CN211545332U - Double-station full-automatic winding machine - Google Patents

Abstract

The utility model discloses a full-automatic rolling machine in duplex position, include: the automatic material breaking and flattening device comprises a base support, a turbine worm speed reducing motor, a rotating shaft chain wheel set, a rotating central shaft, a transition chain wheel set, a first winding air expansion shaft, a gear turntable, a second winding air expansion shaft, a turntable central shaft, a motor synchronous belt wheel set, a winding servo motor and an automatic material breaking and flattening mechanism, wherein the turbine worm speed reducing motor is connected with the rotating central shaft through the rotating shaft chain wheel set, and the rotating central shaft is connected with the first winding air expansion shaft and the second winding air expansion shaft through the rotating shaft chain wheel set and the gear turntable; the automatic material breaking and smoothing device also comprises an automatic material breaking and smoothing mechanism and a material storing and buffering mechanism; two winding shafts are fixed on a gear disc in a borrow hidden structural mode, so that the two winding shafts rotate synchronously and are positioned accurately; the distance between the winding shafts is shortened, and material waste is avoided; the coil changing and discharging without stopping and the automatic material breaking smoothing are realized, and the production efficiency and the production line safety of the equipment are improved.

Description

Double-station full-automatic winding machine

Technical Field

The utility model belongs to material package storage equipment field, in particular to full-automatic rolling machine in duplex position.

Background

The winding machine is a material receiving part of a coil material processing production line, raw materials are wound into coil materials in a mechanical mode, the winding machine is widely applied to paper rolls, cloth rolls, plastic rolls and metal coil material processing production lines, the design is diversified according to actual technological requirements, and the winding machine generally has strict requirements on the inner diameter of a coil, the outer diameter of the coil, the thickness of the coil materials and the width of the coil materials.

The development of the winding machine is a rapid development, and since the automatic winding machine occupies all the fields of the whole forming equipment when being first brought out, the automatic winding machine is also an important industry in China relatively, plays an important role in both strategic and fundamental aspects, and the production capacity of the automatic winding machine directly influences the horizontal development of China in the manufacturing industry.

However, with the continuous progress of the industrial technology, the requirements for the winding machine are continuously improved, and the existing winding machine technology still has many defects, for example, the existing winding machine is easy to have inaccurate positioning due to the overweight raw materials during turning; the existing winding machine adopts a central shaft to turn over winding shafts on two sides, so that the shaft distance is large and materials are wasted; the equipment has large volume and occupies space; the degree of automation is not high. Therefore, the winding machine is innovated and improved in terms of the problems.

The existing winding machine mainly has the following problems:

1. most of the existing winding machines are prone to inaccurate positioning due to overweight of raw materials during overturning, so that the product quality is influenced, and the enterprise cost is increased.

2. Most of the existing winding machines adopt a winding shaft which overturns two sides through a central shaft, the shaft distance is large, and materials are wasted

3. Most of the existing winding machines have the problem of low automation degree, a large amount of manual operation is adopted, the production progress is influenced, meanwhile, the raw materials are heavy, workers are easy to be injured during operation, and the safety is low.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the utility model aims to provide a double-station full-automatic winding machine, which fixes two winding shafts on a gear disc through a borrow hidden structural mode, has synchronous rotation and accurate positioning; meanwhile, the distance between the winding shafts is shortened, and material waste is avoided; the automation degree of the equipment is improved, coil changing and discharging without shutdown and automatic material breaking smoothing are realized, and the production efficiency and the production line safety of the equipment are improved.

