CN212451195U - Doubling glass cutting machine - Google Patents

Abstract

The utility model relates to a doubling glass cutting machine, which comprises a sheet feeding device and a sheet conveying device which are correspondingly arranged, wherein a sheet discharging device is correspondingly arranged at the sheet conveying end of the sheet conveying device, and a cutting device is arranged between the sheet conveying device and the sheet discharging device; the film feeding device comprises a film feeding frame, an overturning adsorption device for feeding films is arranged in the film feeding frame, the film conveying device comprises a film conveying frame, a group of first driving belt assemblies are arranged on the film conveying frame, and each first driving belt assembly correspondingly extends into the film feeding frame; the lower piece device comprises a lower piece frame, a group of second transmission belt assemblies are arranged on the lower piece frame, and the second transmission belt assemblies are arranged corresponding to the first transmission belt assemblies. The utility model has the advantages that: the cutting machine can realize the integration of sheet feeding, cutting, sheet breaking and sheet discharging for laminated glass, and the transmission process positions the laminated glass through the positioning guide wheel, thereby effectively preventing the glass from deviating.

Description

Doubling glass cutting machine

Technical Field

The utility model relates to a glass-cutting machine equipment technical field specifically is a doubling glass-cutting machine.

Background

The laminated glass is a composite glass product which is formed by sandwiching one or more layers of organic polymer intermediate films between two or more pieces of glass and permanently bonding the glass and the intermediate films into a whole after special high-temperature prepressing and high-temperature high-pressure processing.

When the laminated glass is cut, the laminated glass is operated through a glass cutting machine at present, due to the existence of an organic polymer intermediate film in the middle of the laminated glass, when the laminated glass is cut, the existing glass machine cuts from the upper part or the lower part, and due to the adhesion of the organic polymer intermediate film in the laminated glass, the problems of cracks, edge breakage and the like of the glass on the opposite side are easily caused, so that the cutting quality is reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a doubling glass cutting machine.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a doubling glass-cutting machine which characterized in that: the device comprises an upper piece device and a lower piece device which are correspondingly arranged, wherein the lower piece device is correspondingly arranged at the tail end of a piece conveying device of the piece conveying device, and a cutting device is arranged between the piece conveying device and the lower piece device;

the film feeding device comprises a film feeding frame, an overturning adsorption device for feeding films is arranged in the film feeding frame, the film conveying device comprises a film conveying frame, a group of first driving belt assemblies are arranged on the film conveying frame, and each first driving belt assembly correspondingly extends into the film feeding frame;

the lower piece device comprises a lower piece frame, a group of second transmission belt assemblies are arranged on the lower piece frame, and the second transmission belt assemblies are arranged corresponding to the first transmission belt assemblies;

the cutting device comprises stand columns arranged on two sides of the sheet conveying device, two cross beams are connected between the two stand columns, the two cross beams are arranged in parallel on the same vertical surface, the two cross beams are arranged on the upper side and the lower side of the sheet conveying frame respectively, a first slide rail is connected to each cross beam, an upper cutting knife assembly is connected to the first slide rail on the upper side in a sliding mode, a lower cutting knife assembly is connected to the first slide rail on the lower side in a sliding mode, and the upper cutting knife assembly and the lower cutting knife assembly are arranged correspondingly.

Preferably, upset adsorption equipment includes fixed connection and is in mount on the upper rack, connect the roll-over stand through articulated seat on the mount, peg graft fixed first pivot on the roll-over stand, install adjustment motor on the mount, adjustment motor passes through the first pivot of link assembly drive connection, cup joint a set of initiative swing plate of fixing in first pivot, connect a set of driven swing plate on the roll-over stand, a first swing arm is all connected between the initiative swing plate that corresponds and the driven swing plate, all connect a set of material loading sucking disc on every first swing arm, still install the upset motor on the mount, the upset motor passes through the transmission drive and connects the drive shaft, the upset articulated slab is connected to the drive shaft, the upset articulated slab passes through the connecting rod and connects the roll-over stand.

Preferably, a set of first supporting plates are connected to the upper rack, a guide wheel is connected to each first supporting plate, a set of guide grooves are formed in the fixing frame, each guide wheel corresponds to and is in guide fit with the corresponding guide groove, a set of guide supporting wheels matched with the fixing frame in guide supporting mode are further installed on the upper rack, a sliding adjusting motor is installed on the fixing frame, a gear is connected to an output shaft of the sliding adjusting motor, and a rack meshed with the gear is fixedly connected to the fixing frame.

