CN117682364B - Rolling equipment is used in rubber conveyer belt production - Google Patents

Abstract

The invention belongs to the technical field of rubber conveyer belts, and particularly relates to rolling equipment for producing the rubber conveyer belts, which comprises a placing frame, a rotating rod, a first servo motor, a rotating frame, rotating rings, an extrusion assembly, sliding rods and the like, wherein the left part of the placing frame is rotationally connected with two rotating rods which are vertically distributed, the front part of the placing frame is provided with the first servo motor, the middle part of the placing frame is rotationally connected with the rotating frame, an output shaft of the first servo motor is connected with the rotating frame, and three rotating rings are rotationally connected with the upper periphery Xiang Junyun of the rotating frame at intervals. According to the invention, the servo motor is controlled to drive the winding wheel to revolve, the rotating rod is extruded through the supporting rod, so that the winding wheel can automatically discharge, and the second air cylinder is controlled to enable the cutter to move downwards to cut the rubber conveyer belt, so that manual cutting and discharging are not needed, thus the manual workload is reduced, the replacement time of the winding wheel is shortened, and the winding efficiency of the rubber conveyer belt is improved.

Description

Rolling equipment is used in rubber conveyer belt production

Technical Field

The invention belongs to the technical field of rubber conveyer belts, and particularly relates to rolling equipment for producing a rubber conveyer belt.

Background

The rubber conveyor belt is a conveyor belt made of rubber, and is a conveyor machine widely used in industrial production for conveying various materials. The rubber conveyer belt has the advantages of portability, wear resistance, oil resistance, acid and alkali resistance, aging resistance, high tensile strength and the like, wherein the wear resistance and the oil resistance are the most important advantages. The rubber conveyer belt application is extensive, in order to guarantee the normal supply of rubber conveyer belt, the rubber conveyer belt need carry out the rolling after production to be convenient for store and transport the rubber conveyer belt.

The patent publication number is CN 116062527B's chinese patent, discloses a coiling mechanism is used in rubber conveyer belt production, the operation panel, the top of operation panel is provided with the tensioning roller, the tensioning roller sets up to two, the cavity has been seted up to the inside of tensioning roller, the both ends of tensioning roller all rotate and are connected with changeing the cover, changeing the cover and the inside cavity intercommunication of tensioning roller.

The above patent is through starting the second motor, and the second motor rotates and drives the pivot rotation, and the pivot rotation drives the wind-up roll and rotates, and the wind-up roll winds the rubber conveyer belt. When the rubber conveyer belt on the winding roller is fully wound, the rubber conveyer belt needs to be manually cut, and the operation is troublesome; after cutting is finished, the wind-up roll is manually taken down to be replaced, so that manual workload is increased, time consumption is long, and the winding efficiency of the rubber conveying belt is reduced.

Disclosure of Invention

In order to overcome the defects of troublesome operation and low winding efficiency caused by the fact that the rubber conveyer belt is manually cut and the winding roller is taken down in the prior art, the invention aims to: the winding equipment for producing the rubber conveyer belt is capable of automatically cutting the rubber conveyer belt and automatically taking down the winding roller.

The technical implementation scheme of the invention is as follows: the utility model provides a rolling equipment is used in rubber conveyer belt production, which comprises a placing rack, dwang and servo motor I, the dwang that is connected with two upper and lower distributions in rack left part rotation, servo motor I is installed at the rack front portion, still including the rotating turret, the swivel, servo motor II, the rolling wheel, extrusion subassembly, the slide bar, reset spring, the rotor plate, the cutter, drive assembly, work or material stirring rest and unloading subassembly, the rotating turret is connected with in the middle part of the rack, the output shaft and the rotating turret of servo motor I are connected, the rotating turret upper week Xiang Junyun interval rotation is connected with three swivel, all sliding connection has the slide bar that resets through reset spring on the swivel, be equipped with the rolling wheel on the slide bar, rack upper portion rotation is connected with the rotor plate that drives the slide bar rotation, servo motor II is installed at the rack rear portion, servo motor II's output shaft is connected with the rotor plate, be equipped with the cutter on the rack upper portion, be equipped with the extrusion subassembly of extrusion slide bar and make the cutter carry out the drive assembly of cutting to the rubber conveyer belt, work or material stirring rest middle part sliding connection has the work or material stirring rest of three extrusion wheel, the work or material stirring rest is equipped with the work or material stirring rest of automatic material stirring rest and material stirring rest that makes all sliding off the whole material stirring rest.