The technical scheme is as follows: in order to realize the above-mentioned purpose, the utility model provides a full-automatic rolling machine in duplex position, include: the automatic material breaking and flattening device comprises a base support, a worm gear reduction motor, a rotating shaft chain wheel set, a rotating central shaft, a transition chain wheel set, a first winding air expansion shaft, a gear turntable, a second winding air expansion shaft, a turntable central shaft, a motor synchronous belt wheel set, a winding servo motor and an automatic material breaking and flattening mechanism, wherein the base support is in a shape like the Chinese character 'ji', the worm gear reduction motor is fixedly arranged on the base support, one side of the worm gear reduction motor is connected with the rotating shaft chain wheel set, the rotating central shaft is arranged on the rotating shaft chain wheel set, the rotating shaft chain wheel set is arranged at one end of the rotating central shaft, the rotating central shaft is fixed on the base support through a bearing seat, the transition chain wheel set is arranged at one side of the rotating shaft chain wheel set, the transition chain wheel set is arranged at two ends of the rotating central shaft, the transition chain wheel, one end of the first winding air expansion shaft is connected with a motor synchronous belt wheel set, the motor synchronous belt wheel set is connected with a winding servo motor, the winding servo motor is fixed at one end of the base support, one end of the second winding air expansion shaft is also connected with a motor synchronous belt wheel set, the motor synchronous belt wheel set is connected with a winding servo motor, and the winding servo motor is fixed at the other end of the base support; and an automatic material breaking and flattening mechanism is arranged on one side of the first rolling air expansion shaft and is fixed on the base support.

In the utility model, the two winding shafts are fixed on the gear plate by the aid of the hidden structural mode, so that the rotation is synchronous and the positioning is accurate; meanwhile, the distance between the winding shafts is shortened, and material waste is avoided.

The utility model discloses in a full-automatic rolling machine in duplex position, still include the storage and slowly hold the mechanism, the storage slowly holds the mechanism and includes the bearing guide arm, unsteady guide wheel arm and guide pulley, the bearing guide arm is fixed to be set up on the base support, the one end that the bearing guide arm is close to the base support is provided with unsteady guide wheel arm, be provided with the guide pulley on the unsteady guide wheel arm.

The utility model discloses in the setting of storage slow-bearing mechanism, it has realized leading pay-off and the butt joint of equipment coil stock both speeds through mobilizable guide pulley, even both speeds are different, still can guarantee the stationarity of equipment rolling speed, has realized not shutting down the change of lap and has unloaded, has improved the degree of automation of equipment, has replaced artifical material loading simultaneously, has improved equipment production efficiency and has produced the line security.

The automatic material breaking and flattening mechanism comprises a guide rod, a sliding bottom plate, a first air cylinder, a pinch roller supporting arm, a linear guide rail, a second air cylinder, a sliding supporting part, a cutter swing arm, a third air cylinder, a cutter servo driving motor, a guide rail fixing seat, a synchronous belt, a blade fixing seat and an industrial blade, wherein the guide rod is fixedly arranged on a base support, the sliding bottom plate is arranged on the guide rod in a sliding way, the pinch roller supporting arm is fixedly arranged on the sliding bottom plate, the bottom of the pinch roller supporting arm is connected with the first air cylinder, the first air cylinder is fixedly arranged on the guide rod, the linear guide rail is fixedly arranged in the middle section of the pinch roller supporting arm, the sliding supporting part is arranged on the linear guide rail, the bottom of the sliding supporting part is connected with the second air cylinder, the second air cylinder is, the utility model discloses a cutter servo drive mechanism, including sliding support portion, cutter swing arm, hold-in range, cutter servo drive motor, cutter swing arm, guide rail fixing base, synchronous belt, cutter swing arm, guide rail fixing base, cutter swing arm, guide rail fixing base, synchronous belt one end is connected with cutter servo drive motor, cutter servo drive motor is fixed to be set up on the cutter swing arm, be provided with the blade fixing.

The utility model discloses in automatic disconnected material smooths the setting of mechanism, its free activity that has realized the cutter through the multiaxis drive to realized the automatic disconnected material of equipment, degree of automation is high, has reduced the cost of labor.

The utility model discloses in the base support on the fixed cutter pinch roller base that is provided with, cutter pinch roller base sets up on industry blade movement route.

The utility model discloses in the setting of cutter pinch roller base, it cushions and the locking to the industry blade, has reduced the wearing and tearing of cutter, has improved the life of equipment.

The utility model discloses in smooth mechanism still including smooth rubber pinch roller, smooth rubber pinch roller and set up in the cutter swing arm, smooth rubber pinch roller and set up in the one end of keeping away from the third cylinder.

The utility model discloses in smooth the setting of rubber pinch roller, its motion of borrowing the cutter has realized that the automation of material book is smoothed, has improved the degree of automation of equipment.