Preferably, a set of side plates is installed on one side of the sheet conveying frame, a second rotating shaft is rotatably connected between the side plates, a set of second swing arms is fixedly sleeved on the second rotating shaft, a swing arm motor is installed on the sheet conveying frame, the swing arm motor is in driving connection with one of the second swing arms, all the second swing arms are connected with a fixed heating pipe fixing seat, a heating pipe is installed in the heating pipe fixing seat, the heating pipe is arranged between the sheet conveying frame and the lower sheet frame, and the heating pipe is correspondingly arranged below the cutting device.

Preferably, the upper cutter assembly comprises an upper fixing plate, a first cylinder, a second cylinder and a third cylinder are sequentially mounted on the upper fixing plate, the piston rod of the first cylinder, the second cylinder and the third cylinder are arranged in the same direction, the first cylinder is connected with the first pressing wheel through a first pressing rod, the second cylinder is driven by the first guide device to be connected with the upper glass cutter, and the third cylinder is connected with the diaphragm cutter through the cutter plate.

Preferably, the upper fixing plate is further fixedly connected with a fourth cylinder, the fourth cylinder is arranged on one side of the third cylinder, the fourth cylinder is connected with the cross rod through a second pressing rod, and two ends of the cross rod are respectively provided with a second pressing wheel.

Preferably, the lower cutting knife assembly comprises a lower fixing plate, a fifth cylinder and a sixth cylinder are arranged on the lower fixing plate, piston rods of the fifth cylinder and the sixth cylinder are arranged in the same direction, the fifth cylinder is in driving connection with the lower glass cutting knife through a second guiding device, and the sixth cylinder is connected with the top wheel through a third pressing rod.

Preferably, the cutting device upside the lower part of crossbeam installation clamp plate device, the clamp plate device is including compressing tightly the fixing base, and a set of subassembly that compresses tightly is installed in compressing tightly the fixing base, compresses tightly the subassembly and includes the mounting panel of fixed connection on the fixing base, installs the seventh cylinder in one side of mounting panel, and the clamp plate is connected in the drive of seventh cylinder, and the clamp plate setting is at the opposite side of mounting panel.

Preferably, a separating sucker device is arranged on one side of the lower piece device, the separating sucker device is arranged between the piece conveying device and the lower piece device, the separating sucker device comprises a connecting seat, a group of second sliding rails are arranged in the connecting seat, adjusting devices are arranged on the corresponding second sliding rails, the adjusting devices are connected with a sucker frame, a group of separating suckers are fixedly connected on the sucker frame, a group of adjusting screw rods are further connected on the connecting seat, and each adjusting screw rod is correspondingly connected with a corresponding adjusting device;

the adjusting device comprises a second supporting plate arranged on a second sliding rail, an eighth air cylinder and an adjusting screw seat are arranged on the second supporting plate, the eighth air cylinder is connected with the sucker frame in a driving mode, the adjusting screw seat is connected with the adjusting screw rod, a guide rod is further connected to the adjusting screw seat, one end of the guide rod is connected with the sucker frame, the other end of the guide rod is connected with a fixed connecting plate, and the connecting plate is connected and fixed to the sucker frame.

Preferably, a row of first positioning guide wheels are installed above one side of the sheet conveying device, a row of second positioning guide wheels are installed above one side of the sheet discharging device, and the first positioning guide wheels and the second positioning guide wheels are installed on the same side of the cutting machine and are arranged in a collinear mode.

The utility model has the advantages that:

the cutting machine can realize the integration of sheet feeding, cutting, sheet breaking and sheet discharging for laminated glass, and the transmission process positions the laminated glass through the positioning guide wheel, thereby effectively preventing the glass from deviating.

After the glass is cut, the glass is positioned firstly, then is conveyed to a cutting position, is cut through the cutting device, is automatically broken after the cutting is finished, and is heated, separated and cut glue, so that the problem that when the existing cutting machine is used for cutting the glass, the full-automatic cutting and the cutting glue cannot be realized, and the processing efficiency is low is solved. The situation that manual cutting can be scrapped is avoided, the probability of glass cutting scrapping is reduced, and the cost of glass cutting is reduced, so that the glass cutting machine is convenient to use for a user, and the practicability of the full-automatic laminated glass cutting machine is improved.

Drawings

Fig. 1 is a schematic diagram of the basic structure of the present invention.

Fig. 2 is a schematic view of the matching structure of the sheet feeding device and the sheet conveying device.

Fig. 3 is a schematic view of the matching structure of the upper rack and the fixing rack.

Fig. 4 is another view of fig. 3.

Fig. 5 is a schematic view of the installation of the heating tube.

Fig. 6 is a schematic structural view of the inverted adsorption device.