As a preferable technical scheme of the invention, the front side of the rotating plate is provided with a square groove matched with the sliding rod.

As a preferable technical scheme of the invention, the end face of the sliding rod, which is close to the rotating plate, is in a round corner rectangle, the sliding rod moves backwards to be clamped into the square groove, so that the sliding rod is clamped with the rotating plate, and the rotating plate rotates to drive the sliding rod to rotate together.

As a preferable technical scheme of the invention, the extrusion assembly comprises a first cylinder and an extrusion block, the first cylinder is arranged at the front part of the placement frame, the extrusion block for extruding the sliding rod is connected to a movable rod of the first cylinder, and the extrusion block is arranged in an arc shape.

As a preferred technical scheme of the invention, the driving assembly comprises a second cylinder, a moving plate, a fixed rod, a rotating block, a moving rod and a supporting rod, wherein the second cylinder is arranged on the upper part of the placing frame, the moving plate is connected to the moving rod of the second cylinder, the moving plate is connected with the cutter, the fixed rods are connected to the two sides of the placing frame, the fixed rods are connected with the moving plate in a sliding manner, the rotating block is connected to the rear part of the moving plate in a rotating manner, the moving rod is connected to the rotating block in a sliding manner, the end part of the moving rod is connected to the placing frame in a rotating manner, and the supporting rod is connected to the lower part of the moving rod.

As a preferred technical scheme of the invention, the blanking assembly comprises a rotary rod, a compression spring, a fixed plate, a rotary block and a spiral spring, wherein the fixed plate is connected to the front part of the material stirring frame, the compression spring is connected between the material stirring frame and the rotary frame, the rotary rod is connected to the rear part of the material stirring frame in a rotary mode, a groove is formed in the support rod, a long groove matched with the cutter is formed in the support rod, the rotary rod moves backwards and passes through the groove, the rotary block is connected to the upper part of the rotary rod, the rotary block is connected with the adjacent material stirring frame in a sliding mode, the spiral spring is connected between the rotary block and the adjacent material stirring frame, the adjacent fixed plate is extruded by rotation of the rotary block, and the fixed plate is positioned at the rear side of the rotary block.

As a preferred technical scheme of the invention, the novel storage rack comprises a fixing frame, a bidirectional threaded rod and a limiting plate, wherein the left part of the storage rack is connected with the fixing frame, the lower part of the fixing frame is rotatably connected with the bidirectional threaded rod, both ends of the bidirectional threaded rod are connected with the limiting plate in a threaded manner, and the limiting plate is in sliding connection with the storage rack.

As a preferable technical scheme of the invention, the invention further comprises a sliding plate, a flattening roller and an extension spring, wherein the right part of the fixing frame is connected with two sliding plates in a sliding manner, the extension spring is connected between the sliding plate and the fixing frame, and the flattening roller is connected between the two sliding plates in a rotating manner.

The beneficial effects of the invention are as follows: 1. according to the invention, the servo motor is controlled to drive the winding wheel to revolve, the rotating rod is extruded through the supporting rod, so that the winding wheel can automatically discharge, and the second air cylinder is controlled to enable the cutter to move downwards to cut the rubber conveyer belt, so that manual cutting and discharging are not needed, thus the manual workload is reduced, the replacement time of the winding wheel is shortened, and the winding efficiency of the rubber conveyer belt is improved.

2. According to the invention, the rubber conveyer belt is limited by the limiting plate, so that the rubber conveyer belt is aligned with the winding wheel; and then the rubber conveyer belt is extruded by the flattening roller, so that the winding quality of the rubber conveyer belt is ensured.

Drawings

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

Fig. 2 is a schematic structural view of the rack, the second cylinder, the servo motor and the like.

Fig. 3 is a schematic view of the structure of the pressing assembly of the present invention.

Fig. 4 is a cross-sectional view of the take-up reel of the present invention.

Fig. 5 is a schematic view of the structure of the driving assembly of the present invention.

Fig. 6 is an enlarged view of the invention at a in fig. 2.

Fig. 7 is a schematic structural view of the rotating frame, the kick-out frame, the rotating rod and the like of the present invention.

