CN109834750B

CN109834750B - Automatic lamination machine for rubber and plastic film materials

Info

Publication number: CN109834750B
Application number: CN201910272222.1A
Authority: CN
Inventors: 杨斌
Original assignee: Dongguan Hongxiang Machinery Co ltd
Current assignee: Dongguan Hongxiang Machinery Co ltd
Priority date: 2019-04-04
Filing date: 2019-04-04
Publication date: 2023-12-22
Anticipated expiration: 2039-04-04
Also published as: CN109834750A

Abstract

The invention relates to the technical field of rubber and plastic banburying equipment, in particular to an automatic rubber and plastic film laminating machine which comprises a feeding mechanism, a receiving mechanism and a discharging mechanism, wherein the receiving mechanism is arranged at the lower part of the feeding mechanism, and the discharging mechanism is arranged at one side of the feeding mechanism; the feeding mechanism comprises a feeding base, transmission shafts are arranged at four right angles of the feeding base, two ends of each transmission shaft are provided with transmission sprockets, transmission chains are connected between the four transmission sprockets at each end, a feeding conveyor belt is arranged between the transmission chains at two sides, a transmission motor is arranged at the end head of one transmission shaft, equipment for transferring double-station automatic lamination is adopted to completely replace manual picking, stacking and placing, production efficiency is greatly improved, the risk of manual picking is avoided, automatic lamination equipment can be automatically matched with the speed of front and back working procedure equipment, sheet stacking is orderly and orderly, the automatic feeding mechanism is suitable for stacking and conveying sheets of various specifications, production cost is low, and maintenance is convenient.

Description

Automatic lamination machine for rubber and plastic film materials

Technical Field

The invention relates to the technical field of automatic processing equipment of rubber and plastic, in particular to an automatic rubber and plastic laminating machine.

Background

The rubber and plastic film material processing process needs to be transferred for a plurality of processes, the existing rubber and plastic film material processing process is transferred by manually picking, stacking and placing one by one and then transferring, the production efficiency is low by adopting manual work, when the manual work is picked, the manual work needs to be in close contact with running and machine equipment, potential safety hazards can be generated for workers, and the manual work is picked, the sheet cutting speed can not be matched, so that the sheet cannot be stacked neatly and accurately, and the size of the cut sheet can not be changed at will; semi-automatic production results in high production cost and inconvenient equipment maintenance.

Disclosure of Invention

The invention aims at overcoming the defects of the prior art, and provides an automatic rubber and plastic film material lamination machine which is scientific in structural design, adopts double-station automatic lamination transfer equipment to completely replace manual picking, stacking and placing in the rubber and plastic film material processing process, greatly improves the production efficiency, avoids the danger of manual picking, can automatically match the speed of front and back working procedure equipment, ensures that the lamination of the sheets is orderly and orderly, is suitable for the lamination and conveying of the sheets with various specifications, has low production cost and is convenient to maintain.

In order to achieve the purpose, the automatic rubber and plastic film laminating machine adopts the following technical scheme that the automatic rubber and plastic film laminating machine comprises a feeding mechanism, a receiving mechanism and a discharging mechanism, wherein the receiving mechanism is arranged at the lower part of the feeding mechanism, and the discharging mechanism is arranged at one side of the feeding mechanism; the feeding mechanism comprises a feeding base, transmission shafts are arranged at four right angles of the feeding base, two ends of each transmission shaft are provided with transmission chain wheels, transmission chains are connected between the four transmission chain wheels at each end, a feeding conveyor belt is arranged between the transmission chains at two sides, a transmission motor is arranged at the end head of one transmission shaft, a rear stop device and a front stop device are further arranged on the feeding base, two high-position detectors are further arranged on the feeding base, and the two high-position detectors are respectively arranged above the two sets of the feeding mechanisms; the rear cover stop device and the front stop device comprise stop frames, stop plates are arranged below the stop frames, stop cylinders are arranged above the stop frames, and piston rods of the stop cylinders are connected with the stop plates.

The material receiving mechanism is two sets of symmetrical settings, a hydraulic station is arranged between the two sets of material receiving mechanisms, each set of material receiving mechanism comprises two material receiving bases, each material receiving base is provided with an X-shaped lifting frame, lifting tables are arranged above the two X-shaped lifting frames, hydraulic cylinders are arranged below the lifting tables and are connected with the hydraulic stations through oil pipes, piston rods of the hydraulic cylinders are connected with the lifting tables, cylinder bodies of the hydraulic cylinders are connected with the material receiving bases, one corner below the lifting tables is provided with a low-position detector, a material receiving conveying roller and a material receiving driven roller are arranged on the lifting tables, one end of each material receiving conveying roller is provided with a material receiving conveying motor, material receiving conveying belts are connected between each material receiving conveying roller and each material receiving driven roller, and two ends of each material receiving driven roller are provided with material receiving conveying belt adjusting screw rods.