Fig. 7 is another view of fig. 6.

Fig. 8 is a schematic connection diagram of the first rotating shaft driven by the adjusting motor.

Fig. 9 is a schematic structural view of the cutting device.

Fig. 10 is a schematic view of the upper cutter assembly.

Fig. 11 is a schematic view of the connection structure of the upper glass cutter.

Fig. 12 is a schematic view of the structure of the lower cutter assembly.

Fig. 13 is a schematic structural view of the platen device.

Fig. 14 is a schematic view of the construction of the hold-down assembly.

Fig. 15 is an exploded view of fig. 14.

Fig. 16 is a schematic structural view of a sheet unloading apparatus.

Fig. 17 is a schematic structural view of the separation chuck device.

Fig. 18 is a schematic structural view of the adjusting device.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

As shown in figure 1, the utility model relates to a doubling glass cutting machine, including the last piece device 1 that corresponds the setting and pass piece device 2, pass piece device 2 pass the piece end and correspond and set up piece device 3 down, pass piece device 2 and lower cutting device 4 between piece device 3.

Combine fig. 2, fig. 3 and fig. 4 to show, it includes film hanger 5 to go up film hanger 1, and film hanger 5 includes underframe 5.1, and underframe 5.1 includes square frame, and welding cross bar 5.3 in square frame, welding square bracing piece 5.4 in underframe 5.1 on one side of cross bar 5.3, and welding two parallel arrangement's guide arm 5.5 in underframe 5.1 of cross bar 5.3 opposite side, all pass through two parallel arrangement's of bolted connection limiting plate 5.6 in the outside of every guide arm 5.5, and every limiting plate 5.6 all is parallel with the long limit of corresponding guide arm 5.5, and guide way 42 is constituteed to two limiting plates 5.6. The transition support frame 5.2 is welded on the bottom frame 5.1 on the upper side of the guide rod 5.5, the transition support frame 5.2 is a rectangular frame, four first yielding grooves 5.7 which are arranged in parallel are arranged in the transition support frame 5.2, and a first base plate is fixedly connected above the transition support frame 5.2.

As shown in fig. 6, 7 and 8, the turnover adsorption device 6 for loading is installed in the loading frame 5, the turnover adsorption device 6 includes a fixing frame 20, the fixing frame 20 includes a supporting cross rod 20.1, two sliding links 20.2 arranged in parallel are welded on one side of the supporting cross rod 20.1, a reinforcing rod 20.3 is welded between the two sliding links 20.2, an adjusting rod 20.4 is welded between the reinforcing rod 20.3 and the supporting cross rod 20.1, and a rack 39 is connected to the lower side of the adjusting rod 20.4 through a screw. A slide adjusting motor 37 is connected to the support rod 5.4 through a screw, the slide adjusting motor 37 adopts a stepping motor 37, a gear 38 is connected to an output shaft of the slide adjusting motor 37, and the gear 38 is meshed with a rack 39. A first supporting plate 35 is fixedly connected to the outer side of each sliding connecting rod 20.2 through screws, each first supporting plate 35 is a T-shaped plate, two guide wheels 36 are connected to the inner side of each T-shaped plate, each guide wheel 36 is connected to the corresponding first supporting plate 35 through a fixing shaft, and each guide wheel 36 is correspondingly matched with the corresponding guide groove 42 in a guiding mode. Two mount pads 40 are connected to one side of the square frame of the bottom frame 5.1 through screws, each mount pad 40 comprises a bottom plate, two vertical plates arranged in parallel are welded to the bottom plate, and a guide support wheel 41 is connected between the two vertical plates of each mount pad 40 through a wheel shaft. Two further mounting sockets 40 are also screwed to one side of the reinforcing bar 20.3, and a further guide support wheel 41 is also connected to each mounting socket 40. The both sides of direction supporting wheel 41 all are equipped with annular spacing flange, and every direction supporting wheel 41 all corresponds and supports corresponding sliding connecting rod 20.2, and sliding connecting rod 20.2 is square pole, and sliding connecting rod 20.2, sets up between two annular spacing flanges of direction supporting wheel 41.

An articulated seat 21 is connected on both sides above the supporting and connecting rod 20.1, the articulated seat 21 comprises two bearing seats which are connected through screws, and an articulated shaft 97 is connected between the two bearing seats on each side of the supporting and connecting rod 20.1. An interface plate 98 is sleeved on each hinge shaft 97, and the two interface plates 98 are welded with the roll-over stand 22.

