concave cutting bracket, two pairs of lifting hydraulic cylinders, a toothed lifting block, a plurality of extrusion rubber mats, a pair of movable threaded rods, a pair of movable threaded pipes, a movable concave block, a plurality of movable limiting shafts, a movable driving machine, a movable gear box, a pair of concave telescopic blocks, a pair of convex extrusion blocks, a pair of extrusion rubber mats, a pair of extrusion inflatable mats, an inflator pump, a shunt pipe and a cutting assembly;

the air pump is characterized in that the concave type cutting support is arranged on the concave type displacement transport block, two pairs of lifting hydraulic cylinders are arranged on the inner sides of the concave type displacement transport block in a parallel mode, the tooth type lifting blocks are arranged on pushing ends of the two pairs of lifting hydraulic cylinders, the tooth type lifting blocks are movably inserted between the roller type transport devices, the pressing rubber cushion is uniformly arranged on the tooth type lifting blocks, the pair of movable threaded rods are inserted on the concave type cutting support through bearings, the movable gear box is sleeved on the pair of movable threaded rods, the pair of movable threaded pipes are inserted on the movable concave type blocks, the pair of movable threaded pipes are sleeved on the pair of movable threaded rods respectively, the plurality of movable limiting shafts are uniformly inserted on the concave type cutting support, the pair of movable limiting shafts are uniformly inserted on the movable concave type blocks, the pair of concave type telescopic blocks are horizontally and parallelly arranged on the concave type cutting support, the pair of movable telescopic blocks are respectively inserted on the pair of concave type cutting blocks, the pair of movable telescopic blocks are connected with the pair of inflatable cushion, and the pair of movable inflating pump assemblies are respectively arranged on the pair of movable inflating pump blocks.

Preferably, the feeding structure comprises: two pairs of lifting bidirectional threaded rods, four pairs of lifting threaded pipes, a pair of lifting gear boxes, a lifting driving shaft, a lifting driving bevel gear, a lifting driving machine, a bottom tooth lifting block, a top tooth lifting block and a pair of feeding conveyors;

two pairs of lifting bidirectional threaded rods are respectively inserted into the concave displacement transport blocks and the concave cutting support, four pairs of lifting threaded pipes are respectively inserted into the bottom tooth lifting blocks and the top tooth lifting blocks, four pairs of lifting threaded pipes are sleeved onto the two pairs of lifting bidirectional threaded rods, one pair of lifting gear boxes are respectively sleeved onto the two pairs of lifting bidirectional threaded rods, the lifting driving shaft is inserted into the one pair of lifting gear boxes, the lifting driving machine is mounted on the concave cutting support, the lifting driving bevel gear is mounted on the lifting driving machine, the lifting driving bevel gear is mounted on the lifting driving shaft, the lifting driving bevel gear is meshed with a gear between the lifting driving bevel gear and the lifting driving bevel gear, and one pair of feeding conveyors are respectively mounted on the bottom tooth lifting blocks, namely the top tooth lifting blocks.

Preferably, the cutting assembly comprises: a longitudinal and transverse screw module, a lifting cutting hydraulic push rod and a cutting knife;

the cutting device comprises a movable concave block, a longitudinal screw module, a cutting knife, a lifting cutting hydraulic push rod and a cutting knife.

Preferably, the top toothed lifting block is longer than the bottom toothed lifting block.

Preferably, a plurality of the extrusion rubber mats and a pair of the extrusion rubber mats are provided with protective pressure sensors.

Preferably, the longitudinal and transverse screw module is provided with a positioning camera.

Advantageous effects

The utility model provides a glass cutting machine. Possess following beneficial effect, this glass cutting machine carries out upper and lower both ends extrusion through cutting structure with glass spacing, has avoided single cutting for the phenomenon that glass appears the displacement on the conveyer appears, carries out the relative flexible extrusion material loading of activity on the vertical direction to glass through the feeding structure simultaneously, has avoided adsorbing the transport to appear not hard up phenomenon, carries out perpendicular extrusion material loading through with the glass board.

Drawings

Fig. 1 is a schematic front view in cross section of a glass cutting machine according to the present utility model.