Fig. 8 is a partial cross-sectional view of a turret according to the invention.

Fig. 9 is a schematic structural view of the fixing plate, the rotating block, the coil spring and the like according to the present invention.

Fig. 10 is a schematic view of the structure of the limiting plate, the sliding plate, the leveling roller and the like according to the present invention.

In the above figures: 1: placing rack, 2: rotating rod, 3: servo motors one, 31: rotating frame, 32: swivel, 4: servo motor II, 5: winding wheel, 51: cylinder one, 52: extrusion block, 6: slide bar, 7: reset spring, 8: rotating plate, 81: square groove, 9: cutter, 91: cylinder two, 92: motion plate, 93: fixing rod, 94: rotating block, 95: motion bar, 96: support bar, 97: groove, 10: kick-out frame, 101: rotating rod, 102: compression spring, 103: fixing plate, 104: rotating block, 105: coil spring, 111: fixing frame, 112: bidirectional threaded rod, 113: limiting plate, 114: slide plate, 115: flattening roller, 116: and (5) stretching the spring.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which currently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art, and the embodiments will fully be described herein with reference to the accompanying drawings.

Example 1: the utility model provides a rolling equipment is used in rubber conveyer belt production, please see fig. 1-9, including rack 1, dwang 2, servo motor one 3, rotating turret 31, swivel 32, servo motor two 4, rolling wheel 5, extrusion subassembly, slide bar 6, reset spring 7, rotating plate 8, cutter 9, actuating assembly, deflector 10 and unloading subassembly, rotating turret 2 that distributes from top to bottom is connected with in the middle of rack 1 left part, the bolting of rack 1 middle part front side has servo motor one 3, rack 1 middle part rotation is connected with rotating turret 31, servo motor one 3's output shaft is connected with rotating turret 31, circumference even interval rotation is connected with three swivel 32 on the rotating turret 31, equal sliding connection has slide bar 6 on the swivel 32, fixedly connected with reset spring 7 between slide bar 6 and the swivel 32, be equipped with rolling wheel 5 on the slide bar 6, rack 1 upper portion rotation is connected with rotating plate 8, square groove 81 is opened to the front side of rotating plate 8, slide bar 6 is close to the terminal surface of rotating plate 8, the end face that the rotating plate 6 is close to rotating plate 8, the rotating plate 6 is equipped with the extrusion subassembly 6 and makes two and the side of rotating plate 6 and the side of rotating plate 8, the radius angle of rotating plate 6 is equipped with the extrusion subassembly 10 and is connected with two adjacent rotating turret 6, the rotating plate 6 and the rotating plate 10 is equipped with the rotating turret 6, the rotating turret 6 is equipped with the rotating turret 6 and is connected with the rotating turret 6, and is connected with the rotating turret 10.

Referring to fig. 1 and 3, the extrusion assembly includes a first cylinder 51 and an extrusion block 52, the first cylinder 51 is bolted to the front side of the middle of the rack 1, the extrusion block 52 is fixedly connected to a movable rod of the first cylinder 51, the extrusion block 52 is arc-shaped, the sliding rods 6 revolve around and all reach below the extrusion block 52, and the extrusion block 52 moves downward to extrude the adjacent sliding rods 6, so that the sliding rods 6 move backward and are clamped into the square grooves 81.

Referring to fig. 1,2, 5 and 6, the driving assembly includes a second cylinder 91, a moving plate 92, a fixing rod 93, a rotating block 94, a moving rod 95 and a supporting rod 96, wherein the second cylinder 91 is bolted to the upper portion of the rack 1, the moving plate 92 is fixedly connected to the moving rod of the second cylinder 91, the moving plate 92 is connected to the cutter 9, the fixing rods 93 are fixedly connected to the front side and the rear side of the middle of the rack 1, the fixing rods 93 are slidably connected to the moving plate 92, the rotating block 94 is rotatably connected to the rear portion of the moving plate 92, the moving rod 95 is slidably connected to the rotating block 94, the lower end of the moving rod 95 is rotatably connected to the rack 1, the supporting rod 96 is connected to the lower portion of the moving rod 95, and a long groove matched with the cutter 9 is formed in the supporting rod 96.

