CN218809261U - Vertical glass sheet paper-padding machine - Google Patents

Abstract

The utility model discloses a vertical glass sheet paper-padding machine, which is mainly provided with a left electric frame driving device between a left landing guide rail and a left frame; an electric paper unreeling and drawing device is connected between the left side plate frame and the right side plate frame; the left side and the right side of the top of the upper cross beam are downwards connected with a left electric vertical guide rail device and a right electric vertical guide rail device which correspond to each other, and a cutter installation cross beam device is transversely connected between the left electric vertical guide rail device and the right electric vertical guide rail device to guide the electric paper cutting device to slide left and right to cut paper; a paper guide plate is fixedly arranged between the left electric vertical guide rail device and the right electric vertical guide rail device, and a paper downward-penetrating gap is formed between the paper guide plate and the cutter mounting cross beam device; when the glass plate is stacked and thickened, the left motor frame driving device synchronously controls the left frame to slide for a certain distance so as to be suitable for stacking the next paper, and the sliding distance is matched with the thickness of the glass plate; simultaneously, can also carry out lift adjustment to electronic paper cutting device to the glass board packing paper that is fit for different height size uses.

Description

Vertical glass sheet paper-padding machine

Technical Field

The utility model relates to a glass packaging machinery especially relates to a vertical glass sheet pad paper machine.

Background

1. A single glass plate after being produced and molded is large in area and heavy, and all the glass plates are stacked/laminated by glass conveying and assembling equipment, so that the stacked/laminated glass plates are generally vertically arranged/placed at an angle of 10-20 degrees without toppling for convenience of loading/unloading of a forklift, subsequent distribution processing, subsequent shop-entering sales and the like; in order to prevent the stacking scratch between the glass plates and the easy separation of the taking/placing of the glass plates, a layer of separating paper is placed when each glass plate is stacked; at present, the paper cushioning machine is fixed and installed near the outlet of glass conveying and assembling equipment, glass plates are continuously thickened in the laminating process, and when one piece of paper is laminated on each glass plate, errors/deviations exist, and the paper is not laminated regularly. 2. The existing paper output mechanism of the single large-area paper packing machine is not used for paper output positioning and height positioning, cutting, lifting and adjusting, and is not suitable for glass plate paper packing of different heights and sizes.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a reasonable in design, the paper that can stimulate the stock form in succession carries out the vertical glass sheet pad paper machine of going out paper.

The scheme for solving the technical problems is as follows:

a vertical glass plate paper padding machine comprises a left floor guide rail and a right floor guide rail, wherein the left floor guide rail and the right floor guide rail are connected with a left rack and a right rack which correspond to each other in a sliding manner, the tops of the left rack and the right rack are fixedly connected with an unreeling paper rack upwards, and an upper cross beam is fixedly connected between the left rack and the right rack;

a left motor rack driving device is arranged between the left floor guide rail and the left rack and is used for driving the left rack and the right rack to slide back and forth on the left floor guide rail and the right floor guide rail to change positions;

the left side and the right side of the top of the left rack and the right rack are upwards connected with a left side plate frame and a right side plate frame, and a cross beam rod is fixedly connected between the left side plate frame and the right side plate frame;

an electric unreeling and paper pulling device is connected between the left side plate frame and the right side plate frame and used for unreeling the roll paper on the unreeling paper frame;

the left side and the right side of the top of the upper cross beam are downwards connected with a left electric vertical guide rail device and a right electric vertical guide rail device which correspond to each other, a cutter mounting cross beam device is transversely connected between the left electric vertical guide rail device and the right electric vertical guide rail device, an electric paper cutting device is transversely and slidably mounted on the cutter mounting cross beam device, and paper can be cut off by the electric paper cutting device in a transverse left-right sliding mode on the cutter mounting cross beam device;

the electric paper cutting device is positioned below the electric unreeling and paper pulling device;

the left electric vertical guide rail device and the right electric vertical guide rail device are used for driving the cutter mounting cross beam device to adjust the height of the cutter mounting cross beam device up and down, so that the height of the electric paper cutting device is adjusted;

a paper guide plate is fixedly installed between the left electric vertical guide rail device and the right electric vertical guide rail device, and a paper passing gap is formed between the paper guide plate and the cutter installation cross beam device.

The utility model discloses a vertical glass sheet bedding paper machine beneficial effect does: 1. the left rack, the right rack and the upper cross beam of the product form a large portal frame, the portal frame is suitable for single glass plate packing paper with large area, heavy and inconvenient manual carrying, the paper of a whole roll is installed on the paper unreeling rack during use, then the drawing paper sheets pass through the electric paper unreeling and drawing device, then the drawing paper sheets pass through a gap under the paper sheets, the paper sheets are placed from top to bottom, the electric paper cutting device cuts off the paper sheets from one end of the cutter installation cross beam device to the other end in a transverse sliding mode, and the large-area glass plate packing paper is convenient to match. 2. At least a left motor frame driving device is installed between the left floor-type guide rail and the left frame, the glass plate is continuously thickened in the laminating process, when a piece of paper is laminated towards the glass plate, the left motor frame driving device synchronously controls the left frame to slide for a certain distance so as to be suitable for laminating the next piece of paper, and the sliding distance is matched with the thickness of the glass plate. 3. The automatic paper output is carried out and is put interlayer paper (paper) automatically at the glass board surface, exempts from the manual work and takes paper, puts paper, improves the efficiency that the glass board separated the range upon range of paper, reduces workman's operation, avoids a plurality of papers laminating to be in the same place as far as possible, energy-conserving paper source, reduction labour cost.

Drawings

Fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6 are perspective views of a product of the present invention, wherein fig. 1 is a perspective view of a paper unwinding frame with a paper roll mounted thereon;

fig. 7, 8 and 9 are perspective views of the connection structure of the left side plate frame, the right side plate frame, the beam electric paper cutting device and the left electric vertical guide rail device of the utility model;

fig. 10 is a perspective view of the left motor frame driving device of the present invention;

fig. 11 is a perspective view of the right motor frame driving device of the present invention.

