CN114620255A

CN114620255A - Heat-shrinkable tube upper disc film wrapping machine

Info

Publication number: CN114620255A
Application number: CN202210054265.4A
Authority: CN
Inventors: 熊宇翔; 黎维厚; 刘晓播; 黄伟全; 莫家培; 郭晓东; 李可辉
Original assignee: Cyg Electronic Dongguan Co ltd
Current assignee: Cyg Electronic Dongguan Co ltd
Priority date: 2022-01-18
Filing date: 2022-01-18
Publication date: 2022-06-14
Anticipated expiration: 2042-01-18
Also published as: CN114620255B

Abstract

The invention relates to the technical field of film winding machines, and discloses a heat-shrinkable tube upper disc film winding machine which comprises a machine frame module, a pressure plate module, a cutting module and a wire winding module, wherein the wire winding module adopts a servo motor to replace three traditional motors, so that the stability of the upper disc speed is improved. This membrane machine is twined to pyrocondensation pipe hanging wall, place position then starting equipment through aim at the location axle with a set centre bore, compress tightly the cylinder withdrawal and drive little bottom plate through the connecting piece, the line rail, the riser etc., compress tightly the dish between and, then servo motor starts, the in-process stops when first round rotates three quarters, the position is kept away to the cylinder withdrawal, continue to twine the membrane, then finger cylinder opens, the slip table cylinder stretches out, it is tight to point the cylinder clamp, the cylinder stretches out and drives the cutter and tailors the film and compress tightly the cylinder at last and stretch out to accomplish one and coil the membrane, can solve the stretch of pyrocondensation pipe when hanging the wall, twine the membrane to become machinery simultaneously and twine the membrane by hand, and improve production efficiency and qualification rate.

Description

Upper disc film winding machine for heat shrinkable tube

Technical Field

The invention relates to the technical field of film winding machines, in particular to a film winding machine on a heat shrinkable tube.

Background

The existing heat shrinkable tube hanging plate adopts an artificial hanging plate, so that the uniformity of products cannot be ensured. Meanwhile, the upper disc is not provided with a film winding function, the speed of the upper disc is manually controlled, and the speed cannot be stabilized, so that the upper disc is stretched by a heat shrinkable tube, and the reject ratio is increased.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the heat shrinkable tube upper disc film winding machine, which can solve the problems of stretching of the heat shrinkable tube during disc winding, and simultaneously has the advantages of converting manual film winding into mechanical film winding, improving the production efficiency and the qualification rate and the like, and solves the problems.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: pyrocondensation pipe hanging wall film winding machine, include that equipment comprises frame module, pressure disk module, tailorres the module and receives the line module, wherein receive the line module and adopt servo motor to replace three traditional ordinary motors, improve the stability of hanging wall speed to reduce the tensile rate of pyrocondensation pipe hanging wall, the pressure disk module includes big riser of pressure disk, pressure disk cylinder connecting piece, floating joint, little floor, line rail, stopper, reinforcement, little riser, clamp plate, driven shaft, lock nut and bearing, it includes little strengthening rib, slip table connecting piece, slip table cylinder, connecting piece, finger cylinder connecting piece, increases the piece, tailors cylinder connecting piece, tailors cylinder, heat insulating part, tailors sword, claw, heating rod connecting piece, finger cylinder and claw to tailor the module, it includes motor connecting piece, reinforcement, belt, riser, Servo motor, location cylinder even piece, bearing, connecting block, location cylinder, driven pulleys, riser, servo motor, driving gear, clamp plate, inductor connecting piece, inductor, film connecting rod, film, fender ring, film axle, initiative pivot, location axle, bearing, driven gear, bearing and driving pulleys

Preferably, the take-up module and the platen module are mounted on the frame module, and the cutting module is mounted on the platen module.

Preferably, the bearing is installed on the small vertical plate, the driven shaft is installed on the bearing and is locked by the locking nut, and the stability of the pressure plate during rotation is guaranteed; the floating joint is movably connected with the small floor in a screw mode with the pressure plate cylinder to ensure that the cylinder moves smoothly; the large vertical plate of the pressure plate is connected with the frame module.

Preferably, little strengthening rib and slip table connecting piece are installed on the big riser of pressure disk, and finger cylinder connecting piece links together through increasing the piece with cutting out the cylinder connection, keeps away the position and gives the finger cylinder.