Referring to fig. 6-9, the blanking assembly includes a rotating rod 101, a compression spring 102, a fixing plate 103, a rotating block 104 and a coil spring 105, where the front part of the material shifting frame 10 is fixedly connected with the fixing plate 103, the compression spring 102 is fixedly connected between the material shifting frame 10 and the rotating frame 31, the rear part of the material shifting frame 10 is rotatably connected with the rotating rod 101, the supporting rod 96 is provided with a groove 97, the rotating rod 101 moves backwards and passes through the groove 97, the upper part of the rotating rod 101 is fixedly connected with the rotating block 104, the rotating block 104 is slidably connected with the adjacent material shifting frame 10, the coil spring 105 is fixedly connected between the rotating block 104 and the adjacent material shifting frame 10, the rotating block 104 rotates to squeeze the adjacent fixing plate 103, the fixing plate 103 is located at the rear side of the rotating block 104, and the fixing plate 103 can limit the rotating block 104, so that the rotating block 104 can rotate in one direction.

Firstly, the rubber conveying belt between the rotating rods 2 is wound on the winding wheel 5, the first air cylinder 51 is controlled, the movable rod of the first air cylinder 51 moves downwards, the extrusion block 52 is driven to move downwards together, the extrusion block 52 is arranged in an arc shape, the lower sliding rod 6 is extruded by the extrusion block 52, the sliding rod 6 moves backwards and is clamped into the square groove 81 of the rotating plate 8, the reset spring 7 is stretched, the end face, close to the rotating plate 8, of the sliding rod 6 is in a round corner rectangle, the square groove 81 further limits the sliding rod 6, the second servo motor 4 is controlled, the output shaft of the second servo motor 4 drives the rotating plate 8 to rotate, the adjacent sliding rods 6 are driven to rotate together, the winding wheel 5 on the sliding rod 6 rotates together, and the winding wheel 5 can wind the rubber conveying belt.

When the winding wheel 5 is fully wound, the first cylinder 51 is controlled again, so that the movable rod of the first cylinder 51 moves upwards, the extrusion block 52 is driven to move upwards together, at the moment, the extrusion block 52 is separated from the sliding rod 6, the return spring 7 is restored, the sliding rod 6 moves forwards and is separated from the square groove 81, the sliding rod is separated from the rotating plate 8, the first servo motor 3 is controlled again, the output shaft of the first servo motor 3 drives the rotating frame 31 to rotate clockwise, the next sliding rod 6 rotates below the extrusion block 52, at the moment, the fully wound winding wheel 5 is positioned on the right side of the placing frame 1, the second cylinder 91 is controlled again, so that the movable rod of the second cylinder 91 moves downwards, the moving plate 92 moves downwards, the cutter 9 is driven to move downwards together, the moving plate 92 moves downwards and the rotating block 94 is driven to move downwards together, the rotating block 94 further presses the moving rod 95 downwards, so that the moving rod 95 rotates, at the moment, the rotating block 94 also rotates together, the moving rod 95 rotates to drive the supporting rod 96 to rotate together, the supporting rod 96 rotates to press the rotating rod 101, so that the rotating rod 101 rotates to drive the rotating block 104 to rotate together, at the moment, the spiral spring 105 compresses, the supporting rod 96 continues to rotate to be separated from the rotating rod 101, at the moment, the supporting rod 96 does not press the rotating rod 101 any more, at the moment, the spiral spring 105 is restored, and the rotating block 104 is reversed to restore the original position, so that the rotating rod 101 is also reversed to restore the original position together, when the moving plate 92 moves downwards to enable the cutter 9 to be just contacted with the upper part of the rubber conveyer belt, the supporting rod 96 also just rotates to be contacted with the lower part of the rubber conveyer belt, the cutter 9 is embedded into the long groove of the supporting rod 96, the supporting rod 96 supports the rubber conveyer belt, thereby cut off the rubber conveyer belt completely through the cooperation of cutter 9 and bracing piece 96, the rubber conveyer belt between the dwang 2 can drop on next rolling wheel 5 this moment, and then need not the manual work and cut the rubber conveyer belt for cutting operation is simpler and more convenient.