A left landing guide rail A, a right landing guide rail B, a left frame C, a right frame D, an upper cross beam E, an unreeling paper frame F, a left motor frame driving device G, a left side plate frame H, a right side plate frame I, a cross beam rod J, an upper top plate K, an electric unreeling paper pulling device L, a left electric vertical guide rail device M, a right electric vertical guide rail device N, a paper downward passing gap O, an electric paper cutting device P, a paper guide plate Q, a cutter mounting cross beam device R, a right motor frame driving device S,

A left motor driving device G1, a left frame driving gear G2, a left rack mounting rack G3, a left rack G4, a left front sliding wheel G5, a left rear sliding wheel G6, a left front frame anti-falling limit convex part G7, a left rear frame anti-falling limit convex part G8,

A right motor driving device S1, a right frame driving gear S2, a right rack mounting rack S3, a right rack S4, a right front sliding wheel S5, a right rear sliding wheel S6, a right front frame anti-drop limit convex part S7, a right rear frame anti-drop limit convex part S8,

The paper unwinding device comprises a left roller mounting seat I L1, a left rod head mounting hole I L11, a left rod head mounting hole II L12, a left rod head mounting hole III L13, a right roller mounting seat I L2, a right rod head mounting hole I L21, a right rod head mounting hole II L22, a paper unwinding and sucking friction rod L3, a paper unwinding and sucking friction rod L4, a paper passing gap L5, a transmission gear I L6, an electric paper unwinding driving device L7, a transmission gear II L8, a transmission belt I9, a paper unwinding guide rod L10, a left main roller mounting seat L1A, a left auxiliary roller mounting seat L1B, a left air cylinder L1C, a right main roller mounting seat L2A, a right auxiliary roller mounting seat L2B, a right air cylinder L2C, a left roller mounting seat L3, a paper unwinding and sucking friction rod L4, a paper passing gap L5,

A left vertical arm M1, a lifting adjusting electric device M2, an electric rotating gear M3, a left rotating shaft seat M4, a rotating shaft gear M5, a common rotating shaft rod M6, a common rotating shaft gear belt M7, a left rotating shaft end gear M8, a left guide gear I M9, a left guide gear II M10, a left guide gear III M11, a left lifting driving gear belt M12, a left lifting guide rail M13, a rotating shaft seat support frame M14, a left rotating shaft seat support frame M4, a left rotating shaft gear M5, a common rotating shaft rod M6, a common rotating shaft gear belt M7, a left rotating shaft end gear M8, a left guide gear I9, a left guide gear II 10, a left guide gear III,

Right vertical arm N1, right rotary shaft seat N2, right rotary shaft end gear N3, right guide gear N4, right guide gear N5, right guide gear N6, right lifting driving gear belt N7, right lifting guide rail N8, cutter installation crossbeam rod R1, crossbeam left end connector R2, crossbeam right end connector R3, left limiting part R4, right limiting part R5, left lifting sliding part R6 and right lifting sliding part R7

A cutter sliding motor driving device P1, a cutter sliding motor driving gear P2, a cutter dragging belt P3, a dragging belt follower wheel P4, a cutter sliding guide rail P5, a paper cutting motor mounting seat P6, a cutter driving motor P7, a paper cutter P8,

The left vertical rod F1, the right vertical rod F2, the top cross rod F3, the left rod placing fork opening F11, the right rod placing fork opening F21, the left limiting anti-falling part F31, the right limiting anti-falling part F32, the left paper roll fixing ring F33, the right paper roll fixing ring F34, the left clamping cylinder F4 and the right clamping cylinder F5.

Detailed Description

A vertical glass sheet paper padding machine is suitable for a single glass sheet paper padding machine which is large in area, heavy and inconvenient to carry manually, and comprises a left floor guide rail A and a right floor guide rail B, wherein the left floor guide rail A and the right floor guide rail B are fixedly connected to a concrete ground through stud assemblies; at least a left motor frame driving device G is arranged between the left floor guide rail A and the left frame C, and is used for driving the left frame C and the right frame D to slide back and forth on the left floor guide rail A and the right floor guide rail B to change positions and move forwards according to the thickness of the laminated glass plate so as to be suitable for laminating paper;

the left side and the right side of the top of the left rack C and the right rack D are upwards fixedly connected with a left side plate frame H and a right side plate frame I through bolt assemblies, a cross beam J is fixedly connected between the left side plate frame H and the right side plate frame I through the bolt assemblies, and the cross beam J is used for fixing the distance between the left side plate frame H and the right side plate frame I and is more firmly and stably installed by using the left side plate frame H and the right side plate frame I;

an upper top plate K is fixedly connected between the left side plate frame H and the right side plate frame I through a screw assembly and is used for horizontally placing paper;

an electric unreeling and paper pulling device L is connected between the left side plate frame H and the right side plate frame I and used for unreeling paper on the unreeling paper frame F;

the left side and the right side of the top of the upper cross beam E are downwards connected with a left electric vertical guide rail device M and a right electric vertical guide rail device N which correspond to each other, a cutter mounting cross beam device R is transversely connected between the left electric vertical guide rail device M and the right electric vertical guide rail device N, an electric paper cutting device P is transversely and slidably mounted on the cutter mounting cross beam device R, and paper can be cut off by the electric paper cutting device P in a transverse left-right sliding mode on the cutter mounting cross beam device R;

the left electric vertical guide rail device M and the right electric vertical guide rail device N are used for driving the cutter mounting cross beam device R to adjust the height of the cutter mounting cross beam device R up and down, so that the height of the electric paper cutting device P is adjusted; according to different production batches, the heights of the glass plates are different, and the heights of the cutter mounting beam devices R are adjusted by controlling the left electric vertical guide rail device M and the right electric vertical guide rail device N to drive, so that the heights of the electric paper cutting devices P are matched with the heights of the glass plates, and the cut paper is more suitable for the glass plates with corresponding heights;

the electric paper cutting device P is positioned below the electric unreeling and paper pulling device L, and paper is output in a hanging manner from top to bottom;

fixed mounting has paper guide board Q between electronic vertical guide device M in a left side, the electronic vertical guide device N in the right side, and paper guide board Q's base is toward preceding perk, goes out the paper better, and paper guide board Q is used for guiding the paper and exports under space, the position according to regulation to help the cutting to cut off the paper, and paper guide board Q and cutter installation cross beam device R are formed with the paper and pass gap O down, pass gap O under the paper and for paper output location, not chaotic.

The vertical glass plate paper padding machine is arranged at the tail end of a glass production line, glass plates are stacked in a space between a left rack C and a right rack D and are matched with a glass plate stacking machine for use, and each stacked glass plate is stacked with a piece of paper, so that excessive adhesion among the glass plates is prevented, and the surface of the glass plate is prevented from being scratched; when the paper unwinding device is used, the whole roll of paper is arranged on the paper unwinding frame F, then the drawing paper sheet passes through the electric paper unwinding and drawing device L and then passes through the gap O below the paper sheet, the unwinding length of the paper sheet is controlled by the electric paper unwinding and drawing device L, and the unwinding length of the paper sheet is determined by the electric paper unwinding and drawing device L through working time or internal stroke torque; after the paper pulling and placing of the electric paper unreeling and pulling device L are stopped, the electric paper cutting device P slides to the other end from one end of the cutter installation beam device R to cut off paper, and one-time paper cutting is completed.