Fig. 2 is a partial enlarged view of "B" in fig. 1.

Fig. 3 is a partial enlarged view of "a" in fig. 1.

In the figure: 1. a concave displacement transport block; 2. a roller conveyor; 3. a concave cutting support; 4. a lifting hydraulic cylinder; 5. tooth-mounted lifting blocks; 6. extruding a limiting rubber cushion; 7. moving the threaded rod; 8. moving the threaded pipe; 9. moving the concave block; 10. moving the limiting shaft; 11. a mobile drive; 12. moving the gear box; 13. a concave telescopic block; 14. a convex extrusion block; 15. extruding the rubber cushion; 16. extruding the inflatable cushion; 17. lifting the bidirectional threaded rod; 18. lifting the threaded pipe; 19. a lifting gear box; 20. a lifting driving shaft; 21. lifting transmission helical gear; 22. lifting driving helical gear; 23. a lifting driver; 24. the bottom end is provided with a lifting block in a tooth manner; 25. the top is provided with a lifting block in a tooth manner; 26. and a loading conveyor.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

As shown in fig. 1-3, the roller conveyor 2 is mounted on the concave displacement transport block 1, the cutting structure is mounted on the concave displacement transport block 1, and the concave displacement transport block 1 is provided with a feeding structure;

specifically, the cutting structure comprises: the device comprises a concave cutting bracket 3, two pairs of lifting hydraulic cylinders 4, a toothed lifting block 5, a plurality of extrusion limiting rubber mats 6, a pair of movable threaded rods 7, a pair of movable threaded pipes 8, a movable concave block 9, a plurality of movable limiting shafts 10, a movable driving machine 11, a movable gear box 12, a pair of concave telescopic blocks 13, a pair of convex extrusion blocks 14, a pair of extrusion rubber mats 15, a pair of extrusion inflatable mats 16, an inflator pump, a shunt pipe and a cutting assembly;

specifically, concave type cutting support 3 install in on the concave type displacement transport block 1, two pairs of lift pneumatic cylinder 4 two by two parallel mount in on the inboard of concave type displacement transport block 1, tooth dress elevating block 5 install in two pairs on the promotion end of lift pneumatic cylinder, just tooth dress elevating block 5 activity cartridge in between the gyro wheel conveyer 2, a plurality of extrusion limit cushion 6 even install in tooth dress elevating block 5 is last, a pair of the movable threaded rod 7 passes through the bearing cartridge on concave type cutting support 3, the movable gear box 12 suit in a pair of on the movable threaded rod 7, a pair of movable threaded pipe 8 cartridge in on the movable threaded rod 9, and a pair of movable threaded pipe 8 respectively suit in on the movable threaded rod 7, a plurality of remove limit shaft 10 even cartridge in concave type cutting support 3, and a plurality of remove limit shaft 10 even cartridge in on the movable concave type cutting support 9, a pair of the extrusion box 12 suit in on the flat side of the inflation pad 13 is in on the extrusion type is installed in the concave type cushion 13 respectively in on the concave type cutting support 13 the inflation tube is last, a pair of the extrusion type inflation pump 13 is installed in the expansion and is connected in the inflation-type inflation tube 13 on the inflation-jet-type is last, a pair of the extrusion pump 13 is installed respectively on the concave type inflation-jet-pump 13.

In the above description, the roller conveyor 2 drives the glass thereon to horizontally transport, the two pairs of lifting hydraulic cylinders 4 stretch out and draw back, the two pairs of lifting hydraulic cylinders 4 push the toothed lifting blocks 5, the toothed lifting blocks 5 drive the plurality of extrusion limiting rubber pads 6 thereon, the plurality of ascending extrusion rubber pads 15 vertically extrude the glass plate, the mobile driving machine 11 operates, the mobile gearbox 12 on the driving end of the mobile driving machine 11 operates, the mobile gearbox 12 drives the mobile threaded rod 7 thereon, the mobile threaded rod 7 drives the mobile threaded pipe 8 thereon, the pair of mobile threaded pipes 8 drive the mobile concave blocks 9 thereon, the pair of concave telescopic blocks 13 thereon are driven by the mobile threaded pipe 9, the air distribution pipe is inflated by the air pump, the air distribution pipe is inflated by the pair of extrusion air cushions 16, the pair of extrusion pressing blocks 14 are driven to vertically ascend and descend by the expansion of the pair of extrusion rubber pads 13, the extrusion blocks 14 reach the extrusion cushions 16 thereon by the pair of extrusion rubber pads, thereby the glass plate can be extruded vertically, and the two ends of the glass assembly can be cut vertically.