The utility model discloses in the pinch roller support arm on be provided with and pull the rubber pinch roller, it passes through the bearing and sets up in pinch roller support arm top to pull the rubber pinch roller.

The utility model discloses in the setting of drawing the rubber pinch roller can be expected the material after disconnected material and roll up the material and impress on the rolling axle again, has improved the automation of equipment.

The utility model discloses in first rolling inflatable shaft both ends fixed be provided with safe chuck, second rolling inflatable shaft both ends are provided with safe chuck equally.

The utility model discloses in safety chuck's setting can fasten the material and roll up, has improved the security of equipment.

The utility model discloses in base support bottom be provided with the adjustment footing.

The utility model discloses in the setting of adjustment footing can the horizontal inclination angle of adjusting equipment, makes its bottom surface that adapts to difference, has improved the stability and the adaptability of equipment.

The utility model discloses in a working method of full-automatic rolling machine in duplex position, including pay-off, coil stock, roll change and cut off, specifically include following step:

the method comprises the following steps: feeding, namely winding the material on a storage slow-bearing mechanism through a guide wheel, feeding the material into a first winding air expansion shaft for winding, and moving a floating guide wheel arm downwards under the action of self gravity when the material winding speed is higher than the material winding speed, so that the length of the material in the storage slow-bearing mechanism is increased, and the tension of the material is kept; when the material rolling speed is lower than the material rolling speed, the floating guide wheel arm moves upwards under the tension of the air expansion shaft, the length of the material in the material storage and slow bearing mechanism is reduced, and the material tension is still kept;

step two: the winding servo motor works and drives the first winding air expansion shaft to rotate for winding through the motor synchronous belt wheel set;

step three: the winding servo motor stops when the first winding air expansion shaft is wound to a proper length, the floating guide wheel arm moves downwards to store materials, the worm gear speed reducing motor works, and the gear turntable is driven to rotate through the rotating central shaft to drive the first winding air expansion shaft and the second winding air expansion shaft to exchange positions;

step four: cutting off, wherein the automatic material breaking smoothing mechanism extrudes and smoothes the second winding air expansion shaft and cuts off the material;

step five: and exchanging the names of the first winding air expansion shaft and the second winding air expansion shaft, and circularly repeating the steps from one step to four.

The utility model discloses in a working method of full-automatic rolling machine in duplex position, including cutting off and pacifying, specifically include following step:

the method comprises the following steps: preparing, wherein the first air cylinder works, the traction rubber pressing wheel is in contact with the air expansion shaft, the third air cylinder works, and the flattening rubber pressing wheel presses the air expansion shaft;

step two: cutting off the servo drive motor of the cutter to guide the industrial blade to cut off the material;

step three: the flattening rubber pressing wheel rolls on the air expansion shaft to flatten the material;

step four: and returning to the original position, wherein the first cylinder, the second cylinder, the third cylinder and the cutter servo drive motor work reversely, and the automatic material breaking and smoothing mechanism returns to the initial state.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has:

1. the double-station full-automatic winding machine in the utility model has the advantages that two winding shafts are fixed on the gear disc through a borrow hidden structure mode, the rotation is synchronous, and the positioning is accurate; meanwhile, the distance between the winding shafts is shortened, and material waste is avoided.

2. The utility model discloses in a full-automatic rolling machine in duplex position, it has realized leading pay-off and equipment coil stock both speed's butt joint through mobilizable guide pulley, even both speed are different, still can guarantee the stationarity of equipment rolling speed, has realized not shutting down the change of lap and has unloaded, has improved the degree of automation of equipment, has replaced artifical material loading simultaneously, has improved equipment production efficiency and has produced the line security.