Further: the left motor rack driving device G comprises a left motor driving device G1, a left rack driving gear G2, a left rack mounting rack G3, a left rack G4, a left front sliding wheel G5 and a left rear sliding wheel G6, the left motor driving device G1 is fixedly mounted on the outer side of the bottom of the left rack C through a bolt assembly, the power output shaft end of the left motor driving device G1 is fixedly connected with the left rack driving gear G2 in a clamping mode, the left rack driving gear G2 is in meshed connection with the left rack G4, slipping can be prevented through meshed connection, and stroke accuracy is improved; a left rack mounting rack G3 is welded or fixedly connected with one side of the left floor type guide rail A through a bolt assembly, a left rack G4 is welded or fixedly connected onto the left rack mounting rack G3 through a bolt assembly, and the left rack mounting rack G3 and the left floor type guide rail A are coaxially corresponding; the left rack G4 is horizontally arranged with the left floor type guide rail A, the front end and the rear end of the bottom of the left rack C are movably connected with a left front sliding wheel G5 and a left rear sliding wheel G6 by bolt assemblies, and the left front sliding wheel G5 and the left rear sliding wheel G6 are pressed on the top of the left floor type guide rail A; the two ends of the left floor type guide rail A are fixedly connected with a left front frame anti-falling limiting convex part G7 and a left rear frame anti-falling limiting convex part G8 through bolt assemblies, and the left front frame anti-falling limiting convex part G7 and the left rear frame anti-falling limiting convex part G8 are used for preventing the left frame C from possibly falling off/derailing from the two ends; the left front frame anti-falling limiting convex part G7 and the left rear frame anti-falling limiting convex part G8 are used for preventing the left frame driving gear G2 from falling off from the two ends of the left rack G4;

because the left floor guide rail A, the left rack mounting rack G3 and the left rack G4 are immobile, the left motor driving device G1 works to drive the left rack driving gear G2 to rotate, the left rack driving gear G2 moves forwards and backwards on the basis of the left rack G4, and the right floor guide rail B is connected with the right rack D in a sliding manner, so that the left rack C can slide forwards and backwards through the left front sliding wheel G5 and the left rear sliding wheel G6, the left rack C synchronously drives the right rack D and the upper cross beam E to synchronously slide when sliding, and the whole portal frame can move;

the left motor driving device G1 comprises a left driving motor and a left reduction box, the left driving motor is fixedly connected with the left reduction box through a screw assembly, the left reduction box is fixedly connected with the left rack C through the screw assembly, a motor output shaft of the left driving motor is connected with a power input shaft of the left reduction box, a power output shaft end of the left reduction box is fixedly clamped with a left rack driving gear G2, the left driving motor works to drive the left reduction box to work, and a power output shaft of the left reduction box drives the left rack driving gear G2 to rotate;

further: a right motor frame driving device S is arranged between the right landing guide rail B and the right frame D and is used for driving the left frame C and the right frame D to slide back and forth on the left landing guide rail A and the right landing guide rail B to change positions;

the right motor rack driving device S comprises a right motor driving device S1, a right rack driving gear S2, a right rack mounting rack S3, a right rack S4, a right front sliding wheel S5 and a right rear sliding wheel S6, the right motor driving device S1 is fixedly mounted on the outer side of the bottom of the right rack D through a bolt assembly, the power output shaft end of the right motor driving device S1 is fixedly connected with the right rack driving gear S2 in a clamping mode, the right rack driving gear S2 is connected with the right rack S4 in a meshing mode, the meshing connection can prevent slipping, and the accuracy of a stroke is improved; one side of the right floor guide rail B is fixedly connected with a right rack mounting rack S3, a right rack S4 is fixedly connected to the right rack mounting rack S3, and the right rack mounting rack S3 and the right floor guide rail B correspond to each other in the same axial direction; the front end and the rear end of the bottom of the right frame D are movably connected with a right front sliding wheel S5 and a right rear sliding wheel S6 by bolt assemblies, and the right front sliding wheel S5 and the right rear sliding wheel S6 are pressed on the top of the right floor guide rail B; the two ends of the right floor guide rail B are fixedly connected with a right front frame anti-falling limiting convex part S7 and a right rear frame anti-falling limiting convex part S8 by adopting bolt assemblies, and the right front frame anti-falling limiting convex part S7 and the right rear frame anti-falling limiting convex part S8 are used for preventing the left frame C from possibly falling off/derailing from the two ends; the right front rack anti-falling limiting convex part S7 and the right rear rack anti-falling limiting convex part S8 are used for preventing the right rack driving gear S2 from being separated from the two ends of the right rack S4.

Because the right landing guide rail B, the right rack mounting frame S3 and the right rack S4 are not moved, the right motor driving device S1 works to drive the right rack driving gear S2 to rotate, the right rack driving gear S2 moves forwards and backwards on the basis of the right rack S4, the right rack D can slide forwards and backwards through the right front sliding wheel S5 and the right rear sliding wheel S6, the right rack D synchronously drives the right rack D and the upper cross beam E to synchronously slide when sliding, and the whole portal frame can move;

the right motor driving device S1 comprises a right driving motor and a right reduction box, the right driving motor is fixedly connected to the right reduction box through a screw assembly, the right reduction box is fixedly connected with the right frame D through the screw assembly, a motor output shaft of the right driving motor is connected with a power input shaft of the right reduction box, a power output shaft end of the right reduction box is fixedly clamped with a right frame driving gear S2, the right driving motor works to drive the right reduction box to work, and a power output shaft of the right reduction box drives the right frame driving gear S2 to rotate;

the left reduction gearbox and the right reduction gearbox are used for reducing the rotating speed of the motor and enabling the left rack C and the right rack D to move slowly;

preferably, when the left motor frame driving device G is installed between the left floor guide rail A and the left frame C, and the right motor frame driving device S is installed between the right floor guide rail B and the right frame D, and the two motor frame driving devices work synchronously, the sliding work is synchronous, the integral left frame C, the right frame D and the upper cross beam E slide more easily, and the sliding stroke is more accurate; when a piece of paper is laminated on the glass plate, the left motor frame driving device G and the right motor frame driving device S synchronously control the left frame C and the right frame D to slide for 3 millimeters to 1.5 centimeters, the sliding distance is matched with the thickness of the glass plate, and the thickness of the glass plate plus the thickness of the laminated paper is the most suitable sliding distance. The thickness of the glass plate is generally 2 mm to 1.5 cm.