As shown in fig. 1-3, the feeding structure comprises: two pairs of lifting bidirectional threaded rods 17, four pairs of lifting threaded pipes 18, a pair of lifting gear boxes 19, a lifting driving shaft, a lifting transmission bevel gear, a lifting driving machine, a bottom tooth lifting block 5, a top tooth lifting block 5 and a pair of feeding conveyors;

specifically, two pairs of lifting bidirectional threaded rods 17 are respectively inserted on the concave displacement transport block 1 and the concave cutting support 3, four pairs of lifting threaded pipes 18 are respectively inserted on the bottom tooth lifting block 5 and the top tooth lifting block 5, four pairs of lifting threaded pipes 18 are sleeved on the two pairs of lifting bidirectional threaded rods 17, one pair of lifting gearboxes 19 are respectively sleeved on the two pairs of lifting bidirectional threaded rods 17, the lifting driving shaft is inserted on the pair of lifting gearboxes 19, the lifting driving machine is mounted on the concave cutting support 3, the lifting driving bevel gear is mounted on the lifting driving machine, the lifting driving bevel gear is mounted on the lifting driving shaft, the lifting driving bevel gear is meshed with the lifting driving bevel gear, and one pair of feeding conveyors are respectively mounted on the bottom tooth lifting block 5, namely the top tooth lifting block 5.

In the above description, the lifting driving bevel gear on the driving end of the lifting driving machine is driven to rotate by the lifting driving machine, the lifting driving bevel gear meshed with the lifting driving bevel gear is driven to rotate by the lifting driving bevel gear, the lifting driving shaft on the lifting driving bevel gear is driven by the lifting driving bevel gear, the pair of lifting gear boxes 19 are driven to rotate by the lifting driving shaft, the two pairs of lifting bidirectional threaded rods 17 on the lifting driving gear box are driven by the pair of lifting gear boxes 19, the lifting threaded pipes 18 on the lifting bidirectional threaded rods 17 are respectively driven by the two pairs of lifting bidirectional threaded rods, so that four pairs of lifting threaded pipes 18 are respectively and relatively telescopic, the four pairs of lifting threaded pipes 18 respectively drive the bottom tooth lifting block 5 and the top tooth lifting block 5 on the lifting driving gear box, so that a pair of feeding conveyors on the lifting driving gear box is fed, and the feeding conveyor on the top tooth lifting block 5 is longer than the bottom tooth lifting block 5, so that the feeding conveyors squeeze and push glass plates onto the feeding conveyors on the bottom tooth lifting block 5, and the glass plates are stably pushed.

As shown in fig. 1-3, the cutting assembly comprises: a longitudinal and transverse screw module, a lifting cutting hydraulic push rod and a cutting knife;

specifically, the longitudinal and transverse screw rod module is installed on the movable concave block 9, the lifting cutting hydraulic push rod is installed on the movable end of the longitudinal and transverse screw rod module, and the cutting knife is installed on the pushing end of the lifting cutting hydraulic push rod.

In the above description, the lifting cutting hydraulic push rod is driven to horizontally move longitudinally and horizontally by the longitudinal and horizontal screw rod module, the cutting knife is driven to cut glass by the lifting cutting hydraulic push rod to stretch and retract, and the glass is cut by the cutting knife.

Preferably, the top tooth lifting block 5 is longer than the bottom tooth lifting block 5.

As a preferable scheme, a plurality of extrusion limiting rubber mats 6 and a pair of extrusion rubber mats 15 are provided with protective pressure sensors.

