CN210504890U - High-speed non-stop winding device - Google Patents

Abstract

The utility model discloses a high-speed non-stop coiling device, wherein a cutting traction motor is connected with a traction roller in a transmission way, and the upper part of the traction roller is provided with a traction compression roller; the positioning and winding station comprises a rotating disk, a positioning and pressing mechanism and a discharging and pushing mechanism, three air-expanding shafts are uniformly distributed on the rotating disk, positioning holes are formed in the outer end parts of the air-expanding shafts, the positioning and pressing mechanism is installed on a frame wallboard and comprises an air-expanding shaft fixing cylinder, a material cutting and pressing roller cylinder and a pressing roller, the front end part of the air-expanding shaft fixing cylinder is provided with a tip matched with the positioning holes, and the material cutting and pressing roller cylinder is in driving connection with the pressing roller; the material pushing cylinder is installed on the frame wall plate through a fixing seat, a sliding bearing is installed on the fixing seat, a connecting seat is installed at the end part of a piston rod of the material pushing cylinder, the material clamping cylinder is installed on the end face of the connecting seat, second guide rods are installed at the two ends of the connecting seat respectively, and the second guide rods penetrate through the sliding bearing arranged on the fixing seat. The utility model discloses can realize not shutting down continuous rolling, have the advantage that work efficiency is high.

Description

High-speed non-stop winding device

Technical Field

The utility model relates to a post-press equipment technical field specifically is a high-speed rolling device that does not shut down.

Background

The high-speed rotary continuous production process in the compounding, coating and printing industries is generally provided with winding type winding equipment, and when a roll material is fully wound in the working process, the machine needs to be stopped and cut off to change rolls, so that the production efficiency is reduced, and the waste of materials and labor is brought.

Disclosure of Invention

An object of the utility model is to provide a high-speed rolling device that does not shut down can realize the continuous rolling of not shutting down, and production efficiency who improves greatly has reduced artificial waste and cost, has solved the problem among the prior art.

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

a high-speed non-stop winding device comprises a rack, a material pressing and cutting mechanism and a positioning and winding station, wherein the material pressing and cutting mechanism and the positioning and winding station are arranged on the rack;

the positioning and winding station is provided with a rotating disc, a positioning and pressing mechanism and a discharging and pushing mechanism, three inflatable shafts are uniformly distributed on the rotating disc, positioning holes are formed in the outer end portions of the inflatable shafts, the positioning and pressing mechanism is installed on a frame wallboard through a connecting plate and comprises an inflatable shaft fixing cylinder, a material cutting and pressing cylinder and a pressing roller, a tip matched with the positioning holes is arranged at the front end portion of the inflatable shaft fixing cylinder, the material cutting and pressing cylinder is in driving connection with the pressing roller, the pressing roller is in sliding guide through a first guide rod, and through the arrangement, when the inflatable shafts reach the tip position under the driving of the rotating disc, the inflatable shafts push the tip out of the tip and push the tip into the positioning holes, so that the end, far away from the rotating disc, of the inflatable shafts is subjected to auxiliary rotary support, and; during winding, an empty paper cylinder is arranged on the air expansion shaft, double-sided adhesive is adhered to the paper cylinder, the front end of the material belt is tightly pressed on the empty paper cylinder at the beginning of winding under the action of the compression roller, so that the material belt and the double-sided adhesive are fully contacted and adhered firmly, and the successful winding is ensured;

the pushing mechanism of unloading is including pushing away material cylinder, double-layered material cylinder, it installs on the frame wallboard through the fixing base to push away the material cylinder, install slide bearing on the fixing base, push away the tip of material cylinder piston rod and install the connecting seat, double-layered material cylinder install in the terminal surface of connecting seat, the tailpiece of the piston rod of double-layered material cylinder has installed the fork mouth board, the second guide arm is installed respectively at the both ends of connecting seat, the second guide arm run through set up in the slide bearing on the fixing base.

Further, blank adjustment mechanism includes synchronous pulley, worm wheel, synchronous pulley is connected with the power supply, the worm is connected in the synchronous pulley linkage, the worm meshes the transmission worm wheel, the worm wheel passes through the axle linkage press material shutdown mechanism.

Further, the location rolling station still is equipped with fiber container stop gear, fiber container stop gear includes location axle, locating plate, location axle fixed mounting is on the frame wallboard, the locating plate passes through the bearing and installs on the location axle, the locating plate wind location axle unidirectional rotation.

Furthermore, the location rolling station still includes puts the sticky tape platform, put sticky tape platform fixed mounting on the frame wallboard.