Further: the electric unreeling and paper pulling device L comprises a left rolling rod mounting seat I L1, a right rolling rod mounting seat I L2, an upper unreeling paper suction friction rod L3 and a lower unreeling paper suction friction rod L4, wherein the upper unreeling paper suction friction rod L3 and the lower unreeling paper suction friction rod L4 are extruded mutually, a paper passing gap L5 is formed between the upper unreeling paper suction friction rod L3 and the lower unreeling paper suction friction rod L4, the wall body of the left rolling rod mounting seat I L1 is provided with a left rod head mounting hole I11 and a left rod head mounting hole II 12 which are vertically arranged, the wall body of the right rolling rod mounting seat I L2 is provided with a right rod head mounting hole I L21 and a right rod head mounting hole II 22 which are vertically arranged, and the left side plate frame H is provided with a left rod head mounting hole III L13;

the inner front walls of the left side plate frame H and the right side plate frame I are fixedly connected with a corresponding left roller mounting seat I1 and a corresponding right roller mounting seat I2 through bolt assemblies, and the left roller mounting seat I1 and the right roller mounting seat I2 are symmetrically arranged in opposite directions;

the upper unreeling paper absorbing friction rod L3 is arranged between the left rod head mounting hole I L11 and the right rod head mounting hole I L21, and the rod heads at the two ends of the upper unreeling paper absorbing friction rod L3 can be just inserted into the corresponding left rod head mounting hole I L11 and the right rod head mounting hole I L21 to be movably connected (preferably, bearings are fixed in the left rod head mounting hole I L11 and the right rod head mounting hole I L21, and the rod heads at the two ends of the upper unreeling paper absorbing friction rod L3 are inserted into the bearing holes to be fixed, so that the lubricity is improved, and the rotation is easier and easier);

the left end rod head of the downward rolling and absorbing paper friction rod L4 can be just inserted into the second left rod head mounting hole L12 to be movably connected;

the right end rod head of the lower roll-up paper friction rod L4 penetrates through the right rod head mounting hole II L22, the left rod head mounting hole III L13 extends out of the right rod head mounting hole II, and is fixedly connected with a transmission gear I L6 in a clamping manner, the transmission gear I L6 is arranged on the outer wall of the left side plate frame H, the right rod head mounting hole II L22 is movably connected with the right end rod head of the lower roll-up paper friction rod L4, and the left rod head mounting hole III L13 is only used for extending across the rod head; (preferably: bearings are fixed in the left rod head mounting hole II L12 and the right rod head mounting hole II L22, and the rod heads at the two ends of the lower roll-up paper friction rod L4 are inserted into the bearing holes for fixation, so that the lubricity is improved, and the rotation is easier and easier);

on unreel and inhale paper friction stick L3, transfer and roll up and inhale paper friction stick L4 and all include the metal stick core, the surface cover of metal stick core is established and is fixed with the plastic cover of mat surface, and the plastic cover coefficient of friction of mat surface is big, and is better at the frictional force that presss from both sides paper hand-drawn paper like this, and the hand-drawn paper effect is better.

The inner wall fixedly connected with of left side grillage H is electronic puts scroll drive arrangement L7, and the electronic transmission shaft of putting scroll drive arrangement L7 wears out the outer wall and the two L8 of fixedly connected with drive gear of left side grillage H, and the cover tightly is connected with a drive belt L9 between two L8 of drive gear, drive gear L6.

The paper passes through from paper gap L5, and electronic two L8 of drive gear of drive arrangement L7 work drive of putting is rotatory, and two L8 of drive gear L6 through drive belt L9 are rotatory, and drive gear L6 drives earlier and transfers the rotation of scroll suction paper friction stick L4, and it is rotatory to transfer to unreel through frictional force when rolling suction paper friction stick L4 is rotatory, and through unreeling on, inhale paper friction stick L3, transfer the rotation of scroll suction paper friction stick L4 and inhale paper and draw paper and unreel.

The electric paper roll placing driving device L7 is an unreeling motor.

Further: the first left roller mounting seat L1 comprises a left main roller mounting seat L1A and a left auxiliary roller mounting seat L1B, the left main roller mounting seat L1A and the left auxiliary roller mounting seat L1B are connected in a sliding mode through a dovetail groove sliding rail structure, a first left roller head mounting hole L11 is formed in the left auxiliary roller mounting seat L1B, and a second left roller head mounting hole L12 is formed in the left main roller mounting seat L1A;

the left main roller mounting seat L1A is fixedly connected with a left air cylinder L1C, and a telescopic rod of the left air cylinder L1C is fixedly connected with the left auxiliary roller mounting seat L1B; the telescopic rod of the left air cylinder L1C controls the lifting of the left auxiliary rolling rod mounting seat L1B;

the right roller mounting seat I2 comprises a right main roller mounting seat L2A and a right auxiliary roller mounting seat L2B, the right main roller mounting seat L2A and the right auxiliary roller mounting seat L2B are in sliding connection through a dovetail groove sliding rail structure, a right roller head mounting hole I21 is formed in the right auxiliary roller mounting seat L2B, and a right roller head mounting hole II L22 is formed in the right main roller mounting seat L2A;

and the right main roller mounting seat L2A is fixedly connected with a right cylinder L2C, and a telescopic rod of the right cylinder L2C is fixedly connected with a right auxiliary roller mounting seat L2B. And the telescopic rod of the right cylinder L2C controls the lifting of the right auxiliary rolling rod installation seat L2B.

Because the upper unwinding paper-absorbing friction bar L3 and the lower unwinding paper-absorbing friction bar L4 are squeezed and pressed with each other, when the first paper is unwound, the paper cannot pass through the upper unwinding paper-absorbing friction bar L3 and the lower unwinding paper-absorbing friction bar L4, therefore, when the first paper is unwound, the air sources sucking the left air cylinder L1C and the right air cylinder L2C are controlled simultaneously, the left air rod and the right air rod are lifted, the left auxiliary rolling rod mounting seat L1B and the right auxiliary rolling rod mounting seat L2B are lifted, the upper unwinding paper-absorbing friction bar L3 is lifted synchronously, a relatively high gap (paper-passing gap L5) is formed between the upper unwinding paper-absorbing friction bar L3 and the lower unwinding paper-absorbing friction bar L4, at the moment, the paper passes through the relatively wide paper-passing gap L5 between the upper unwinding paper-absorbing friction bar L3 and the lower winding paper-absorbing friction bar L4, and after the paper-passing gap L5, the air blowing is controlled simultaneously to enable the left air cylinder L1C, the left air rod and the lower air rod mounting seat L2C to descend, so that the left auxiliary rolling rod mounting seat L3 and the left auxiliary rolling rod L3 are pressed tightly, and the paper-absorbing friction bar L3, and the paper-absorbing friction bar mounting seat L4 are pressed, and the paper-absorbing friction bar L3 are pressed tightly, and the paper-absorbing friction bar L3, and the paper-absorbing friction bar forming a mutual squeezing force of the upper unwinding paper-absorbing friction bar, and the paper-absorbing friction bar L2L 3 is formed; the upper unreeling paper-absorbing friction rod L3 and the lower unreeling paper-absorbing friction rod L4 work to rotate and rub the paper-absorbing pulling and unreeling.