Preferably, reinforcement, riser, location cylinder are even, the riser links together with the frame module, and the motor connecting piece is connected with the reinforcement through waist type hole and is realized the belt and open and advance, and the connecting block is connected with the location axle through special bearing and can rotate the transmission that can work as again power.

(III) advantageous effects

Compared with the prior art, the invention provides a heat shrinkable tube upper disc film winding machine, which has the following beneficial effects:

this pyrocondensation pipe dish membrane winding machine places the position and then the starting equipment through aiming at the location axle with the dish centre bore. The compressing cylinder retracts to drive the small bottom plate, the linear rail, the vertical plate and the like through the connecting piece, and finally the pressing plate is driven to realize the compressing function, so that the disc is compressed between the small bottom plate and the linear rail. Then servo motor starts, will twist reverse through band pulley pair (action wheel, belt, follow driving wheel) and transmit the pivot, and the pivot passes through bolted connection with the clamp plate, and the clamp plate rotates under the effect of bolt, drives the disc through frictional force at last, realizes receiving the line. And after the wire is taken up, manually cutting and separating the heat shrinkable tube on the plate from the raw material. Then tailor the module and open work, the slip table cylinder stretches out, the finger cylinder is the centre gripping and presss from both sides the film tightly under the claw effect this moment, then servo electricity starts and drives the connecting rod and realize the film around the dish and rotate under gear pair (action wheel, from the driving wheel) effect, it stops when the first round rotates three quarters, the cylinder withdrawal is kept away the position, continue to twine the membrane, finally stop the position that senses at the inductor, then the finger cylinder is opened, the slip table cylinder stretches out, the finger cylinder presss from both sides tightly, the cylinder stretches out and drives the cutter and tailors the film and compresses tightly the cylinder at last and stretch out and accomplish a last dish and twine the membrane, can solve the stretch of pyrocondensation pipe when hanging the dish, it twines the membrane to change into machinery with manual membrane of twining simultaneously, production efficiency and qualification rate are improved.

Drawings

FIG. 1 is a perspective view of the present invention

FIG. 2A platen module

FIG. 3 cutting module

Fig. 4 shows a wire take-up module.

In the figure: 01. a rack module; 02-01-pressing plate large vertical plate; 02-02-platen cylinder; 02-03-platen cylinder connection; 02-04-floating joint; 02-05-small floor; 02-06-linear rail; 02-07-a limiting block; 02-08-reinforcement; 02-09-small vertical plate; 02-10-pressing plate; 02-11-driven shaft; 02-12-lock nut; 02-13-bearing; 03-01-small reinforcing ribs; 03-02-slipway connection; 03-03-slipway cylinder; 03-04-connector; 03-05-finger cylinder connection; 03-06-heightening part; 03-07-cutting a cylinder connecting piece; 03-08-cutting cylinder; 03-09-insulation; 03-10-cutting knife; 03-11 paws; 03-12-heating rod; 03-13-heating rod connection; 03-14-finger cylinder; 03-15-paw; 04-01-motor connection; 04-02-reinforcement; 04-03-strap; 04-04-vertical plate; 04-05-servo motor; 04-06-positioning cylinder connecting piece; 04-07-bearings; 04-08-connecting block; 04-09-positioning a cylinder; 04-10-driven pulley; 04-11-vertical plate; 04-12-servo motor; 04-13-driving gear; 04-14-platen; 04-15-inductor connection; 04-16-inductor; 04-17-membrane link; 04-18-film; 04-19-baffle ring; 04-20-film shaft; 04-21-driving rotating shaft; 04-22-positioning shaft; 04-23-bearing; 04-24-driven gear; 04-25-bearing; 04-26-driving pulley.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the heat-shrinkable tube upper disc wrapping machine is configured such that only a small number of key installation and analysis wire-rewinding modules 04 and the platen module 02 are installed on the rack module 01, and the cutting module 03 is installed on the platen module 02.