3. The utility model discloses in a full-automatic rolling machine in duplex position, it has realized the free activity of cutter through the multiaxis drive to realized the automatic disconnected material of equipment, degree of automation is high, has reduced the cost of labor.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the material storing and slowly supporting mechanism of the present invention;

FIG. 3 is a schematic structural view of the automatic material-breaking smoothing mechanism of the present invention;

FIG. 4 is a schematic side view of the automatic material-breaking smoothing mechanism of the present invention;

in the figure: a base bracket-1, a worm gear speed reducing motor-2, a rotating shaft chain wheel group-3, a rotating central shaft-4, a transition chain wheel group-5, a first winding air expansion shaft-6, a gear turntable-7, a second winding air expansion shaft-8, a turntable central shaft-9, a motor synchronous belt wheel group-10, a winding servo motor-11, an automatic broken material smoothing mechanism-12, a guide rod-1201, a sliding bottom plate-1202, a first cylinder-1203, a pinch roller support arm-1204, a linear guide rail-1205, a second cylinder-1206, a sliding support part-1207, a cutter swing arm-1208, a third cylinder-1209, a cutter servo drive motor-1210, a guide rail fixing seat-1211, a synchronous belt-1212, a cutter fixing seat-1213, an industrial cutter-1214, a, A cutting knife pinch roller base-1215, a smoothing rubber pinch roller-1216, a traction rubber pinch roller-1217, a storage slow-bearing mechanism-13, a bearing guide rod-131, a floating guide wheel arm-132 and a guide wheel-133.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example 1

A double station full automatic winder as shown in fig. 1-4, comprising: the automatic material breaking and flattening device comprises a base support 1, a worm gear speed reducing motor 2, a rotating shaft chain wheel set 3, a rotating central shaft 4, a transition chain wheel set 5, a first winding air expanding shaft 6, a gear turntable 7, a second winding air expanding shaft 8, a turntable central shaft 9, a motor synchronous belt wheel set 10, a winding servo motor 11 and an automatic material breaking and flattening mechanism 12, wherein the base support 1 is in a shape like the Chinese character 'ji', the worm gear speed reducing motor 2 is fixedly arranged on the base support 1, the rotating shaft chain wheel set 3 is connected to one side of the worm gear speed reducing motor 2, the rotating central shaft 4 is arranged on the rotating shaft chain wheel set 3, the rotating shaft chain wheel set 3 is arranged at one end of the rotating central shaft 4, the rotating central shaft 4 is fixed on the base support 1 through a bearing seat, the transition chain wheel set 5 is arranged at one side of the, the transition chain wheel set 5 is connected with a gear turntable 7, a first winding air expansion shaft 6 and a second winding air expansion shaft 8 are arranged on the gear turntable 7, one end of the first winding air expansion shaft 6 is connected with a motor synchronous belt pulley set 10, the motor synchronous belt pulley set 10 is connected with a winding servo motor 11, the winding servo motor 11 is fixed at one end of the base support 1, one end of the second winding air expansion shaft 8 is also connected with a motor synchronous belt pulley set 10, the motor synchronous belt pulley set 10 is connected with the winding servo motor 11, and the winding servo motor 11 is fixed at the other end of the base support 1; an automatic material breaking and flattening mechanism 12 is arranged on one side of the first rolling air expansion shaft 6, and the automatic material breaking and flattening mechanism 12 is fixed on the base support 1.

The full-automatic rolling machine in duplex position in this embodiment still includes storage mechanism 13 that slowly holds, storage mechanism 13 that slowly holds includes bearing guide 131, unsteady leading wheel arm 132 and guide pulley 133, bearing guide 131 is fixed to be set up on base support 1, the one end that bearing guide 131 is close to base support 1 is provided with unsteady leading wheel arm 132, be provided with guide pulley 133 on the unsteady leading wheel arm 132.