Further: paper unwinding guide rods L10 are transversely connected between the rear sides of the left side plate frame H and the right side plate frame I. The paper unreels guide bar L10 and is used for unreeling the paper and unreeling on with and inhale paper friction stick L3, transfer to roll and inhale paper friction stick L4 and separate certain distance, prevents to unreel the paper and probably be rolled over and prevent to unreel the paper and unreel on and inhale paper friction stick L3, transfer to roll and inhale paper friction stick L4 area of contact too much, inhales the too big stretch of paper frictional force and unreels the paper, also has certain rectification effect.

When the paper is unreeled, the paper is firstly cross-pressed and guided by the paper unreeling guide rod L10 and then enters the paper passing gap L5.

Preferably: set up left socle hole, right branch frame hole at left side grillage H, right side grillage I rear side wall, the paper unreels both ends head of guide bar L10 and just can cross swing joint in left socle hole, right branch frame hole, and the paper unreels guide bar L10 follow-up rotatory when being pulled, and the paper is drawn and easily slides more.

Further: the left electric vertical guide rail device M comprises a left vertical arm M1, a lifting adjusting electric device M2, an electric rotating gear M3, a left rotating shaft seat M4, a rotating shaft gear M5, a common rotating shaft rod M6, a common rotating shaft gear belt M7, a left rotating shaft end gear M8, a left guide gear I M9, a left guide gear II M10, a left guide gear III M11, a left lifting driving gear belt M12 and a left lifting guide rail M13,

the upper crossbeam E is fixedly connected with a rotating shaft seat support frame M14 through a bolt assembly;

the top of the left vertical arm M1 is fixedly connected with the left top of the upper cross beam E through a bolt assembly; the rear wall of the upper section of the left vertical arm M1 is fixedly connected with a lifting adjusting electric device M2 through a bolt assembly, and the power output shaft end of the lifting adjusting electric device M2 is fixedly connected with an electric rotating gear M3 in a clamping mode; the left rotating shaft seat M4 is fixedly connected to the left side of the rotating shaft seat support frame M14 through a bolt assembly, a left Duan Hengchuan of the common rotating shaft rod M6 is connected to the left rotating shaft seat M4, a rotating shaft gear M5 is fixedly connected to the left section of the common rotating shaft rod M6 in a penetrating mode, and a common rotating shaft gear belt M7 is sleeved between the electric rotating gear M3 and the rotating shaft gear M5; the left end of the common rotating shaft rod M6 is fixedly connected with a left rotating shaft end gear M8 in a clamping manner; the lifting adjusting electric device M2 works and rotates to drive the electric rotating gear M3 to rotate, the electric rotating gear M3 drives the common rotating shaft gear belt M7 to rotate, the common rotating shaft gear belt M7 rotates to drive the rotating shaft gear M5 to rotate, the rotating shaft gear M5 rotates to drive the common rotating shaft lever M6 to rotate, and the common rotating shaft lever M6 rotates to drive the left rotating shaft end gear M8 and the right rotating shaft end gear N3 at the two ends to rotate;

the outer side wall of the upper section of the left vertical arm M1 is movably connected with a left guide gear I M9 and a left guide gear II M10 through bolt assemblies, the outer side wall of the lower section of the left vertical arm M1 is movably connected with a left guide gear III M11 through bolt assemblies, and a left lifting driving gear belt M12 is sleeved on the left rotating shaft end gear M8, the left guide gear I M9, the left guide gear II M10 and the left guide gear III M11 together;

the left lifting guide rail M13 is integrally and fixedly connected with the front wall of the left vertical arm M1;

the right electric vertical guide rail device N comprises a right vertical arm N1, a right rotary shaft seat N2, a right rotary shaft end gear N3, a right guide gear I N4, a right guide gear II N5, a right guide gear III N6, a right lifting driving gear belt N7 and a right lifting guide rail N8;

the top of the right vertical arm N1 is fixedly connected with the right top of the upper cross beam E through a bolt assembly; the right rotating shaft seat N2 is fixedly connected to the right side of the rotating shaft seat support frame M14 through a bolt assembly, the right section of the common rotating shaft rod M6 is transversely connected to the right rotating shaft seat N2, and the right end of the common rotating shaft rod M6 is fixedly connected with a right rotating shaft end gear N3;

the outer side wall of the upper section of the right vertical arm N1 is movably connected with a right guide gear I N4 and a right guide gear II N5 through bolt assemblies, the outer side wall of the lower section of the right vertical arm N1 is movably connected with a right guide gear III N6 through bolt assemblies, and a right lifting driving gear belt N7 is sleeved on the right rotary shaft end gear N3, the right guide gear I N4, the right guide gear II N5 and the right guide gear III N6 together;

and the right lifting guide rail N8 is fixedly connected with the front wall of the right vertical arm N1 in an integrated manner.

A cutter mounting cross beam device R is vertically and slidably connected between the left lifting guide rail M13 and the right lifting guide rail N8, the left end and the right end of the cutter mounting cross beam device R are fixedly connected with a left lifting driving gear belt M12 and a right lifting driving gear belt N7 which correspond to each other, and the left lifting driving gear belt M12 and the right lifting driving gear belt N7 drag the cutter mounting cross beam device R to vertically slide to adjust the height on the basis of the left lifting guide rail M13 and the right lifting guide rail N8; the lifting adjusting electric device M2 has a brake locking function, and the height of the cutter mounting beam device R can be fixed after the lifting adjusting electric device stops working.

When the paper cutting device is in work, the lifting adjusting electric device M2 works to drive the electric rotating gear M3 to rotate, the electric rotating gear M3 drives the common rotating shaft rod M6 to rotate through the rotating shaft gear M5 and the common rotating shaft gear belt M7, the common rotating shaft rod M6 synchronously drives the left rotating shaft end gear M8 and the right rotating shaft end gear N3 to synchronously rotate, the left rotating shaft end gear M8 and the right rotating shaft end gear N3 synchronously drive the corresponding left lifting driving gear belt M12 and the right lifting driving gear belt N7 to synchronously rotate, the left lifting driving gear belt M12 and the right lifting driving gear belt N7 synchronously pull the cutter mounting beam device R to slide up and down through the left lifting guide rail M13 and the right lifting guide rail N8, therefore, the height required by the cutter mounting beam device R is adjusted, the lifting adjusting electric device M2 is controlled to stop working and fix the height after the height is determined, and the height of the electric paper cutting device P is adjusted;

the lifting adjusting electric device M2 comprises a lifting motor and a lifting reduction gearbox, the upper rear wall of the left vertical arm M1 is fixedly connected with the lifting reduction gearbox through a bolt assembly, the lifting motor is fixedly connected with the lifting reduction gearbox through a screw assembly, a motor output shaft for placing the lifting motor is connected with a power input shaft of the lifting reduction gearbox, and an electric rotating gear M3 is fixedly clamped at the power output shaft end of the lifting reduction gearbox and can conveniently control the output speed, so that the rotating speed of the common rotating shaft rod M6 is controlled.