After cutting, the second cylinder 91 is controlled to move the movable rod of the first cylinder 51 upwards, so that the movable plate 92, the cutter 9 and the rotating block 94 move upwards to the restoring position together, the rotating block 94 further presses the movable rod 95 upwards, so that the movable rod 95 is reversed to the restoring position, at the moment, the rotating block 94 is also reversed to the restoring position together, the movable rod 95 is reversed to drive the supporting rod 96 to be reversed to the restoring position together, the rotating rod 101 is pressed again in the process of reversing the supporting rod 96 to the restoring position, the rotating rod 101 is pressed again due to the limiting of the rotating block 104 by the fixed plate 103, the rotating rod 101 moves backwards by reversing the rotating rod 96, the fixed plate 103 is pressed by the rotating rod 101, the fixed plate 103 is pressed by the compression spring 102 together with the material shifting frame 10, the material shifting frame 10 moves backwards to extrude the winding wheel 5 which is fully wound on the adjacent sliding rod 6, so that the winding wheel 5 which is fully wound is separated from the sliding rod 6, the winding wheel 5 which is fully wound is not required to be manually taken down, the manual workload is reduced, the manual labor intensity is reduced, the time consumption for replacing the winding wheel 5 is shortened, the winding efficiency of a rubber conveying belt is improved, the supporting rod 96 continuously rotates reversely to continuously extrude the rotating rod 101 to move backwards, at the moment, the rotating rod 101 and the supporting rod 96 also move relatively, when the rotating rod 101 moves to a groove 97 on the supporting rod 96, the supporting rod 96 does not extrude the rotating rod 101 any more, the compression spring 102 is restored, the material shifting frame 10 is further restored to the original position by moving forwards, the rotating rod 101 is driven to move forwards together, the subsequent winding wheel 5 which is fully wound is conveniently and again subjected to blanking, and the winding wheel 5 which is fully wound falls down, and then the spare winding wheel 5 is manually placed on the slide rod 6 which is just blanked. After the cutter 9 cuts the rubber conveyer belt, the rubber conveyer belt between the rotating rods 2 can drop onto the winding wheel 5 of the lower sliding rod 6, and then the rubber conveyer belt is manually operated, so that the rubber conveyer belt is wound on the spare winding wheel 5, the servo motor 3 is continuously controlled, the rotating frame 31 is continuously rotated clockwise, the winding wheel 5 on the next sliding rod 6 is further enabled to repeat the above process, and the rubber conveyer belt can be continuously wound and discharged, so that the winding efficiency is improved.

Example 2: referring to fig. 1, 2 and 10, the device further comprises a fixing frame 111, a bidirectional threaded rod 112 and a limiting plate 113, wherein the fixing frame 111 is fixedly connected to the left portion of the placement frame 1, the bidirectional threaded rod 112 is rotatably connected to the lower portion of the fixing frame 111, the limiting plate 113 is connected to both ends of the bidirectional threaded rod 112 in a threaded manner, and the limiting plate 113 is slidably connected to the placement frame 1.

Referring to fig. 10, the device further includes a sliding plate 114, a flattening roller 115 and an extension spring 116, wherein the right part of the fixing frame 111 is slidably connected with the two sliding plates 114, the extension spring 116 is fixedly connected between the sliding plate 114 and the fixing frame 111, the flattening roller 115 is rotatably connected between the two sliding plates 114, and the flattening roller 115 moves downwards to press the rubber conveyer belt, so that the rubber conveyer belt is flattened.

The bidirectional threaded rod 112 is controlled to rotate, so that the two limiting plates 113 move towards the direction close to each other, and the two limiting plates 113 can limit the rubber conveyer belt, so that the rubber conveyer belt is aligned with the winding wheel 5. When the rubber conveyer belt is wound, the rubber conveyer belt can squeeze the flattening roller 115, at the moment, the tension spring 116 is compressed, and the flattening roller 115 can further squeeze the rubber conveyer belt due to the fact that the force is applied to each other, so that the rubber conveyer belt is flattened, and the winding quality of the rubber conveyer belt is guaranteed.