The discharging mechanism is symmetrically arranged in two sets, the discharging mechanism comprises a discharging base, a discharging table is arranged on the discharging base, two ends of the discharging table are respectively provided with a discharging roller and a discharging driven roller, a discharging conveying motor is arranged at the inner end of the discharging roller, a discharging conveying belt is connected between the discharging roller and the discharging driven roller, and two ends of the discharging driven roller are provided with discharging conveying belt adjusting screw rods.

The four transmission shafts are arranged in parallel, the transmission chains on the two sides are arranged in parallel, the feeding conveyer belt is arranged intermittently, the rear material blocking device and the front material blocking device are arranged in parallel, and the material blocking plates and the feeding conveyer belt are arranged vertically in a staggered mode.

The two sets of material conveyer belts are arranged in parallel, and the material receiving conveyer belts and the material feeding conveyer belts are arranged in a vertical staggered manner.

The running speed of the receiving conveyer belt is equal to that of the discharging conveyer belt, and the receiving conveyer belt and the discharging conveyer belt are arranged in parallel.

The invention has the beneficial effects that: the automatic rubber and plastic film laminating machine comprises a feeding mechanism, a receiving mechanism and a discharging mechanism, wherein the receiving mechanism is arranged at the lower part of the feeding mechanism, and the discharging mechanism is arranged at one side of the feeding mechanism; the feeding mechanism comprises a feeding base, transmission shafts are arranged at four right angles of the feeding base, two ends of each transmission shaft are provided with transmission sprockets, transmission chains are connected between the four transmission sprockets at each end, a feeding conveyor belt is arranged between the transmission chains at two sides, a transmission motor is arranged at the end head of one transmission shaft, equipment for transferring double-station automatic lamination is adopted to completely replace manual picking, stacking and placing, production efficiency is greatly improved, the risk of manual picking is avoided, automatic lamination equipment can be automatically matched with the speed of front and back working procedure equipment, sheet stacking is orderly and orderly, the automatic feeding mechanism is suitable for stacking and conveying sheets of various specifications, production cost is low, and maintenance is convenient.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a feed mechanism of the present invention;

FIG. 3 is a schematic view of a receiving mechanism of the present invention;

fig. 4 is a schematic view of the discharge mechanism of the present invention.

Detailed Description

See fig. 1 to 4: the invention comprises a feeding mechanism 1, a receiving mechanism 2 and a discharging mechanism 3, wherein the receiving mechanism 2 is arranged at the lower part of the feeding mechanism 1, and the discharging mechanism 3 is arranged at one side of the feeding mechanism 1; the feeding mechanism 1 comprises a feeding base 10, transmission shafts 11 are arranged at four right angles of the feeding base 10, two ends of each transmission shaft 11 are provided with transmission chain wheels 12, a transmission chain 13 is connected between the four transmission chain wheels 12 at each end, a feeding conveyor belt 15 is arranged between the transmission chain 13 at two sides, a transmission motor 14 is arranged at the most end of one transmission shaft 11, a rear cover stop device 16 and a front stop device 17 are further arranged on the feeding base 10, two high-position detectors 18 are further arranged on the feeding base 10, and the two high-position detectors 18 are respectively arranged above the two cover stop mechanisms 2; the rear cover stop device 16 and the front stop device 17 comprise a stop frame 161, a stop plate 162 is arranged below the stop frame 161, a stop cylinder 163 is arranged above the stop frame 161, a piston rod of the stop cylinder 163 is connected with the stop plate 162, and the equipment adopts two groups of stop devices to perform circulation and alternation work, so that the patch speed is increased, and the work efficiency is increased.

The material receiving mechanism 2 is symmetrically arranged in two sets, the hydraulic station 200 is arranged in the middle of the two sets of material receiving mechanisms 2, each set of material receiving mechanism 2 comprises two material receiving bases 20, each material receiving base 20 is provided with an X-shaped lifting frame 21, lifting tables 22 are arranged above the two X-shaped lifting frames 21, a hydraulic cylinder 23 is arranged below the lifting tables 22, the hydraulic cylinder 23 and the hydraulic station 200 are connected through an oil pipe, a piston rod of the hydraulic cylinder 23 is connected with the lifting tables 22, a cylinder body of the hydraulic cylinder 23 is connected with the material receiving bases 20, one corner below the lifting tables 22 is provided with a low-position detector 24, the lifting tables 22 are provided with a material receiving conveying roller 26 and a material receiving driven roller 27, one end of the material receiving conveying roller 26 is provided with a material receiving conveying motor 25, a material receiving conveying belt adjusting screw rod 29 is arranged at two ends of the material receiving driven roller 27, the material receiving mechanism adopts the hydraulic lifting tables to automatically collect and stack the sheet materials, the sheet materials are automatically detected by the high-position detector and the low-position detector, the sheet stacking is accurate and tidy, the manual contact danger is completely reduced, and the dangerous equipment is completely replaced.