The automatic material breaking and flattening mechanism 12 in this embodiment includes a guide rod 1201, a sliding bottom plate 1202, a first cylinder 1203, a pinch roller support arm 1204, a linear guide rail 1205, a second cylinder 1206, a sliding support 1207, a cutter swing arm 1208, a third cylinder 1209, a cutter servo drive motor 1210, a guide rail holder 1211, a synchronous belt 1212, a blade holder 1213, and an industrial blade 1214, wherein the guide rod 1201 is fixedly disposed on the base bracket 1, the sliding bottom plate 1202 is slidably disposed on the guide rod 1201, the pinch roller support arm 1204 is fixedly disposed on the sliding bottom plate 1202, the bottom of the pinch roller support arm 1204 is connected with the first cylinder 1203, the first cylinder 1203 is fixedly disposed on the guide rod 1201, the middle section of the pinch roller support arm 1204 is fixedly disposed with the linear guide rail 1205, the sliding support 1207 is disposed on the linear guide rail 1205, the second cylinder 1206 is connected to the bottom of the sliding support 1207, the second cylinder 1206 is, the second cylinder 1206 is fixed on the pinch roller support arm 1204, the top of the sliding support portion 1207 is hinged with a cutter swing arm 1208, the middle section of the cutter swing arm 1208 is connected with the top of the sliding support portion 1207, one end of the cutter swing arm 1208 is hinged with the top of a third cylinder 1209, the bottom of the third cylinder 1209 is hinged on the sliding support portion 1207, the other end of the cutter swing arm 1208 is provided with a guide rail fixing seat 1211, a synchronous belt 1212 is arranged on the guide rail fixing seat 1211, one end of the synchronous belt 1212 is connected with a cutter servo driving motor 1210, the cutter servo driving motor 1210 is fixedly arranged on the cutter swing arm 1208, a blade fixing seat 1213 is arranged on the synchronous belt 1212, and an industrial blade 1214 is fixedly arranged on.

In this embodiment, a cutter pinch roller base 1215 is fixedly disposed on the base bracket 1, and the cutter pinch roller base 1215 is disposed on the moving path of the industrial blade 1214.

The smoothing mechanism 12 in this embodiment further includes a smoothing rubber pinch roller 1216, the smoothing rubber pinch roller 1216 is disposed on the cutter swing arm 1208, and the smoothing rubber pinch roller 1216 is disposed at an end far away from the third cylinder 1209.

The pinch roller support arm 1204 described in this embodiment is provided with a traction rubber pinch roller 1217, and the traction rubber pinch roller 1217 is arranged on the top of the pinch roller support arm 1204 through a bearing.

In this embodiment, safety chucks are fixedly arranged at two ends of the first winding air expansion shaft 6, and safety chucks are also arranged at two ends of the second winding air expansion shaft 8.

In this embodiment, the bottom of the base bracket 1 is provided with an adjusting footing.

Example 2

As shown in fig. 1, the double-station full-automatic winding machine comprises: the automatic material breaking and flattening device comprises a base support 1, a worm gear speed reducing motor 2, a rotating shaft chain wheel set 3, a rotating central shaft 4, a transition chain wheel set 5, a first winding air expanding shaft 6, a gear turntable 7, a second winding air expanding shaft 8, a turntable central shaft 9, a motor synchronous belt wheel set 10, a winding servo motor 11 and an automatic material breaking and flattening mechanism 12, wherein the base support 1 is in a shape like the Chinese character 'ji', the worm gear speed reducing motor 2 is fixedly arranged on the base support 1, the rotating shaft chain wheel set 3 is connected to one side of the worm gear speed reducing motor 2, the rotating central shaft 4 is arranged on the rotating shaft chain wheel set 3, the rotating shaft chain wheel set 3 is arranged at one end of the rotating central shaft 4, the rotating central shaft 4 is fixed on the base support 1 through a bearing seat, the transition chain wheel set 5 is arranged at one side of the, the transition chain wheel set 5 is connected with a gear turntable 7, a first winding air expansion shaft 6 and a second winding air expansion shaft 8 are arranged on the gear turntable 7, one end of the first winding air expansion shaft 6 is connected with a motor synchronous belt pulley set 10, the motor synchronous belt pulley set 10 is connected with a winding servo motor 11, the winding servo motor 11 is fixed at one end of the base support 1, one end of the second winding air expansion shaft 8 is also connected with a motor synchronous belt pulley set 10, the motor synchronous belt pulley set 10 is connected with the winding servo motor 11, and the winding servo motor 11 is fixed at the other end of the base support 1; an automatic material breaking and flattening mechanism 12 is arranged on one side of the first rolling air expansion shaft 6, and the automatic material breaking and flattening mechanism 12 is fixed on the base support 1.