While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (6)

1. The utility model provides a rolling equipment is used in rubber conveyer belt production, is including rack (1), dwang (2) and servo motor one (3), and rack (1) left portion pivoted is connected with dwang (2) that distribute from top to bottom, and servo motor one (3), characterized by are installed in rack (1) front portion: still including rotating turret (31), swivel (32), servo motor two (4), rolling wheel (5), extrusion subassembly, slide bar (6), reset spring (7), rotating plate (8), cutter (9), drive assembly, dialling work or material rest (10) and unloading subassembly, rotating turret (31) are connected with in the middle part of rack (1), the output shaft of servo motor one (3) is connected with rotating turret (31), evenly spaced rotation is connected with three swivel (32) on rotating turret (31), equal sliding connection has slide bar (6) that reset through reset spring (7) on swivel (32), be equipped with rolling wheel (5) on slide bar (6), rotating plate (8) that drive slide bar (6) rotated are connected with on rack (1) upper portion rotation, servo motor two (4) are installed at rack (1) rear portion, the output shaft and rotating plate (8) of servo motor two (4) are connected, rack (1) upper portion is equipped with cutter (9), be equipped with extrusion subassembly and make extrusion subassembly and the rubber band (6) of extrusion subassembly and make on rack (1) carry out cutting tool (5) of three-piece of cutting knife (6) to the middle part of cutting knife (6), the feeding frame (10) is provided with a feeding component for automatically separating a fully wound winding wheel (5) from a sliding rod (6), the driving component comprises a cylinder II (91), a moving plate (92), a fixed rod (93), a rotating block (94), the moving rod (95) and a supporting rod (96), the cylinder II (91) is arranged on the upper portion of the placing frame (1), the moving plate (92) is connected with a cutter (9) on the movable rod of the cylinder II (91), the two sides of the placing frame (1) are respectively connected with the fixed rod (93), the fixed rods (93) are respectively connected with the moving plate (92) in a sliding manner, the rear parts of the moving plates (92) are respectively connected with the rotating block (94), the moving rods (95) are respectively connected with the moving rods (95) on the rotating blocks (94), the end parts of the moving rods (95) are respectively connected with the placing frame (1), the feeding component comprises a supporting rod (101), a compression spring (102), a fixed plate (103), a rotating block (104) and a spiral spring (105), the front parts (10) of the placing frame (10) are respectively connected with the rotating rods (101) in a sliding manner, the rotating rods (102) are respectively connected with the feeding frame (10), the supporting rod (96) is provided with a groove (97), the supporting rod (96) is also provided with an elongated groove matched with the cutter (9), the rotating rod (101) moves backwards and can pass through the groove (97), the upper parts of the rotating rods (101) are connected with rotating blocks (104), the rotating blocks (104) are connected with adjacent material stirring frames (10) in a sliding mode, a spiral spring (105) is connected between each rotating block (104) and each adjacent material stirring frame (10), the rotating blocks (104) rotate and can extrude adjacent fixing plates (103), and the fixing plates (103) are located on the rear sides of the rotating blocks (104).

2. A winding device for producing a rubber conveyer belt according to claim 1, characterized in that: the front side of the rotating plate (8) is provided with a square groove (81) which is matched with the sliding rod (6).

3. A winding device for producing a rubber conveyer belt according to claim 2, characterized in that: the end face of the sliding rod (6) close to the rotating plate (8) is in a round corner rectangle, the sliding rod (6) moves backwards and can be clamped into the square groove (81), then the sliding rod (6) is clamped with the rotating plate (8), and the rotating plate (8) rotates to drive the sliding rod (6) to rotate together.

4. A winding apparatus for producing a rubber conveyer belt according to claim 3, characterized in that: the extrusion assembly comprises a first cylinder (51) and an extrusion block (52), the first cylinder (51) is arranged at the front part of the rack (1), the extrusion block (52) for extruding the sliding rod (6) is connected to a movable rod of the first cylinder (51), and the extrusion block (52) is in arc-shaped arrangement.

5.A winding apparatus for producing a rubber conveyer belt according to claim 4, characterized in that: still including mount (111), two-way threaded rod (112) and limiting plate (113), rack (1) left part is connected with mount (111), and mount (111) lower part rotation is connected with two-way threaded rod (112), and two equal threaded connection in two-way threaded rod (112) both ends have limiting plate (113), limiting plate (113) all with rack (1) sliding connection.

6. A winding apparatus for producing a rubber conveyer belt according to claim 5, characterized in that: the novel roller leveling device is characterized by further comprising sliding plates (114), leveling rollers (115) and tension springs (116), wherein the right part of the fixing frame (111) is connected with the two sliding plates (114) in a sliding mode, the tension springs (116) are connected between the sliding plates (114) and the fixing frame (111), and the leveling rollers (115) are connected between the two sliding plates (114) in a rotating mode.