The roll-over stand 22 comprises a square turning plate, and two cross plates 98 are welded on both sides below the turning plate. Four parallel arrangement's upset arms 22.1 are welded to same one side of commentaries on classics board, and upset arm 22.1 is square pole, every upset arm 22.1 all with corresponding the cooperation of stepping down is corresponded to in first groove 5.7 of stepping down. The first rotating shaft 23 is fixedly inserted between the four turning arms 28 close to one side of the turning plate, the first rotating shaft 23 is a round rod, a group of waist-shaped grooves are formed in the round rod of the first rotating shaft 23, a clamping block is arranged in each waist-shaped groove, the clamping blocks are correspondingly clamped in clamping grooves of the turning arms 22.1, and under the action of the clamping blocks, the turning arms 28 and the first rotating shaft 23 synchronously rotate.

The adjusting motor 26 is connected to the middle of the turning arm 22.1 through a screw, and the adjusting motor 26 is also a servo motor. Adjusting motor 26 connects reduction gear 35, and reduction gear 35 passes through link assembly 27 drive connection first pivot 23, and link assembly 27 includes actuating lever 27.1, and actuating lever 27.1 is equipped with two parallel arrangement's even board including cup jointing the sleeve pipe on reduction gear 35 output shaft on the sleeve pipe. The end parts of the two connecting plates are connected with an adjusting connecting rod through hinged shafts, the adjusting connecting rod comprises a rectangular plate 27.2 connected with a driving rod 27.1, a screw rod is arranged at the end part of the rectangular plate 27.2, a screw pipe 27.3 is connected onto the screw rod, a sleeve pipe is arranged at the end part of the screw pipe 27.3, the sleeve pipe is connected with two swinging plates 27.4 through another hinged shaft, and the two swinging plates 27.4 are respectively arranged on two sides of the sleeve pipe. The two swing plates 27.4 are sleeved on the first rotating shaft 23, and each swing plate 27.4 and the first rotating shaft 23 are also fixed in a clamping mode through a clamping block. When the swing plate 27.4 swings, the first rotating shaft 23 can be driven to rotate.

The fixed frame 20 is also provided with a turnover motor 30, the turnover motor 30 is connected with a driving shaft 34 in a driving way through a transmission device 31, and the driving shaft 34 is connected with the fixed frame 20 through a rolling bearing seat 97. The driving shaft 34 is sleeved with two turnover hinge plates 32, the two turnover hinge plates 32 are connected with a connecting rod 33 through a hinge shaft, and the connecting rod 33 is connected with one turnover arm 22.1 through the hinge shaft. The roll-over stand 22 can be driven to rotate around the hinge base 21 by the roll-over motor 30.

A group of driving swing plates 24 are fixedly sleeved on the first rotating shafts 23 on two sides of each overturning arm 22.1, each driving swing plate 24 is fixedly connected with the corresponding overturning arm 22.1 through a pin shaft, two sides of the end part of each overturning arm 22.1 are respectively connected with one driven swing plate 25 through a connecting shaft, and each driven swing plate 25 is connected to one side of the corresponding first swing arm 28 through a pin shaft. Three waist-shaped holes 28.1 are formed in each first swing arm 28, and a feeding suction cup 29 is connected to the inside of each waist-shaped hole 28.1. The feeding suction cup 29 is prior art, and the connection mode of the feeding suction cup 29 and the first swing arm 28 is also prior art.

In operation, the entire roll-over stand 22 is driven to swing by the roll-over motor 30, and the first swing arm 28 is driven to move relative to the roll-over stand 22 by the adjustment motor 26.

Pass piece device 2 and including passing piece frame 7, pass piece frame 7 and be square frame, be equipped with five second grooves of stepping down at square frame's upside, the second groove of stepping down corresponds the setting with corresponding first groove of stepping down 5.7, all installs a first driving band subassembly 8 in every second groove of stepping down, and first driving band subassembly 8 is the drive belt commonly used among the glass-cutting machine, and the transmission front side of every first driving band subassembly 8 all sets up in corresponding first groove of stepping down 5.7. The lining plate is also installed on the upper side of the film transmission frame 7, a row of first positioning guide wheels 95 are installed above one side of the film transmission frame 7, an annular groove is formed in the side face of each first positioning guide wheel 95, each first positioning guide wheel 95 is sleeved on a corresponding wheel shaft, and each first positioning guide wheel 95 can rotate on a pin shaft. When the glass plate with the rubber coating is used, the glass plate corresponds to the annular groove, and the first positioning guide wheel 95 plays a limiting role in the transmission process.