The utility model provides a high-speed coiling mechanism that does not shut down, the material area that comes from the front end process transmission passes through the carry over pinch rolls, the cooperation of traction compression roller is passed on to the fiber container that waits to receive the book, roll up through the rotation of the physiosis axle that sets up on the rotary disk, after the rolling is accomplished, utilize the cutting off cutter to cut off the material area, the material that will roll up is rolled up by the rotary disk and is rotated to the pushing mechanism position of unloading, through the clamping cylinder, push away the cooperation of material cylinder, specifically the clamping cylinder drives the fork mouth board and reachs the terminal surface that the fiber container and rotary disk are close to, the piston rod that pushes away the material cylinder stretches out and promotes clamping cylinder and fork mouth board together, release the physiosis axle that will receive the material and drop to receiving device on, accomplish the process of unloading, meanwhile will be equipped with the physiosis axle rotation of empty fiber container to location swager position; at the moment, the air expansion shaft with the removed material roll is positioned above the adhesive tape placing platform and is in contact with a positioning plate of the paper tube limiting mechanism, an operator loads the air expansion shaft on the empty paper tube, double-sided adhesive tape is adhered to the loaded empty paper tube, the unused double-sided adhesive tape is placed on the adhesive tape placing platform, on one hand, the paper tube is placed at a fixed point nearby and is convenient to take, on the other hand, the paper tube is prevented from being lost, meanwhile, due to the action of the positioning plate, the paper tube automatically completes axial limiting, so that the fork opening plate is convenient to unload materials, the empty paper tube is installed when being rolled and unloaded, and the air expansion shaft with the loaded empty paper tube prepares for rolling of the next roll; the continuous winding without stopping is realized in such a cycle, the winding working efficiency is greatly improved, and the problem in the prior art is solved.

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 pressing and cutting mechanism of the present invention.

Fig. 3 is a schematic structural view of the positioning and pressing mechanism of the present invention.

Fig. 4 is a schematic structural view of the discharging pushing mechanism of the present invention.

In the figure: 100. a frame; 200. a material pressing and cutting mechanism; 300. positioning a winding station; 110. a bearing seat; 120. a frame wall panel; 210. a material cutting adjusting mechanism; 220. a material cutting traction motor; 230. a cutting knife; 240. a traction roller; 250. drawing the compression roller; 211. a synchronous pulley; 212. a worm; 213. a worm gear; 214. a shaft; 231. a cutting knife cylinder; 310. rotating the disc; 320. positioning a material pressing mechanism; 330. a discharge pushing mechanism; 340. a paper tube limiting mechanism; 350. placing an adhesive tape platform; 311. an inflatable shaft; 312. positioning holes; 313. a connecting plate; 321. the air expansion shaft fixes the air cylinder; 322. a material cutting press roller cylinder; 323. a compression roller; 324. a tip; 325. a first guide bar; 331. a material pushing cylinder; 332. a material clamping cylinder; 333. a fixed seat; 334. a sliding bearing; 335. a connecting seat; 336. a second guide bar; 337. a fork plate; 341. positioning the shaft; 342. positioning a plate; 343. and a bearing.

Detailed Description

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

Referring to fig. 1-4, the utility model provides a high-speed non-stop rolling device, including frame 100 and the pressing cutting mechanism 200, the location rolling station 300 installed on the frame, pressing cutting mechanism 200 is installed on frame wallboard 120 through bearing frame 110, including the blank adjustment mechanism 210, blank traction motor 220 and the cut-off cutter 230 that are connected with the power source (not shown in the figure), the transmission of blank traction motor 220 connects carry over pinch rolls 240, carry over pinch rolls 250 on the upper portion of carry over pinch rolls 240, cut-off cutter 230 is driven through the cut-off cutter cylinder 231, is used for cutting off the material area;

the positioning and winding station 300 is provided with a rotating disc 310, a positioning and pressing mechanism 320 and a discharging and pushing mechanism 330, three air-expanding shafts 311 are uniformly distributed on the rotating disc 310, positioning holes 312 are formed in the outer end portions of the air-expanding shafts 311, the positioning and pressing mechanism 320 is installed on the rack wallboard 120 through a connecting plate 313 and comprises an air-expanding shaft fixing cylinder 321, a material cutting pressing roller cylinder 322 and a pressing roller 323, the front end portion of the air-expanding shaft fixing cylinder 321 is provided with a tip 324 matched with the positioning holes 312, the material cutting pressing roller cylinder 322 is in driving connection with the pressing roller 323, and the pressing roller 323 is guided by a first guide rod 325 in a;

the discharging pushing mechanism 330 comprises a pushing cylinder 331 and a clamping cylinder 332, the pushing cylinder 331 is mounted on the rack wall board 120 through a fixing seat 333, a sliding bearing 334 is mounted on the fixing seat 333, a connecting seat 335 is mounted at the end of a piston rod of the pushing cylinder 331, the clamping cylinder 332 is mounted on the end surface of the connecting seat 335, a fork plate 337 is mounted at the end of the piston rod of the clamping cylinder 332, second guide rods 336 are mounted at two ends of the connecting seat 335 respectively, and the second guide rods 336 penetrate through the sliding bearing 334 arranged on the fixing seat 333.