Cutter installation crossbeam device R includes cutter installation crossbeam pole R1, crossbeam left end connector R2, crossbeam right-hand member connects R3, left locating part R4, right limiting part R5, left lifting slider R6, right lifting slider R7, crossbeam left end connector R2 that the left and right both ends of cutter installation crossbeam pole R1 correspond with screw assembly fixed connection, crossbeam right-hand member connects R3, crossbeam left end connector R2, crossbeam right-hand member connects R3 and the left lifting drive gear area M12 that corresponds, right lifting drive gear area N7 is with screw assembly fixed connection, left locating part R4, right limiting part R5 is with screw assembly fixed connection at the left vertical arm M1 that corresponds, the top antetheca of right vertical arm N1, left locating part R4, right locating part R5 is used for preventing cutter installation crossbeam pole R1 from deviating from the top from, the left lifting slider R6 that the left and right inner wall fixed connection of cutter installation crossbeam pole R1 corresponds, right lifting slider R7, left side lifting slider R6 is with dovetail lifting guide rail M13, right lifting slider is connected with right lifting slider with dovetail block sliding part R8. Spacing protruding piece about cutter installation crossbeam pole R1's both ends fixedly connected with, control spacing protruding piece and be used for preventing that cut paper motor mount pad P6 from deviating from both ends.

When the left lifting driving gear belt M12 and the right lifting driving gear belt N7 rotate, the left lifting driving gear belt M12 and the right lifting driving gear belt N7 synchronously drive the left end connector R2 of the cross beam and the right end connector R3 of the cross beam to slide, the left end connector R2 of the cross beam and the right end connector R3 of the cross beam synchronously drive the cutter mounting cross beam rod R1 to slide up and down, and the left lifting guide rail M13 and the right lifting guide rail N8 are matched with the left lifting sliding part R6 and the right lifting sliding part R7 to enable the cutter mounting cross beam rod R1 to slide up and down;

further: the electric paper cutting device P comprises a cutter sliding motor driving device P1, a cutter sliding motor driving gear P2, a cutter dragging belt P3, a dragging belt follower wheel P4, a cutter sliding guide rail P5, a paper cutting motor mounting seat P6, a cutter driving motor P7 and a paper cutter P8, wherein the cutter driving motor P7 is fixedly mounted on the paper cutting motor mounting seat P6 through a screw assembly, a paper cutter P8 is fixedly connected to the motor shaft end of the cutter driving motor P7 through the screw assembly, and the paper cutter P8 is positioned below paper and passes through a gap O and is close to the lower edge of a paper guide plate Q;

the cutter sliding motor driving device P1 is fixed at the left end of the cutter mounting cross beam device R through a screw assembly, and a cutter sliding motor driving gear P2 is fixedly connected with a motor shaft end of the cutter sliding motor driving device P1;

the drag belt follower wheel P4 is connected to the right end of the cutter mounting beam device R through a screw assembly, and a cutter drag belt P3 is sleeved between the cutter sliding motor driving gear P2 and the drag belt follower wheel P4;

the cutter sliding guide rail P5 is horizontally and fixedly connected to the cutter mounting cross beam device R and the other half of the cutter sliding guide rail P5 is fixedly connected to the paper cutting motor mounting seat P6, the two half parts are connected in a dovetail groove structure in a clamping mode to form a sliding mode, and the paper cutting motor mounting seat P6 can horizontally slide left and right through the cutter sliding guide rail P5.

When the paper cutting device is used, the cutter sliding motor driving device P1 works to drive the cutter sliding motor driving gear P2 to rotate, the cutter sliding motor driving gear P2 rotates to drive the cutter dragging belt P3 to rotate, the dragging belt following wheel P4 synchronously rotates along with the cutter dragging belt P3, the paper cutting motor mounting seat P6 slides left and right through the cutter sliding guide rail P5, the cutter driving motor P7 works to drive the paper cutter P8 to rotate, and the paper cutter P8 horizontally and transversely slides to cut and cut paper extending out of a gap O from below the paper; the paper is longitudinally extended from under the paper through the gap O;

the cutter mounting beam device R and the cutter sliding guide rail P5 are horizontally arranged, so that the cutter driving motor P7 and the paper cutter P8 horizontally move;

electric paper cutting device P includes driving motor, the reducing gear box, bolt assembly fixed connection is used with cutter installation crossbeam device R left end to the reducing gear box, driving motor passes through screw assembly and is connected fixedly with the reducing gear box, driving motor's motor output shaft and the power input shaft of reducing gear box are connected, the power output shaft end joint of reducing gear box is fixed with cutter slip motor drive gear P2, can conveniently control output speed like this, thereby the cutter has been controlled and has been dragged area P3 rotation rate, paper cutter P8 horizontal motion speed has been controlled, a little slowly, it is more stable to cut, prevent to tear the paper.

Preferably: and one half of the cutter sliding guide rail P5 is horizontally and fixedly connected to the cutter mounting beam rod R1, and the other half of the cutter sliding guide rail P5 is fixedly connected to the paper cutting motor mounting seat P6.

The unreeling paper rack F comprises a left vertical rod F1, a right vertical rod F2 and a top cross rod F3, wherein the left vertical rod F1 and the right vertical rod F2 are jacked with a corresponding left rod placing fork F11 and a corresponding right rod placing fork F21, and the left end and the right end of the top cross rod F3 are hung at the left rod placing fork F11 and the right rod placing fork F21 and fixed; the two end sections of the top cross rod F3 are fixedly connected with a left limiting anti-falling part F31 and a right limiting anti-falling part F32 which correspond to each other; the middle section of the top cross rod F3 is movably connected with a left paper roll fixing ring F33 and a right paper roll fixing ring F34 in a penetrating mode, and the left paper roll fixing ring F33 and the right paper roll fixing ring F34 are fixed through a left limiting anti-falling part F31 and a right limiting anti-falling part F32 to prevent falling.

During assembly, the top cross rod F3 is taken down firstly, at least the limiting anti-falling part at one end is taken down, the paper roll fixing ring is taken down firstly, then the top cross rod F3 penetrates through the central hole of the whole roll of paper, then the taken down limiting anti-falling part and the paper roll fixing ring penetrate into the top cross rod F3, then the left paper roll fixing ring F33 and the right paper roll fixing ring F34 are inserted into two ends of the central hole of the whole roll of paper to fix the whole roll of paper, then the left rod of the whole roll of paper lifted on the paper unwinding frame F is placed on a fork F11, the right rod is placed on a fork F21 for fixation, the left end and the right end of the top cross rod F3 are hung on the left rod to place the fork F11, the right rod is placed on the fork F21 and can be unwound through the left limiting anti-falling part F31 and the right limiting anti-falling part F32 for use.

Left montant F1, right montant F2's pole top fixedly connected with corresponding left clamping cylinder F4, right clamping cylinder F5, left clamping cylinder F4, right clamping cylinder F5 are used for both sides clamping to push up horizontal pole F3 fixed, prevent to push up horizontal pole F3 follow-up rotation and deviate from.