The discharging mechanism 3 is two sets of symmetrical settings, and discharging mechanism 3 includes ejection of compact base 30, is equipped with ejection of compact platform 31 on the ejection of compact base 30, and ejection of compact platform 31 both ends are equipped with ejection of compact roller 32 and ejection of compact driven roller 34 respectively, and the inboard end of ejection of compact roller 32 is equipped with ejection of compact conveying motor 33, is connected with ejection of compact conveyer belt 36 between ejection of compact roller 32 and the ejection of compact driven roller 34, and the both ends of ejection of compact driven roller 34 are equipped with ejection of compact conveyer belt adjustment lead screw 35, and equipment adopts automatic discharging mechanism to carry out next process transportation, and is laborsaving, efficient.

Four transmission shafts 11 are parallel arrangement, the transmission chains 13 on two sides are parallel arrangement, the feeding conveyer belt 15 is intermittent arrangement, the rear material blocking device 16 and the front material blocking device 17 are parallel arrangement, the material blocking plates 162 and the feeding conveyer belt 15 are vertically staggered, the lowest edges of the material blocking plates 162 are attached to the upper surface of the feeding conveyer belt 15, the structure design of the material blocking devices is flexible, the control mode is accurate, the material blocking plates block rubber and plastic materials to enable the rubber and plastic materials to fall into the material receiving conveyer belt in order, the two groups of circulation switching work increases the efficiency, and continuous feeding of the feeding conveyer belt is not affected.

The two sets of material conveyer belts 28 are arranged in parallel, and the material receiving conveyer belts 28 and the material feeding conveyer belt 15 are arranged in a vertically staggered mode, so that the accurate, orderly and orderly connection of the upper working procedures and the lower working procedures of the rubber plastic film materials is ensured.

The running speed of the receiving conveyer belt 28 is equal to that of the discharging conveyer belt 36, the receiving conveyer belt 28 and the discharging conveyer belt 36 are arranged in parallel, and the lamination conveying work can be automatically matched with the speed of the front and back working procedure equipment and is suitable for stacking and conveying sheets with various specifications.

The operation mode is as follows: in the initial state of the equipment, the stop cylinder 163 of the rear stop device 16 lifts the stop plate 162, the lifting platform 22 below the rear stop device 16 is at a low position, the stop cylinder 163 of the front stop device 17 pushes down the stop plate 162, the stop plate 162 is flatly attached to the feeding conveyor 15, and the lifting platform 22 below the front stop device 17 is lifted;

when the device operates, the cut sheet materials in the upper working procedure are conveyed to the feeding conveyer belt 15 of the automatic lamination machine, the transmission motor 14 drives the feeding conveyer belt 15 to convey the sheet materials to the position of the front stop device 17, the sheet materials are blocked and continuously fed along with the feeding conveyer belt 15, the sheet materials fall onto the receiving conveyer belt 28 of the receiving mechanism 2 from the intermittent opening of the feeding conveyer belt 15, the high-level detector 18 above the receiving mechanism 2 detects that the sheet materials on the receiving conveyer belt 28 reach, a conveying signal is sent to the hydraulic station 200, the hydraulic station 200 controls the lifting table 22 to descend, the lifting table 22 is controlled to stop descending when the signal of the high-level detector 18 is disconnected, the low-level detector 24 below the lifting table 22 receives the low-level signal after the lifting table 22 is subjected to material receiving and descending for a plurality of times, the receiving conveyer belt 28 and the discharging conveyer belt 36 are on a plane, the stop plate 162 of the front stop device 17 lifts the stop plate 162 of the rear stop device 16 to lift the stop device 16 to the lifting motor 16 to the position corresponding to the lifting mechanism 16 and the lifting table 33 of the feeding conveyer belt 2, and the following the lifting table 16 to move the sheet materials to the lifting device 16 to the position of the lifting table 16 and the feeding conveyer belt 15 to start to move the sheet materials to the lifting device 15 to the position corresponding to the lifting and the stop device 33.