Example 3

A double-station full-automatic winder as shown in fig. 1 and 2, comprising: the automatic material breaking and flattening device comprises a base support 1, a worm gear speed reducing motor 2, a rotating shaft chain wheel set 3, a rotating central shaft 4, a transition chain wheel set 5, a first winding air expanding shaft 6, a gear turntable 7, a second winding air expanding shaft 8, a turntable central shaft 9, a motor synchronous belt wheel set 10, a winding servo motor 11 and an automatic material breaking and flattening mechanism 12, wherein the base support 1 is in a shape like the Chinese character 'ji', the worm gear speed reducing motor 2 is fixedly arranged on the base support 1, the rotating shaft chain wheel set 3 is connected to one side of the worm gear speed reducing motor 2, the rotating central shaft 4 is arranged on the rotating shaft chain wheel set 3, the rotating shaft chain wheel set 3 is arranged at one end of the rotating central shaft 4, the rotating central shaft 4 is fixed on the base support 1 through a bearing seat, the transition chain wheel set 5 is arranged at one side of the, the transition chain wheel set 5 is connected with a gear turntable 7, a first winding air expansion shaft 6 and a second winding air expansion shaft 8 are arranged on the gear turntable 7, one end of the first winding air expansion shaft 6 is connected with a motor synchronous belt pulley set 10, the motor synchronous belt pulley set 10 is connected with a winding servo motor 11, the winding servo motor 11 is fixed at one end of the base support 1, one end of the second winding air expansion shaft 8 is also connected with a motor synchronous belt pulley set 10, the motor synchronous belt pulley set 10 is connected with the winding servo motor 11, and the winding servo motor 11 is fixed at the other end of the base support 1; an automatic material breaking and flattening mechanism 12 is arranged on one side of the first rolling air expansion shaft 6, and the automatic material breaking and flattening mechanism 12 is fixed on the base support 1.

The full-automatic rolling machine in duplex position in this embodiment still includes storage mechanism 13 that slowly holds, storage mechanism 13 that slowly holds includes bearing guide 131, unsteady leading wheel arm 132 and guide pulley 133, bearing guide 131 is fixed to be set up on base support 1, the one end that bearing guide 131 is close to base support 1 is provided with unsteady leading wheel arm 132, be provided with guide pulley 133 on the unsteady leading wheel arm 132.

Example 4

A double station fully automatic winder as shown in fig. 1, 3 and 4, comprising: the automatic material breaking and flattening device comprises a base support 1, a worm gear speed reducing motor 2, a rotating shaft chain wheel set 3, a rotating central shaft 4, a transition chain wheel set 5, a first winding air expanding shaft 6, a gear turntable 7, a second winding air expanding shaft 8, a turntable central shaft 9, a motor synchronous belt wheel set 10, a winding servo motor 11 and an automatic material breaking and flattening mechanism 12, wherein the base support 1 is in a shape like the Chinese character 'ji', the worm gear speed reducing motor 2 is fixedly arranged on the base support 1, the rotating shaft chain wheel set 3 is connected to one side of the worm gear speed reducing motor 2, the rotating central shaft 4 is arranged on the rotating shaft chain wheel set 3, the rotating shaft chain wheel set 3 is arranged at one end of the rotating central shaft 4, the rotating central shaft 4 is fixed on the base support 1 through a bearing seat, the transition chain wheel set 5 is arranged at one side of the, the transition chain wheel set 5 is connected with a gear turntable 7, a first winding air expansion shaft 6 and a second winding air expansion shaft 8 are arranged on the gear turntable 7, one end of the first winding air expansion shaft 6 is connected with a motor synchronous belt pulley set 10, the motor synchronous belt pulley set 10 is connected with a winding servo motor 11, the winding servo motor 11 is fixed at one end of the base support 1, one end of the second winding air expansion shaft 8 is also connected with a motor synchronous belt pulley set 10, the motor synchronous belt pulley set 10 is connected with the winding servo motor 11, and the winding servo motor 11 is fixed at the other end of the base support 1; an automatic material breaking and flattening mechanism 12 is arranged on one side of the first rolling air expansion shaft 6, and the automatic material breaking and flattening mechanism 12 is fixed on the base support 1.