The 02-13-bearing is arranged on the 02-09-small vertical plate, the 02-11-driven shaft is arranged on the 02-13-bearing and is locked by the 02-12-locking nut, so that the stability of the 02-10-pressing plate during rotation is ensured; 02-04-floating joint and 02-02-pressure plate cylinder screw mode connection and 02-05-small floor movable connection guarantee the smooth movement of the cylinder; 02-01-the large vertical plate of the pressure plate is connected with the 01 frame module;

03-01-small reinforcing ribs and 03-02-sliding table connecting pieces are arranged on a 02-01-pressure plate large vertical plate, 03-05-finger cylinder connecting pieces are connected with a 03-07-cutting cylinder through 03-06-heightening pieces, and the positions of the 03-05-finger cylinder connecting pieces are avoided for a 03-14-finger cylinder;

04-02-a reinforcing member, 04-04-a vertical plate, 04-06-a positioning cylinder connecting member, 04-11-a vertical plate is connected with a 01 frame, 04-01-a motor connecting member is connected with the 04-02-the reinforcing member through a waist-shaped hole to realize 04-03-belt tensioning, 04-08-a connecting block is connected with 04-22-a positioning shaft through a special bearing 04-07-a bearing to realize rotation and force transmission, 04-21-a driving rotating shaft is connected with the 04-04-a vertical plate through a 04-25-a bearing to realize rotation function, 04-24-a driven gear is connected with the 04-21-a driving rotating shaft through a 04-23-a bearing to realize that the shaft does not move a film rotating shaft to rotate the film when the film is wound, the 04-23-bearing heel 04-18-thin film is stretched by friction force to ensure that the film is stretched when the film is wound.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

In use, the disc is manually loaded, the central hole of the disc is aligned with the positioning shaft 04-22 and placed 05 position and the apparatus is then started. The pressing cylinder 02-02 retracts to drive the small bottom plate 02-05, the linear rail 02-06, the vertical plate 02-09 and the like through the connecting piece 02-04, and finally the pressing plate 02-10 is driven to realize the pressing function, so that the disc 05 is pressed between 02-10 and 04-10. Then a servo motor 04-05 is started, torsion is transmitted to a rotating shaft 04-21 through a pulley pair (a driving wheel 04-26, a belt 04-03 and a driven wheel 04-10), the rotating shaft 04-21 is connected with a pressing plate 04-10 through a bolt, the pressing plate 04-10 rotates under the action of the bolt, and finally the driving plate 05 is driven through friction force to achieve wire winding. And after the wire is taken up, manually cutting and separating the heat shrinkable tube on the plate from the raw material. Then the cutting module (03) is started to work, the sliding table cylinder 03-03 extends out, the finger cylinder 03-14 clamps the thin film 04-18 under the action of the claw 03-15, then the servo motor 04-12 starts to drive the connecting rod 04-17 under the action of the gear pair (the driving wheel 04-13 and the driven wheel 04-23) so as to realize the rotation of the film 04-18 around the disc 05, when the first circle rotates three quarters, the air cylinder 03-03 retracts to the avoiding position, the film is continuously wound, and finally the film is stopped at the position sensed by the sensor 04-16, and the rear finger cylinder 03-14 is opened, the sliding table cylinder 03-03 extends out, the finger cylinder 03-14 clamps, the cylinder 03-08 extends out to drive the cutter 03-10 to cut the film 04-18, and finally the pressing cylinder 02-02 extends out to complete an upper disc film winding process.

In summary, the disk wrapping machine on the heat shrinkable tube is started by aligning the central hole of the disk with the positioning shaft 04-22 and placing the disk at the position 05. The pressing cylinder 02-02 retracts to drive the small bottom plate 02-05, the linear rail 02-06, the vertical plate 02-09 and the like through the connecting piece 02-04, and finally the pressing plate 02-10 is driven to realize the pressing function, so that the disc 05 is pressed between 02-10 and 04-10. Then a servo motor 04-05 is started, torsion is transmitted to a rotating shaft 04-21 through a pulley pair (a driving wheel 04-26, a belt 04-03 and a driven wheel 04-10), the rotating shaft 04-21 is connected with a pressing plate 04-10 through a bolt, the pressing plate 04-10 rotates under the action of the bolt, and finally the driving plate 05 is driven through friction force to achieve wire winding. And after the wire is taken up, manually cutting and separating the heat shrinkable tube on the plate from the raw material. Then the cutting module (03) is started to work, the sliding table cylinder 03-03 extends out, the finger cylinder 03-14 clamps the film 04-18 under the action of the claw 03-15, then the servo motor 04-12 is started to drive the connecting rod 04-17 under the action of the gear pair (the driving wheel 04-13 and the driven wheel 04-23) so as to realize the rotation of the film 04-18 around the disc 05, when the first circle rotates three quarters, the cylinder 03-03 retracts to avoid the position, the film is continuously wound and finally stops at the position sensed by the sensor 04-16, the rear finger cylinder 03-14 is opened, the sliding table cylinder 03-03 extends out, the finger cylinder 03-14 clamps, the cylinder 03-08 extends out to drive the cutter 03-10 to cut the film 04-18, and finally the pressing cylinder 02-02 extends out to complete the winding of the disc, the drawing of the heat-shrinkable tube during hanging can be solved, and meanwhile, the manual film winding is converted into the mechanical film winding, so that the production efficiency and the qualification rate are improved.