Referring to fig. 5, eight parallel side plates 43 are welded to one side of the wafer carrier 7, and a second rotating shaft 44 is inserted between the side plates 43, wherein the second rotating shaft 44 is of a round rod structure. The second rotating shaft 44 is rotatable in the side plate 43. 6 second swing arms 45 are fixedly sleeved on the second rotating shaft 44, the second swing arms 45 are of plate-shaped structures, a third supporting plate 48 is welded on the sheet conveying frame 7, the third supporting plate 48 is connected with a swing arm motor 46 through a hinged seat, a piston rod of the swing arm motor 46 is connected with a U-shaped plate 47 through threads, and the U-shaped plate 47 is connected with one of the second swing arms 45 through a pin shaft. All the second swing arms 45 are connected and fixed with a heating pipe fixing seat 49, the heating pipe fixing seat 49 is of a long housing structure with one side open, a group of heat dissipation holes 49.1 are uniformly distributed on the housing, and the heat dissipation holes 49.1 are waist-shaped through holes. Eight clamping plates 50 are connected in the heating pipe fixing seat 49 through screws, the clamping plates 50 are elastic U-shaped plates, the heating pipe 51 is clamped in the clamping plates 50, the heating pipe 51 adopts an electric heating pipe, and the structure of the electric heating pipe is the prior art. The heating pipe 51 is arranged between the wafer carrier 7 and the lower wafer carrier 10, and the heating pipe 51 is correspondingly arranged below the cutting device 4. Under the action of the swing arm motor 46, the swing arm motor 46 drives the second swing arm 45 to rotate around the second rotating shaft 44, and drives the second swing arm 45 to drive the heating pipe fixing seat 49 to rotate by taking the second rotating shaft 44 as an axis.

Referring to fig. 16, the sheet unloading device 3 includes a sheet unloading rack 10, 5 abdicating grooves are also provided on the sheet unloading rack 10, a second belt assembly 11 is installed in each abdicating groove, the second belt assembly 11 employs a belt conventionally used in a glass cutting machine in the prior art, and each second belt assembly 11 is arranged in line with the corresponding first belt assembly 8. A row of second positioning guide wheels 96 are arranged above one side of the lower sheet device 3, the second positioning guide wheels 96 and the first positioning guide wheels 95 are arranged on the same side of the cutting machine and are arranged in a collinear manner, and the second positioning guide wheels 96 and the first positioning guide wheels 95 are identical in structure.

Referring to fig. 9, 10, 11 and 12, the cutting device 4 includes two vertical columns 13 disposed at two sides of the sheet conveying device 2, the vertical columns 13 are of a box structure of a vertical column of a glass cutting machine in the prior art, and controllers are respectively installed in the two vertical columns 13, which are both in the prior art. Two cross beams 14 are connected between the two upright posts 13, the cross beams 14 are flat plates, the two cross beams 14 are arranged on the same vertical surface, and the two cross beams 14 are respectively arranged on the upper side and the lower side of the lining plate of the sheet conveying frame 7. Two first slide rails 15 are connected to each cross beam 14 through screws, and the four first slide rails 15 are arranged in parallel. The upper cutting knife assembly 16 is connected on the two first slide rails 15 on the upper side in a sliding manner, the lower cutting knife assembly 17 is connected on the two first slide rails 15 on the lower side in a sliding manner, and the upper cutting knife assembly 16 and the lower cutting knife assembly 17 are correspondingly arranged.

The upper cutter assembly 16 comprises an upper fixing plate 52, the upper fixing plate 52 is a square plate, and the upper fixing plate 52 is connected to the slide block of the corresponding slide rail through a screw. The upper fixing plate 52 is connected with the upper housing 68 through screws on the outer side thereof, and the upper fixing plate 52 in the upper housing 68 is sequentially provided with a first cylinder 53, a second cylinder 54, a third cylinder 55 and a fourth cylinder 56 with piston rods arranged downwards.

First cylinder 53 is connected through two first L template 66 and is fixed on upper fixed plate 52, and first cylinder 53 connects first pinch roller 58 through first depression bar 57, and first depression bar 57 passes through the vertical connection of guided way on fixed plate 52, and not drawn in the guided way picture, first depression bar 57 are square board, are equipped with U type groove in the one end of first depression bar 57, at the first pinch roller 58 of U type inslot through the round pin hub connection, and first pinch roller 58 is the rubber pulley.

Second cylinder 54 passes through first guider 59 drive and connects upper glass cutting knife 60, and first guider 59 includes fixed case 59.1, is equipped with guiding hole 59.2 in fixed case 59.1, is equipped with spacing apron 59.3 in the one end of fixed case 59.1, and direction connection direction depression bar 77 is connected in guiding hole 59.2, connects upper glass cutting knife 60 at the lower extreme of direction depression bar 77, and upper glass cutting knife 60 is prior art, connects second cylinder 54 at the upper end of direction depression bar 77.