It is above only that the utility model discloses a preferred embodiment, the utility model discloses a scope of protection is not limited to above-mentioned embodiment only, everywhere belongs to the utility model discloses a technical scheme of principle all belongs to the utility model discloses a scope of protection. It will be apparent to those skilled in the art that various modifications and enhancements can be made without departing from the principles of the invention, and such modifications and enhancements are intended to be within the scope of the invention.

Claims (11)

1. A vertical glass plate paper padding machine comprises a left floor guide rail and a right floor guide rail, wherein the left floor guide rail and the right floor guide rail are connected with a left rack and a right rack which correspond to each other in a sliding manner, the tops of the left rack and the right rack are fixedly connected with an unreeling paper rack upwards, and an upper cross beam is fixedly connected between the left rack and the right rack; the method is characterized in that:

a left motor frame driving device is arranged between the left floor guide rail and the left frame and is used for driving the left frame and the right frame to slide back and forth on the left floor guide rail and the right floor guide rail to change positions;

the left side and the right side of the top of the left rack and the right rack are upwards connected with a left side plate frame and a right side plate frame;

an electric unreeling and paper pulling device is connected between the left side plate frame and the right side plate frame and used for unreeling the roll paper on the unreeling paper frame;

the left side and the right side of the top of the upper cross beam are downwards connected with a left electric vertical guide rail device and a right electric vertical guide rail device which correspond to each other, a cutter mounting cross beam device is transversely connected between the left electric vertical guide rail device and the right electric vertical guide rail device, an electric paper cutting device is transversely and slidably mounted on the cutter mounting cross beam device, and paper can be cut off by the electric paper cutting device in a transverse left-right sliding mode on the cutter mounting cross beam device;

the electric paper cutting device is positioned below the electric unreeling and paper pulling device;

the left electric vertical guide rail device and the right electric vertical guide rail device are used for driving the cutter mounting cross beam device to adjust the height of the cutter mounting cross beam device up and down, so that the height of the electric paper cutting device is adjusted;

a paper guide plate is fixedly installed between the left electric vertical guide rail device and the right electric vertical guide rail device, and a paper passing gap is formed between the paper guide plate and the cutter installation cross beam device.

2. The vertical glass sheet bedding machine of claim 1, characterized in that: the left motor rack driving device comprises a left motor driving device, a left rack driving gear, a left rack mounting frame, a left rack, a left front sliding wheel and a left rear sliding wheel, the left motor driving device is fixedly mounted on the outer side of the bottom of the left rack, a power output shaft of the left motor driving device is fixedly connected with the left rack driving gear, and the left rack driving gear is meshed with the left rack; one side of the left floor rail is fixedly connected with a left rack mounting rack, a left rack is fixedly connected to the left rack mounting rack, and the left rack mounting rack and the left floor rail correspond to each other in the same axial direction; the front end and the rear end of the bottom of the left rack are movably connected with a left front sliding wheel and a left rear sliding wheel, and the left front sliding wheel and the left rear sliding wheel are pressed on the top of the left floor guide rail; the two ends of the left floor-falling guide rail are fixedly connected with a left front frame anti-falling limiting convex part and a left rear frame anti-falling limiting convex part.

3. The vertical glass sheet bedding machine of claim 1, characterized in that: a right motor rack driving device is arranged between the right floor guide rail and the right rack, and the right motor rack driving device is used for driving the left rack and the right rack to slide back and forth on the left floor guide rail and the right floor guide rail to change positions;

the right motor rack driving device comprises a right motor driving device, a right rack driving gear, a right rack mounting frame, a right rack, a right front sliding wheel and a right rear sliding wheel, the right motor driving device is fixedly mounted on the outer side of the bottom of the right rack, a power output shaft of the right motor driving device is fixedly connected with the right rack driving gear, and the right rack driving gear is in meshed connection with the right rack; one side of the right landing guide rail is fixedly connected with a right rack mounting rack, a right rack is fixedly connected onto the right rack mounting rack, and the right rack mounting rack and the right landing guide rail correspond to each other in the same axial direction; the front end and the rear end of the bottom of the right rack are movably connected with a right front sliding wheel and a right rear sliding wheel, and the right front sliding wheel and the right rear sliding wheel are pressed on the top of the right floor guide rail; and two ends of the right floor guide rail are fixedly connected with a right frame anti-drop limiting convex part.

4. The vertical glass sheet bedding machine of claim 1, characterized in that: the electric unreeling and paper pulling device comprises a left rolling rod mounting seat I, a right rolling rod mounting seat I, an upper unreeling paper suction friction rod and a lower unreeling paper suction friction rod, wherein the upper unreeling paper suction friction rod and the lower unreeling paper suction friction rod are extruded mutually, a paper passing gap is formed between the upper unreeling paper suction friction rod and the lower unreeling paper suction friction rod, a wall body of the left rolling rod mounting seat I is provided with a left rod head mounting hole I and a left rod head mounting hole II which are arranged up and down, a wall body of the right rolling rod mounting seat I is provided with a right rod head mounting hole I and a right rod head mounting hole II which are arranged up and down, and a left rod head mounting hole III is formed in a left side plate frame;

the inner front walls of the left side plate frame and the right side plate frame are fixedly connected with a first left roller mounting seat and a first right roller mounting seat which correspond to each other, and the first left roller mounting seat and the first right roller mounting seat are oppositely and symmetrically arranged;

the upper unreeling paper absorbing friction rod is arranged between the left rod head mounting hole I and the right rod head mounting hole I, and the rod heads at the two ends of the upper unreeling paper absorbing friction rod are inserted into the corresponding left rod head mounting hole I and the right rod head mounting hole I and are movably connected;

the left end rod head of the downward rolling and absorbing paper friction rod is inserted into the left rod head mounting hole II and is movably connected with the left end rod head mounting hole II;

the right end rod head of the downward-releasing roll-up paper friction rod penetrates through the right rod head mounting hole II and the left rod head mounting hole III to extend out and is fixedly connected with a transmission gear I, the transmission gear I is arranged on the outer wall of the left side plate frame, and the right rod head mounting hole II is movably connected with the right end rod head of the downward-releasing roll-up paper friction rod;

the inner wall fixedly connected with of left side grillage is electronic puts scroll drive arrangement, and electronic transmission shaft of putting scroll drive arrangement wears out the outer wall of left side grillage and fixedly connected with drive gear two, and the cover is tightly connected with drive belt one between drive gear two, the drive gear one.