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. Without further limitation, the use of the verb "comprise a" to define an element does not exclude the presence of another, same element in a process, method, article, or apparatus that comprises the element.

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

1. Pyrocondensation pipe hanging wall twines membrane machine includes that equipment comprises frame module (01), pressure disk module (02), cuts out module (03) and receipts line module (04), its characterized in that: the coiling module adopts a servo motor to replace three traditional motors, the stability of the coiling speed is improved, and the drawing rate of the upper plate of the heat shrinkable tube is reduced, the pressure plate module (02) comprises a pressure plate large vertical plate (02-01), a pressure plate cylinder (02-02), a pressure plate cylinder connecting piece (02-03), a floating joint (02-04), a small floor (02-05), a wire rail (02-06), a limiting block (02-07), a reinforcing piece (02-08), a small vertical plate (02-09), a pressure plate (02-10), a driven shaft (02-11), a locking nut (02-12) and a bearing (02-13), the cutting module (03) comprises a small reinforcing rib (03-01), a sliding table connecting piece (03-02), a sliding table cylinder (03-03), a connecting piece (03-04), The wire take-up device comprises a finger air cylinder connecting piece (03-05), a heightening piece (03-06), a cutting air cylinder connecting piece (03-07), a cutting air cylinder (03-08), a heat insulation piece (03-09), a cutting knife (03-10), a claw (03-11), a heating rod (03-12), a heating rod connecting piece (03-13), a finger air cylinder (03-14) and a claw (03-15), wherein a wire take-up module (04) comprises a motor connecting piece (04-01), a reinforcing piece (04-02), a belt (04-03), a vertical plate (04-04), a servo motor (04-05), a positioning air cylinder connecting piece (04-06), a bearing (04-07), a connecting block (04-08), a positioning air cylinder (04-09), a driven belt wheel (04-10), The device comprises vertical plates (04-11), servo motors (04-12), driving gears (04-13), pressure plates (04-14), sensor connecting pieces (04-15), sensors (04-16), film connecting rods (04-17), films (04-18), baffle rings (04-19), film shafts (04-20), driving rotating shafts (04-21), positioning shafts (04-22), bearings (04-23), driven gears (04-24), bearings (04-25) and driving pulleys (04-26).

2. The heat shrinkable tube winding machine of claim 1, wherein: the take-up module (04) and the pressure plate module (02) are installed on the frame module (01), and the cutting module (03) is installed on the pressure plate module (02).

3. The heat shrinkable tube winding machine of claim 1, wherein: the bearing (02-13) is arranged on the small vertical plate (02-09), the driven shaft (02-11) is arranged on the bearing (02-13) and is locked by the locking nut (02-12) at the same time, and the stability of the pressure plate (02-10) during rotation is ensured; the floating joint (02-04) is movably connected with the small floor (02-05) in a screw mode with the pressure plate cylinder (02-02) to ensure that the cylinder moves smoothly; the large vertical plate (02-01) of the pressure plate is connected with the frame module (01).

4. The heat shrinkable tube winding machine of claim 1, wherein: the small reinforcing ribs (03-01) and the sliding table connecting pieces (03-02) are arranged on the large vertical plates (02-01) of the pressure plate, the finger cylinder connecting pieces (03-05) are connected with the cutting cylinder (03-07) through the heightening pieces (03-06), and the finger cylinder (03-14) is avoided.

5. The heat shrinkable tube winding machine of claim 1, wherein: the belt tensioning device is characterized in that the reinforcing part (04-02), the vertical plate (04-04), the positioning cylinder connecting part (04-06) and the vertical plate (04-11) are connected with the rack module (01), the motor connecting part (04-01) is connected with the reinforcing part (04-02) through a waist-shaped hole to achieve tensioning of the belt (04-03), and the connecting block (04-08) is connected with the positioning shaft (04-22) through a special bearing (04-07) in a bearing mode to achieve rotation and force transmission.