The third cylinder 55 is connected and fixed on the upper fixing plate 52 through two second L-shaped plates 67, the third cylinder 55 is connected with the diaphragm cutting knife 62 through a knife plate 61, and the diaphragm cutting knife 62 is an art knife. The knife board 61 is also vertically connected to the fixing board 52 through a guide rail, and the knife board 61 is of a rectangular plate-shaped structure.

The fourth cylinder 56 is connected and fixed on the upper fixing plate 52 through two third L-shaped plates 99, the fourth cylinder 56 is connected with the cross rod 64 through a second pressing rod 63, the second pressing rod 63 and the cross rod 64 are square rods, the second pressing rod 63 is also vertically connected on the fixing plate 52 through a guide rail, and two ends of the cross rod 64 are respectively provided with a second pressing wheel 65. The second pressure wheel 65 is also a rubber wheel.

The lower cutter assembly 17 comprises a lower fixing plate 69, the lower fixing plate 69 is a square plate, and the lower fixing plate 69 is connected to the sliding blocks of the corresponding sliding rails through screws. The outer side of the lower fixing plate 69 is connected with a lower housing 76 through a screw, a fifth air cylinder 70 and a sixth air cylinder 71 which are provided with piston rods upwards are sequentially installed on the lower fixing plate 69 in the lower housing 76, the fifth air cylinder 70 is connected with a lower glass cutting knife 73 through a second guide device 72 in a driving mode, the lower glass cutting knife 73 and the upper glass cutting knife 60 are arranged in a collinear mode, and the second guide device 72 is the same as the first guide device 59 in structure. The sixth air cylinder 71 is connected with a top wheel 75 through a third pressure rod 74, the third pressure rod 74 has the same structure as the first pressure rod 57, and the third pressure rod 74 is also vertically connected on the lower fixing plate 69 through a guide rail. The top wheel 75 and the first pressing wheel 58 are respectively arranged at both sides of the lower glass cutter 73.

As shown in fig. 13, 14 and 15, a pressing plate device 19 is connected to the cutting device 4 by screws below the cross beam 14. The pressing plate device 19 comprises a pressing fixing seat 78, the pressing fixing seat 78 is arranged on a U-shaped plate in a downward opening mode, and the side plates on two sides of the opening of the U-shaped plate are provided with inward-arranged upper folded plates 78.1. Within the hold-down holder 78 are mounted 11 hold-down assemblies 79, which hold-down assemblies 79 comprise mounting plates 80 which are connected to the upper flaps 78.1 by screws. And a seventh air cylinder 81 is arranged on one side of the mounting plate 80, and the seventh air cylinder 81 is arranged in a U-shaped cavity of the pressing fixing seat 78. The seventh cylinder 81 is connected with a pressing plate 83 in a driving manner, the pressing plate 83 is arranged on the other side of the mounting plate 80, and the pressing plate 83 is a rectangular rubber plate. A guide rod 82 is connected to the mounting plate 80 on each side of the seventh cylinder 81.

As shown in fig. 17 and 18, a separation suction cup device 12 is installed on one side of the lower sheet device 3, and the separation suction cup device 12 is disposed between the sheet conveying device 2 and the lower sheet device 3. The separating sucker device 12 comprises a connecting seat 84, the connecting seat 84 is an opening which is upwards arranged on a U-shaped plate, and the side plates at the two sides of the opening of the U-shaped plate are respectively provided with an inwards arranged upper folded plate 84.1. Eight second slide rails 88 arranged in parallel are connected in the connecting base 84 by screws. And adjusting devices 86 are arranged on the corresponding two second sliding rails 88, the adjusting devices 86 are connected with the suction cup frame 85, the adjusting devices 86 are arranged in the U-shaped cavity body of the connecting seat 84, and the adjusting devices 86 can be transversely adjusted in the connecting seat 84 under the action of the second sliding rails 88.