The automatic material breaking and flattening mechanism 12 in this embodiment includes a guide rod 1201, a sliding bottom plate 1202, a first cylinder 1203, a pinch roller support arm 1204, a linear guide rail 1205, a second cylinder 1206, a sliding support 1207, a cutter swing arm 1208, a third cylinder 1209, a cutter servo drive motor 1210, a guide rail holder 1211, a synchronous belt 1212, a blade holder 1213, and an industrial blade 1214, wherein the guide rod 1201 is fixedly disposed on the base bracket 1, the sliding bottom plate 1202 is slidably disposed on the guide rod 1201, the pinch roller support arm 1204 is fixedly disposed on the sliding bottom plate 1202, the bottom of the pinch roller support arm 1204 is connected with the first cylinder 1203, the first cylinder 1203 is fixedly disposed on the guide rod 1201, the middle section of the pinch roller support arm 1204 is fixedly disposed with the linear guide rail 1205, the sliding support 1207 is disposed on the linear guide rail 1205, the second cylinder 1206 is connected to the bottom of the sliding support 1207, the second cylinder 1206 is, the second cylinder 1206 is fixed on the pinch roller support arm 1204, the top of the sliding support portion 1207 is hinged with a cutter swing arm 1208, the middle section of the cutter swing arm 1208 is connected with the top of the sliding support portion 1207, one end of the cutter swing arm 1208 is hinged with the top of a third cylinder 1209, the bottom of the third cylinder 1209 is hinged on the sliding support portion 1207, the other end of the cutter swing arm 1208 is provided with a guide rail fixing seat 1211, a synchronous belt 1212 is arranged on the guide rail fixing seat 1211, one end of the synchronous belt 1212 is connected with a cutter servo driving motor 1210, the cutter servo driving motor 1210 is fixedly arranged on the cutter swing arm 1208, a blade fixing seat 1213 is arranged on the synchronous belt 1212, and an industrial blade 1214 is fixedly arranged on.

In this embodiment, a cutter pinch roller base 1215 is fixedly disposed on the base bracket 1, and the cutter pinch roller base 1215 is disposed on the moving path of the industrial blade 1214.

The smoothing mechanism 12 in this embodiment further includes a smoothing rubber pinch roller 1216, the smoothing rubber pinch roller 1216 is disposed on the cutter swing arm 1208, and the smoothing rubber pinch roller 1216 is disposed at an end far away from the third cylinder 1209.

The pinch roller support arm 1204 described in this embodiment is provided with a traction rubber pinch roller 1217, and the traction rubber pinch roller 1217 is arranged on the top of the pinch roller support arm 1204 through a bearing.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a full-automatic rolling machine in duplex position which characterized in that: the method comprises the following steps: the automatic material breaking and flattening device comprises a base support (1), a worm gear speed reducing motor (2), a rotating shaft chain wheel set (3), a rotating central shaft (4), a transition chain wheel set (5), a first rolling air expansion shaft (6), a gear turntable (7), a second rolling air expansion shaft (8), a turntable central shaft (9), a motor synchronous belt wheel set (10), a rolling servo motor (11) and an automatic material breaking and flattening mechanism (12), wherein the base support (1) is in a shape like the Chinese character 'ji', the worm gear speed reducing motor (2) is fixedly arranged on the base support (1), one side of the worm gear speed reducing motor (2) is connected with the rotating shaft chain wheel set (3), the rotating central shaft chain wheel set (3) is provided with the rotating central shaft (4), the rotating shaft chain wheel set (3) is arranged at one end of the rotating central shaft (4), and the rotating central shaft (4) is fixed, one side of the rotating shaft chain wheel group (3) is provided with a transition chain wheel group (5), the transition chain wheel group (5) is arranged at two ends of the rotating central shaft (4), the transition chain wheel set (5) is connected with a gear turntable (7), a first winding air expansion shaft (6) and a second winding air expansion shaft (8) are arranged on the gear turntable (7), one end of the first winding air expansion shaft (6) is connected with a motor synchronous belt wheel set (10), the motor synchronous belt wheel set (10) is connected with a rolling servo motor (11), the winding servo motor (11) is fixed at one end of the base bracket (1), one end of the second winding air expansion shaft (8) is also connected with a motor synchronous belt wheel set (10), the motor synchronous belt wheel set (10) is connected with a rolling servo motor (11), the winding servo motor (11) is fixed at the other end of the base support (1); an automatic material breaking and flattening mechanism (12) is arranged on one side of the first winding air expansion shaft (6), and the automatic material breaking and flattening mechanism (12) is fixed on the base support (1).