As an optimal scheme, further, the longitudinal-transverse screw module is provided with a positioning camera.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The glass cutting machine comprises a concave displacement transport block, a roller type transport and a cutting structure, and is characterized in that the roller type transport is arranged on the concave displacement transport block, the cutting structure is arranged on the concave displacement transport block, and a feeding structure is arranged on the concave displacement transport block;

the cutting structure comprises: the device comprises a concave cutting bracket, two pairs of lifting hydraulic cylinders, a toothed lifting block, a plurality of extrusion rubber mats, a pair of movable threaded rods, a pair of movable threaded pipes, a movable concave block, a plurality of movable limiting shafts, a movable driving machine, a movable gear box, a pair of concave telescopic blocks, a pair of convex extrusion blocks, a pair of extrusion rubber mats, a pair of extrusion inflatable mats, an inflator pump, a shunt pipe and a cutting assembly;

the air pump is characterized in that the concave type cutting support is arranged on the concave type displacement transport block, two pairs of lifting hydraulic cylinders are arranged on the inner sides of the concave type displacement transport block in a parallel mode, the tooth type lifting blocks are arranged on pushing ends of the two pairs of lifting hydraulic cylinders, the tooth type lifting blocks are movably inserted between the roller type transport devices, the pressing rubber cushion is uniformly arranged on the tooth type lifting blocks, the pair of movable threaded rods are inserted on the concave type cutting support through bearings, the movable gear box is sleeved on the pair of movable threaded rods, the pair of movable threaded pipes are inserted on the movable concave type blocks, the pair of movable threaded pipes are sleeved on the pair of movable threaded rods respectively, the plurality of movable limiting shafts are uniformly inserted on the concave type cutting support, the pair of movable limiting shafts are uniformly inserted on the movable concave type blocks, the pair of concave type telescopic blocks are horizontally and parallelly arranged on the concave type cutting support, the pair of movable telescopic blocks are respectively inserted on the pair of concave type cutting blocks, the pair of movable telescopic blocks are connected with the pair of inflatable cushion, and the pair of movable inflating pump assemblies are respectively arranged on the pair of movable inflating pump blocks.

2. The glass cutting machine of claim 1, wherein the loading structure comprises: two pairs of lifting bidirectional threaded rods, four pairs of lifting threaded pipes, a pair of lifting gear boxes, a lifting driving shaft, a lifting driving bevel gear, a lifting driving machine, a bottom tooth lifting block, a top tooth lifting block and a pair of feeding conveyors;

two pairs of lifting bidirectional threaded rods are respectively inserted into the concave displacement transport blocks and the concave cutting support, four pairs of lifting threaded pipes are respectively inserted into the bottom tooth lifting blocks and the top tooth lifting blocks, four pairs of lifting threaded pipes are sleeved onto the two pairs of lifting bidirectional threaded rods, one pair of lifting gear boxes are respectively sleeved onto the two pairs of lifting bidirectional threaded rods, the lifting driving shaft is inserted into the one pair of lifting gear boxes, the lifting driving machine is mounted on the concave cutting support, the lifting driving bevel gear is mounted on the lifting driving machine, the lifting driving bevel gear is mounted on the lifting driving shaft, the lifting driving bevel gear is meshed with a gear between the lifting driving bevel gear and the lifting driving bevel gear, and one pair of feeding conveyors are respectively mounted on the bottom tooth lifting blocks, namely the top tooth lifting blocks.

3. The glass cutting machine of claim 2, wherein the cutting assembly comprises: a longitudinal and transverse screw module, a lifting cutting hydraulic push rod and a cutting knife;

the cutting device comprises a movable concave block, a longitudinal screw module, a cutting knife, a lifting cutting hydraulic push rod and a cutting knife.

4. A glass cutting machine according to claim 3, wherein the top toothed lifter block is longer than the bottom toothed lifter block.

5. The glass cutting machine of claim 4, wherein a plurality of said squeeze pads and a pair of said squeeze pads are provided with protective pressure sensors.

6. The glass cutting machine of claim 5, wherein the horizontal screw module is provided with a positioning camera.