Adjusting device 86 is including installing the second backup pad 89 on second slide rail 88, and the eighth cylinder 90 and the adjusting screw seat 91 that the installation piston rod set up vertically upwards are adjusted to the screw seat 91 on second backup pad 89, and adjusting screw seat 91 is the L template. All eighth cylinders 90 all drive and connect suction disc frame 85, every horizontal screw hole 91.1 that all adjusts screw seat 91 all is equipped with, at the vertical linear bearing 94 of connecting of adjusting screw seat 91, wire connection guide bar 92 in linear bearing 94, fixed connection board 93 is connected to the lower extreme of guide bar 92, suction disc frame 85 is connected to the upper end of guide bar 92, connecting board 93 is square plate, be equipped with square through hole 93.1 on connecting board 93, eighth cylinder 90 and adjusting screw seat 91 set up in square through hole 93.1. The suction cup frame 85 is a U-shaped plate with a downward opening, the side plates on two sides of the opening of the suction cup frame 85 are both provided with inward connecting folded plates, and the connecting plate 93 is connected to the connecting folded plates of the suction cup frame 85 through screws. The side plate of the connecting seat 84 is provided with an adjusting hole 84.2, the side plate of the suction cup frame 85 is provided with a waist-shaped hole 85.1, an adjusting screw rod 89.1 is connected in the screw hole 91.1, two sides of the adjusting screw rod 89.1 respectively penetrate through the corresponding screw hole 91.1 and the waist-shaped hole 85.1, and the position of the adjusting device 86 in the connecting seat 84 can be adjusted by rotating the adjusting screw rod 89.1.

A group of separating suckers 87 are fixedly connected to the sucker frame 85, the separating suckers 87 are commonly used on glass cutting machines, and the connection mode is the prior art. When the glass cutting machine is used, the two sides of the laminated glass respectively cut the glass on the two sides of the middle glue separating layer through the upper cutting knife assembly 16 and the lower cutting knife assembly 17, then the glass on the two sides is broken off through the upper pressing wheel and the lower pressing wheel, the laminated glass on the front side is tightly pressed through the pressing plate device 19, then the glass on the rear side is sucked through the separating sucker device 12, and the middle glue separating layer is separated through the diaphragm cutting knife 62. The cutting operation of the cutter assembly 16, the lower cutter assembly 17 and the diaphragm cutter 62 is conventional in the glass cutting machine in the prior art, and is not described in the present application.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a doubling glass-cutting machine which characterized in that: the device comprises an upper piece device (1) and a piece transmitting device (2) which are correspondingly arranged, a lower piece device (3) is correspondingly arranged at the end of the piece transmitting device (2), and a cutting device (4) is arranged between the piece transmitting device (2) and the lower piece device (3);

the film feeding device (1) comprises a film feeding frame (5), an overturning adsorption device (6) for feeding films is installed in the film feeding frame (5), the film conveying device (2) comprises a film conveying frame (7), a group of first driving belt assemblies (8) are installed on the film conveying frame (7), and each first driving belt assembly (8) correspondingly extends into the film feeding frame (5);

the lower piece device (3) comprises a lower piece frame (10), a group of second transmission belt assemblies (11) are mounted on the lower piece frame (10), and the second transmission belt assemblies (11) are arranged corresponding to the first transmission belt assemblies (8);

cutting device (4) are including setting up stand (13) passing piece device (2) both sides, connect two crossbeam (14) between two stand (13), vertical face parallel arrangement is altogether gone up in two crossbeam (14), and two crossbeam (14) set up upside and downside in biography piece frame (7) respectively, all connect first slide rail (15) on every crossbeam (14), sliding connection goes up cutting knife subassembly (16) on first slide rail (15) of upside, sliding connection cuts cutting knife subassembly (17) down on first slide rail (15) of downside, it corresponds the setting with cutting knife subassembly (17) down to go up cutting knife subassembly (16).

2. The laminated glass cutting machine according to claim 1, wherein: the overturning adsorption device (6) comprises a fixed frame (20) fixedly connected to the upper sheet frame (5), a turning frame (22) is connected to the fixed frame (20) through a hinge seat (21), a first rotating shaft (23) is fixedly inserted to the turning frame (22), an adjusting motor (26) is installed on the fixed frame (20), the adjusting motor (26) is in driving connection with the first rotating shaft (23) through a connecting rod assembly (27), a group of driving swing plates (24) are fixedly sleeved to the first rotating shaft (23), a group of driven swing plates (25) are connected to the turning frame (22), a first swing arm (28) is connected between each corresponding driving swing plate (24) and each corresponding driven swing plate (25), a group of feeding suction cups (29) are connected to each first swing arm (28), an overturning motor (30) is further installed on the fixed frame (20), and the overturning motor (30) is in driving connection with a driving shaft (34) through a transmission device (31), the driving shaft (34) is connected with the turnover hinge plate (32), and the turnover hinge plate (32) is connected with the turnover frame (22) through a connecting rod (33).