Further, the blanking adjusting mechanism 210 comprises a synchronous pulley 211, a worm 212 and a worm wheel 213, the synchronous pulley 211 is connected with a power source, the synchronous pulley 211 is connected with the worm 212 in a linkage mode, the worm 212 is meshed with the transmission worm wheel 213, and the worm wheel 213 is linked with the material pressing and cutting mechanism 200 through a shaft 214.

Further, location rolling station 300 still is equipped with fiber container stop gear 340, and fiber container stop gear 340 includes location axle 341, locating plate 342, and location axle 341 fixed mounting is on frame wallboard 120, and locating plate 342 passes through bearing 343 and installs on location axle 341, and locating plate 342 is around location axle 341 unidirectional rotation.

Further, the positioning and winding station 300 further includes a tape placing platform 350, and the tape placing platform 350 is fixedly mounted on the rack wall panel 120.

The utility model provides a high-speed coiling mechanism that does not shut down, the material area that comes from the transmission of front end process passes through the carry over pinch rolls, pull compression roller cooperation transmission and be sent to on the fiber container of waiting to receive the book, roll through the rotation of the physiosis axle that sets up on the rotary disk, after the rolling is accomplished, utilize the cutting off cutter to cut off the material area, the material that will roll up is rolled up by the rotary disk and is rotated to the pushing mechanism position of unloading, through the clamping cylinder, push away the cooperation of material cylinder, specifically the clamping cylinder drives the fork mouth board and reachs the terminal surface that the fiber container and rotary disk are close to, the piston rod that pushes away the material cylinder stretches out and promotes clamping cylinder and fork mouth board together, release the physiosis axle that will receive the material and drop to receiving device on, accomplish the process of unloading, meanwhile will be equipped with the physiosis axle rotation of empty fiber container to location swager position; at the moment, the air expansion shaft with the removed material roll is positioned above the adhesive tape placing platform and is in contact with a positioning plate of the paper tube limiting mechanism, an operator loads the air expansion shaft on the empty paper tube, double-sided adhesive tape is adhered to the loaded empty paper tube, the unused double-sided adhesive tape is placed on the adhesive tape placing platform, on one hand, the paper tube is placed at a fixed point nearby and is convenient to take, on the other hand, the paper tube is prevented from being lost, meanwhile, due to the action of the positioning plate, the paper tube automatically completes axial limiting, so that the fork opening plate is convenient to unload materials, the empty paper tube is installed when being rolled and unloaded, and the air expansion shaft with the loaded empty paper tube prepares for rolling of the next roll; the continuous winding without stopping is realized in such a cycle, the working efficiency of the working winding is greatly improved, and the problems in the prior art are solved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (4)

1. A high-speed non-stop coiling device is characterized by comprising a rack, a material pressing and cutting mechanism and a positioning and coiling station, wherein the material pressing and cutting mechanism and the positioning and coiling station are arranged on the rack;

the positioning and winding station is provided with a rotating disc, a positioning and pressing mechanism and a discharging and pushing mechanism, three air-expanding shafts are uniformly distributed on the rotating disc, positioning holes are formed in the outer end portions of the air-expanding shafts, the positioning and pressing mechanism is installed on a frame wallboard through a connecting plate and comprises an air-expanding shaft fixing cylinder, a material cutting and pressing roller cylinder and a pressing roller, the front end portion of the air-expanding shaft fixing cylinder is provided with a top matched with the positioning holes, the material cutting and pressing roller cylinder is in driving connection with the pressing roller, and the pressing roller is guided by a first guide rod in a sliding mode;

the pushing mechanism of unloading is including pushing away material cylinder, double-layered material cylinder, it installs on the frame wallboard through the fixing base to push away the material cylinder, install slide bearing on the fixing base, push away the tip of material cylinder piston rod and install the connecting seat, double-layered material cylinder install in the terminal surface of connecting seat, the tailpiece of the piston rod of double-layered material cylinder has installed the fork mouth board, the second guide arm is installed respectively at the both ends of connecting seat, the second guide arm run through set up in the slide bearing on the fixing base.

2. The high-speed non-stop winding device according to claim 1, wherein the material cutting adjusting mechanism comprises a synchronous belt wheel, a worm and a worm wheel, the synchronous belt wheel is connected with a power source, the synchronous belt wheel is linked with the worm, the worm is meshed with a transmission worm wheel, and the worm wheel is linked with the material pressing and cutting mechanism through a shaft.

3. The high-speed non-stop winding device according to claim 1, wherein the positioning winding station is further provided with a paper tube limiting mechanism, the paper tube limiting mechanism comprises a positioning shaft and a positioning plate, the positioning shaft is fixedly mounted on a frame wall plate, the positioning plate is mounted on the positioning shaft through a bearing, and the positioning plate rotates unidirectionally around the positioning shaft.

4. A high speed non-stop winding device as claimed in claim 1, wherein said positioning and winding station further comprises a tape laying platform, said tape laying platform being fixedly mounted on the frame wall.

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