2. The double-station full-automatic winding machine according to claim 1, characterized in that: still hold mechanism (13) including the storage, storage holds mechanism (13) slowly and includes bearing guide arm (131), unsteady leading wheel arm (132) and guide pulley (133), bearing guide arm (131) are fixed to be set up on base support (1), the one end that bearing guide arm (131) are close to base support (1) is provided with unsteady leading wheel arm (132), be provided with guide pulley (133) on unsteady leading wheel arm (132).

3. The double-station full-automatic winding machine according to claim 1, characterized in that: the automatic material breaking and flattening mechanism (12) comprises a guide rod (1201), a sliding bottom plate (1202), a first air cylinder (1203), a pinch roller supporting arm (1204), a linear guide rail (1205), a second air cylinder (1206), a sliding supporting part (1207), a cutter swing arm (1208), a third air cylinder (1209), a cutter servo driving motor (1210), a guide rail fixing seat (1211), a synchronous belt (1212), a blade fixing seat (1213) and an industrial blade (1214), wherein the guide rod (1201) is fixedly arranged on a base support (1), the sliding bottom plate (1202) is arranged on the guide rod (1201) in a sliding manner, the pinch roller supporting arm (1204) is fixedly arranged on the sliding bottom plate (1202), the first air cylinder (1203) is connected to the bottom of the pinch roller supporting arm (1204), the first air cylinder (1203) is fixedly arranged on the guide rod (1201), the linear guide rail (1205) is fixedly arranged at the middle section of the pinch, the cutting device is characterized in that a sliding support part (1207) is arranged on the linear guide rail (1205), the bottom of the sliding support part (1207) is connected with a second air cylinder (1206), the second air cylinder (1206) is arranged on one side of the linear guide rail (1205), the second air cylinder (1206) is fixed on the pinch roller support arm (1204), the top of the sliding support part (1207) is hinged with a cutter swing arm (1208), the middle section of the cutter swing arm (1208) is connected with the top of the sliding support part (1207), one end of the cutter swing arm (1208) is hinged with the top of a third air cylinder (1209), the bottom of the third air cylinder (1209) is hinged on the sliding support part (1207), the other end of the cutter swing arm (1208) is provided with a guide rail fixing seat (1211), a synchronous belt (1212) is arranged on the guide rail fixing seat (1211), one end of the synchronous belt (1212) is connected with a cutter servo driving motor (, the synchronous belt (1212) is provided with a blade fixing seat (1213), and the blade fixing seat (1213) is fixedly provided with an industrial blade (1214).

4. The double-station full-automatic winding machine according to claim 3, characterized in that: the cutter pressing wheel base (1215) is fixedly arranged on the base support (1), and the cutter pressing wheel base (1215) is arranged on the moving path of the industrial blade (1214).

5. The double-station full-automatic winding machine according to claim 3, characterized in that: the smoothing mechanism (12) further comprises a smoothing rubber pressing wheel (1216), the smoothing rubber pressing wheel (1216) is arranged on the cutter swing arm (1208), and the smoothing rubber pressing wheel (1216) is arranged at one end far away from the third air cylinder (1209).

6. The double-station full-automatic winding machine according to claim 3, characterized in that: the traction rubber pinch roller (1217) is arranged on the pinch roller supporting arm (1204), and the traction rubber pinch roller (1217) is arranged on the top of the pinch roller supporting arm (1204) through a bearing.

7. The double-station full-automatic winding machine according to claim 1, characterized in that: and safety chucks are fixedly arranged at two ends of the first winding air expansion shaft (6), and the safety chucks are also arranged at two ends of the second winding air expansion shaft (8).

8. The double-station full-automatic winding machine according to claim 1, characterized in that: the bottom of the base support (1) is provided with an adjusting footing.

Images