3. The laminated glass cutting machine according to claim 2, wherein: go up a set of first backup pad (35) of connecting on piece frame (5), all connect leading wheel (36) on every first backup pad (35) be equipped with a set of guide way (42) on mount (20), every leading wheel (36) all correspond the direction cooperation with corresponding guide way (42), still install a set of and mount (20) direction support complex direction supporting wheel (41) on last piece frame (5), install slide adjusting motor (37) on mount (20), connect gear (38) on the output shaft of slide adjusting motor (37), rack (39) of fixed connection and gear (38) meshing on mount (20).

4. The laminated glass cutting machine according to claim 1, wherein: one side installation of wafer frame (7) is a set of curb plate (43), rotate between curb plate (43) and connect second pivot (44), cup joint on second pivot (44) and fix a set of second swing arm (45), install swing arm motor (46) on wafer frame (7), one of them second swing arm (45) of swing arm motor (46) drive connection, fixed heating pipe fixing base (49) is connected in all second swing arms (45), install heating pipe (51) in heating pipe fixing base (49), heating pipe (51) set up in wafer frame (7) with between lower wafer frame (10), and heating pipe (51) correspond the setting and are in the below of cutting device (4).

5. The laminated glass cutting machine according to claim 1, wherein: the upper cutter assembly (16) comprises an upper fixing plate (52), a first air cylinder (53), a second air cylinder (54) and a third air cylinder (55) are sequentially arranged on the upper fixing plate (52), piston rods of the first air cylinder (53), the second air cylinder (54) and the third air cylinder (55) are arranged in the same direction, the first air cylinder (53) is connected with a first pressing wheel (58) through a first pressing rod (57), the second air cylinder (54) is connected with an upper glass cutter (60) through a first guide device (59) in a driving mode, and the third air cylinder (55) is connected with a diaphragm cutter (62) through a cutter plate (.

6. The laminated glass cutting machine according to claim 5, wherein: the upper fixing plate (52) is further fixedly connected with a fourth air cylinder (56), the fourth air cylinder (56) is arranged on one side of the third air cylinder (55), the fourth air cylinder (56) is connected with a cross rod (64) through a second pressure rod (63), and two ends of the cross rod (64) are respectively provided with a second pressure wheel (65).

7. The laminated glass cutting machine according to claim 1, wherein: the lower cutting knife assembly (17) comprises a lower fixing plate (69), a fifth cylinder (70) and a sixth cylinder (71) are arranged on the lower fixing plate (69) and are provided with piston rods in the same direction, the fifth cylinder (70) is connected with a lower glass cutting knife (73) in a driving mode through a second guide device (72), and the sixth cylinder (71) is connected with a top wheel (75) through a third pressing rod (74).

8. The laminated glass cutting machine according to claim 1, wherein: cutting device (4) upside the below installation clamp plate device (19) of crossbeam (14), clamp plate device (19) including compressing tightly fixing base (78), install a set of subassembly (79) that compress tightly in compressing tightly fixing base (78), compress tightly subassembly (79) including mounting panel (80) of fixed connection on fixing base (78), at one side installation seventh cylinder (81) of mounting panel (80), seventh cylinder (81) drive connection clamp plate (83), clamp plate (83) set up the opposite side at mounting panel (80).

9. The laminated glass cutting machine according to claim 1, wherein: a separation sucker device (12) is arranged on one side of the lower sheet device (3), the separation sucker device (12) is arranged between the sheet conveying device (2) and the lower sheet device (3), the separation sucker device (12) comprises a connecting seat (84), a group of second sliding rails (88) are arranged in the connecting seat (84), an adjusting device (86) is arranged on the corresponding second sliding rails (88), the adjusting device (86) is connected with a sucker frame (85), a group of separation suckers (87) are fixedly connected to the sucker frame (85), a group of adjusting screw rods (89.1) are further connected to the connecting seat (84), and each adjusting screw rod (89.1) is correspondingly connected with the corresponding adjusting device (86);

adjusting device (86) is including installing second backup pad (89) on second slide rail (88), installs eighth cylinder (90) and regulation screw seat (91) on second backup pad (89), and eighth cylinder (90) drive is connected suction disc frame (85), and regulation screw seat (91) are connected accommodate the lead screw (89.1), still connect guide bar (92) on accommodate the screw seat (91), and suction disc frame (85) is connected to the one end of guide bar (92), and fixed connection board (93) are connected to the other end of guide bar (92), and connecting plate (93) are connected and are fixed on suction disc frame (85).

10. The laminated glass cutting machine according to claim 1, wherein: pass the top of piece device (2) one side and install one row of first location leading wheel (95) lower piece device (3) one side top installation one row of second location leading wheel (96), first location leading wheel (95) and second location leading wheel (96) are installed in the same one side of cutting machine and collineation setting.

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