At the same time, the material is blocked by the baffle plate 162, the material is discharged from the intermittent opening of the feeding conveyer belt 15 and falls onto the material receiving conveyer belt 28 of the material receiving mechanism 2 below the rear baffle device 16, the high-level detector 18 above the material receiving mechanism 2 detects that the material receiving conveyer belt 28 is reached, a transmission signal is sent to the hydraulic station 200, the hydraulic station 200 controls the lifting table 22 to descend, when the signal of the lifting table 22 falls to the high-level detector 18 to be disconnected, the hydraulic station 200 controls the lifting table 22 to stop descending, material receiving is continued, when the lifting table 22 receives materials from a plurality of times, the lower-level detector 24 below the lifting table 22 receives a lower-level signal, at the moment, the baffle plate 162 of the front baffle device 17 is switched downwards again, the material receiving mechanism 2 corresponding to the front baffle device 17 works, and the corresponding material receiving mechanism 2 and the discharging mechanism 3 work simultaneously along with the beginning of the pushing of the corresponding baffle plate 162 on the feeding mechanism 1, and the two sides of the lifting table 22 are switched circularly.

The foregoing description is only of the preferred embodiments of the invention, and all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the invention are therefore intended to be embraced therein.

Claims

1. The automatic lamination machine for rubber and plastic film materials comprises a feeding mechanism (1), a receiving mechanism (2) and a discharging mechanism (3), and is characterized in that: the material receiving mechanism (2) is arranged at the lower part of the feeding mechanism (1), and the discharging mechanism (3) is arranged at one side of the feeding mechanism (1); the feeding mechanism (1) comprises a feeding base (10), transmission shafts (11) are arranged at four right angles of the feeding base (10), two ends of each transmission shaft (11) are respectively provided with a transmission chain wheel (12), transmission chains (13) are connected between the four transmission chain wheels (12) at each end, a feeding conveying belt (15) is arranged between the transmission chains (13) at two sides, a transmission motor (14) is arranged at the most end of one transmission shaft (11), a rear cover stop device (16) and a front stop device (17) are further arranged on the feeding base (10), two high-position detectors (18) are further arranged on the feeding base (10), and the two high-position detectors (18) are respectively arranged above the two sets of feeding mechanisms (2); the rear cover material blocking device (16) and the front material blocking device (17) comprise a material blocking frame (161), a material blocking plate (162) is arranged below the material blocking frame (161), a material blocking cylinder (163) is arranged on the material blocking frame (161), and a piston rod of the material blocking cylinder (163) is connected with the material blocking plate (162);

the material receiving mechanism (2) is symmetrically arranged in two sets, a hydraulic station (200) is arranged in the middle of the two sets of material receiving mechanisms (2), each set of material receiving mechanism (2) comprises two material receiving bases (20), each material receiving base (20) is provided with an X-shaped lifting frame (21), lifting tables (22) are arranged on the two X-shaped lifting frames (21), a hydraulic cylinder (23) is arranged below the lifting tables (22), the hydraulic cylinder (23) is connected with the hydraulic station (200) through an oil pipe, a piston rod of the hydraulic cylinder (23) is connected with the lifting tables (22), a cylinder body of the hydraulic cylinder (23) is connected with the material receiving base (20), one corner below the lifting tables (22) is provided with a low-position detector (24), one end of each material receiving conveying roller (26) is provided with a material receiving conveying motor (25), two ends of each material receiving conveying roller (26) are connected with a material receiving conveying belt (28), and two ends of each material receiving driven roller (27) are connected with a material receiving belt adjusting screw rod (29);

the discharging mechanism (3) is symmetrically arranged, the discharging mechanism (3) comprises a discharging base (30), a discharging table (31) is arranged on the discharging base (30), discharging rollers (32) and discharging driven rollers (34) are respectively arranged at two ends of the discharging table (31), a discharging conveying motor (33) is arranged at the inner end of each discharging roller (32), a discharging conveying belt (36) is connected between each discharging roller (32) and each discharging driven roller (34), and discharging conveying belt adjusting screw rods (35) are arranged at the two ends of each discharging driven roller (34);

four transmission shafts (11) are arranged in parallel, transmission chains (13) on two sides are arranged in parallel, a feeding conveyer belt (15) is arranged intermittently, two sets of baffle plates (162) are arranged in parallel, the baffle plates (162) and the feeding conveyer belt (15) are arranged vertically in a staggered mode, and the lowest edge of the baffle plates (162) is attached to the upper surface of the feeding conveyer belt (15).

2. The automatic rubber and plastic film laminating machine according to claim 1, wherein: the two sets of material conveying belts (28) are arranged in parallel, and the material receiving conveying belts (28) and the material feeding conveying belts (15) are arranged in a vertical staggered mode.

3. The automatic rubber and plastic film laminating machine according to claim 1, wherein: the running speed of the receiving conveyer belt (28) is equal to that of the discharging conveyer belt (36), and the receiving conveyer belt (28) and the discharging conveyer belt (36) are arranged in parallel.