5. The vertical glass sheet bedding machine as claimed in claim 4, wherein: the left roller mounting seat I comprises a left main roller mounting seat and a left auxiliary roller mounting seat, the left main roller mounting seat and the left auxiliary roller mounting seat are connected in a sliding mode through a dovetail groove sliding rail structure, a left roller head mounting hole I is formed in the left auxiliary roller mounting seat, and a left roller head mounting hole II is formed in the left main roller mounting seat;

the left main roller mounting seat is fixedly connected with a left air cylinder, and a telescopic rod of the left air cylinder is fixedly connected with the left auxiliary roller mounting seat;

the first right rolling rod mounting seat comprises a right main rolling rod mounting seat and a right auxiliary rolling rod mounting seat, the right main rolling rod mounting seat and the right auxiliary rolling rod mounting seat are connected in a sliding mode through a dovetail groove sliding rail structure, a first right rod head mounting hole is formed in the right auxiliary rolling rod mounting seat, and a second right rod head mounting hole is formed in the right main rolling rod mounting seat;

the fixed connection of right main roller mount pad has right cylinder, and the telescopic link and the right vice roller mount pad fixed connection of right cylinder.

6. The vertical glass sheet bedding machine of claim 1, characterized in that: paper unwinding guide rods are transversely connected between the rear sides of the left side plate frame and the right side plate frame.

7. The vertical glass sheet bedding machine of claim 1, characterized in that: the left electric vertical guide rail device comprises a left vertical arm, a lifting adjusting electric device, an electric rotating gear, a left rotating shaft seat, a rotating shaft gear, a common rotating shaft rod, a common rotating shaft gear belt, a left rotating shaft end gear, a left guide gear I, a left guide gear II, a left guide gear III, a left lifting driving gear belt and a left lifting guide rail,

the upper cross beam is fixedly connected with a rotating shaft seat supporting frame through a bolt assembly;

the top of the left vertical arm is fixedly connected with the upper cross beam; the rear wall of the upper section of the left vertical arm is fixedly connected with a lifting adjusting electric device, and a power output shaft end of the lifting adjusting electric device is fixedly connected with an electric rotating gear; the left rotating shaft seat is fixedly connected to the left side of the rotating shaft seat supporting frame, a left Duan Hengchuan of the common rotating shaft rod is connected to the left rotating shaft seat, the rotating shaft gear is fixedly connected to the left section of the common rotating shaft rod in a penetrating mode, and the common rotating shaft gear is sleeved with the electric rotating gear and the rotating shaft gear; the left end of the common rotating shaft rod is fixedly connected with a left rotating shaft end gear;

the outer side wall of the upper section of the left vertical arm is movably connected with a left guide gear I and a left guide gear II, the outer side wall of the lower section of the left vertical arm is movably connected with a left guide gear III, and a left lifting driving gear belt is sleeved on a left rotating shaft end gear, the left guide gear I, the left guide gear II and the left guide gear III together;

the left lifting guide rail is fixedly connected with the front wall of the left vertical arm;

the right electric vertical guide rail device comprises a right vertical arm, a right rotary shaft seat, a right rotary shaft end gear, a right guide gear I, a right guide gear II, a right guide gear III, a right lifting driving gear belt and a right lifting guide rail;

the top of the right vertical arm is fixedly connected with the upper cross beam; the right rotating shaft seat is fixedly connected to the right side of the rotating shaft seat supporting frame, the right section of the common rotating shaft rod is transversely connected to the right rotating shaft seat, and the right end of the common rotating shaft rod is fixedly connected with a right rotating shaft end gear;

the outer side wall of the upper section of the right vertical arm is movably connected with a right guide gear I and a right guide gear II, the outer side wall of the lower section of the right vertical arm is movably connected with a right guide gear III, and a right lifting driving gear belt is sleeved on a right rotary shaft end gear, the right guide gear I, the right guide gear II and the right guide gear III together;

the right lifting guide rail is fixedly connected with the front wall of the right vertical arm;

the cutter mounting cross beam device is connected between the left lifting guide rail and the right lifting guide rail in a sliding manner, and the left end and the right end of the cutter mounting cross beam device are fixedly connected with the corresponding left lifting driving gear belt and the right lifting driving gear belt.

8. The vertical glass sheet bedding machine of claim 7, wherein: cutter installation crossbeam device includes cutter installation crossbeam pole, crossbeam left end connector, crossbeam right-hand member connects, left locating part, right locating part, left side lifting sliding piece, right side lifting sliding piece, crossbeam left end connector that both ends fixed connection corresponds about cutter installation crossbeam pole, crossbeam right-hand member connects, crossbeam left end connector, crossbeam right-hand member connect with the left lifting drive gear area that corresponds, right side lifting drive gear area fixed connection, left side locating part, right locating part fixed connection is at the left vertical arm that corresponds, the top antetheca of right vertical arm, left lifting sliding piece that both ends inner wall fixed connection corresponds about cutter installation crossbeam pole, right side lifting sliding piece, left side lifting sliding piece and left lifting guide are with dovetail structure block sliding connection, right side lifting sliding piece and right lifting guide are with dovetail structure block sliding connection.

9. The vertical glass sheet bedding machine of claim 1, characterized in that: the electric paper cutting device comprises a cutter sliding motor driving device, a cutter sliding motor driving gear, a cutter dragging belt, a dragging belt follower wheel, a cutter sliding guide rail, a paper cutting motor mounting seat, a cutter driving motor and a paper cutter, wherein the cutter driving motor is fixedly mounted on the paper cutting motor mounting seat;

the cutter sliding motor driving device is fixed at the left end of the cutter mounting cross beam device, and a cutter sliding motor driving gear is fixedly connected with a motor shaft end of the cutter sliding motor driving device;

the cutter dragging belt is sleeved between the driving gear of the cutter sliding motor and the dragging belt follower wheel;

half horizontal fixed connection of cutter sliding guide is on cutter installation crossbeam device, half fixed connection on cut paper motor mount pad, and horizontal slip about the cut paper motor mount pad passes through cutter sliding guide can.

10. The vertical glass sheet bedding machine of claim 1, characterized in that: the unreeling paper frame comprises a left vertical rod, a right vertical rod and a top transverse rod, wherein corresponding left rod placing fork openings and right rod placing fork openings are formed in the top of the left vertical rod and the top of the right vertical rod, and the left end and the right end of the top transverse rod are hung at the left rod placing fork openings and the right rod placing fork openings and fixed; the two end sections of the top cross rod are fixedly connected with a left limiting anti-falling part and a right limiting anti-falling part which correspond to each other; the middle section of the top cross rod is movably connected with a left paper roll fixing ring and a right paper roll fixing ring in a penetrating mode, and the left paper roll fixing ring and the right paper roll fixing ring are fixed through a left limiting anti-falling part and a right limiting anti-falling part to prevent falling.

11. The vertical sheet glass mat machine according to claim 10, characterized in that: the pole top fixedly connected with of left montant, right montant is corresponding left clamping cylinder, right clamping cylinder, and left clamping cylinder, right clamping cylinder are used for both sides to press a horizontal pole fixed.

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