CN112209146A

CN112209146A - Processing production device and process of polypropylene film

Info

Publication number: CN112209146A
Application number: CN202011004479.8A
Authority: CN
Inventors: 李继领; 吕强; 刘存田
Original assignee: Anhui University of Science and Technology
Current assignee: Anhui University of Science and Technology
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2021-01-12

Abstract

The processing production device comprises a material receiving assembly, the material receiving assembly comprises a bottom support, a first support plate and a conveying belt are arranged on the bottom support, a tensioning shaft and a material receiving shaft are arranged above the conveying belt, a conveying assembly is arranged on the bottom support and comprises a rubber roller with a groove, a pressing rubber roller is arranged above the rubber roller with the groove, an auxiliary rubber roller is arranged on one side of the rubber roller with the groove, a support assembly is arranged above the first support plate and comprises a support cross beam, a lifting connecting rod assembly is arranged in the support cross beam, and a slicing assembly is arranged below the lifting connecting rod assembly. The automatic material collecting and cutting device is reliable in structure and practical in function, the anti-drop ring can effectively prevent the polypropylene film from deviating during material collecting, the material collecting and tensioning effect is good, the slicing effect is good, the polypropylene film can be compressed by the compression plate and the lower compression plate during slicing, wrinkles can be prevented during slicing, automatic conveying can be achieved after slicing is completed, and the labor cost is reduced.

Description

Processing production device and process of polypropylene film

Technical Field

The invention relates to the field of polypropylene film production, in particular to a processing and production device and a processing and production process of a polypropylene film.

Background

The polypropylene film has good luster and transparency, is resistant to heat, acid, alkali, solvents, friction and tearing, can ventilate, cannot be heat-sealed at the temperature of below 160 ℃, and is used for packaging and used as a film covering layer. Plastic packages and plastic package products have a growing share in the market, and particularly, composite plastic flexible packages have been widely applied to the fields of food, medicine, chemical industry and the like, wherein the proportion of the plastic packages is the largest, such as beverage packages, quick-frozen food packages, steamed and cooked food packages, fast food packages and the like. Polypropylene film need cut the processing to the film when getting into material collecting device at raw materials blown film shaping back, and current apparatus for producing has the problem that the location is not accurate, can't carry out transverse cutting when cutting the film, needs to receive the material completely and carries out the section processing once more afterwards, and work efficiency is low. Aiming at the situation, a processing and production device and a processing and production process of a polypropylene film are provided.

Disclosure of Invention

The invention aims to provide a processing and producing device and a processing and producing process for a polypropylene film, and solves the problems that when an existing producing device is used for cutting the film, the positioning is not accurate, the film cannot be transversely cut, the film needs to be sliced again after complete material collection, and the working efficiency is low.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a processing apparatus for producing of polypropylene film, processing apparatus for producing is including receiving the material subassembly, receive the material subassembly including the bottom support, be equipped with first extension board and conveyer belt on the support of bottom, the conveyer belt top is equipped with the tensioning axle and receives the material axle, be equipped with conveying assembly on the support of bottom, conveying assembly includes the trough of belt rubber roll, trough of belt rubber roll top is equipped with the pressfitting rubber roll, trough of belt rubber roll one side is equipped with supplementary rubber roll, first extension board top is equipped with supporting component, supporting component includes supporting beam, be equipped with lifting link assembly in the supporting beam, lifting link assembly includes first connecting rod, the second connecting rod, third connecting rod and fourth connecting rod, lifting link.

Further, be equipped with the first connecting block of mirror image distribution on the support of bottom, be equipped with the holding down plate on the first support, still be equipped with the first bearing frame of mirror image array distribution on the support of bottom, be equipped with first roller bearing between the first bearing frame, be equipped with the conveyer belt jointly on the first roller bearing, a set of first roller bearing one end is equipped with first motor, still be equipped with the first support of mirror image distribution on the support of bottom, all be equipped with the second bearing frame on the first support, be equipped with the tensioning axle between the second bearing frame, be equipped with the first anticreep ring of mirror image distribution on the tensioning axle, first support one side is equipped with the second support of mirror image distribution, the second support is fixed on the support of bottom equally, be equipped with the third bearing of mirror image distribution on the second support, be equipped with the receipts material axle between the third bearing frame, be equipped with the second anticreep ring of mirror image distribution.

Further, the conveying assembly comprises a third support in mirror image distribution, first grooves are formed in the third support, first sliding rails in mirror image distribution are arranged in the first grooves, second grooves are formed in the third support, first air cylinders are arranged on the third support, connecting rings are arranged at the lower ends of the first air cylinders, sliding blocks are arranged below the connecting rings, the sliding blocks are in sliding fit with the first sliding rails, first bearings are arranged in the sliding blocks, press-fit rubber rollers are arranged between the first bearings, groove rubber rollers are arranged between the second grooves, first ring wire grooves in array distribution are formed in the groove rubber rollers, a third motor is arranged at one end of each groove rubber roller, a bearing seat in mirror image distribution is arranged on one side of the third support, an auxiliary plate is arranged on one side of the bearing seat, auxiliary rubber rollers are arranged between the bearing seats, second ring wire grooves in array distribution are arranged on the auxiliary rubber rollers, and synchronous belt wire grooves in array distribution are arranged on the first.

Further, the supporting component comprises supporting columns with mirror image distribution, supporting beams are arranged between the supporting columns, third grooves are formed in the supporting beams, first mounting plates are arranged on the supporting beams, first rotating shafts with array distribution are arranged in the supporting beams, second mounting plates with mirror image distribution are arranged below the supporting beams, sliding rods are arranged below the second mounting plates, and sliding rod sliding blocks are arranged on the sliding rods.

Further, lifting link assembly includes the second cylinder, second cylinder one end is equipped with the rotation base, the rotation base is fixed on first mounting panel, the second cylinder other end is equipped with the telescopic shaft, telescopic shaft one end is equipped with the installation piece, be equipped with first trompil on the installation piece, be equipped with the second pivot of mirror image distribution on the first connecting rod, the second pivot and the first trompil normal running fit of upper end, still be equipped with the second trompil on the first connecting rod, be equipped with the third trompil of mirror image distribution on the second connecting rod, be equipped with the fourth trompil of mirror image distribution on the third connecting rod, be equipped with the fifth trompil of mirror image distribution on the fourth connecting rod, the third trompil, fourth trompil and fifth trompil and second pivot normal running fit, the fourth trompil and the second trompil.

Further, the section subassembly includes the lifter plate, is equipped with the sixth trompil that the mirror image distributes on the lifter plate, and the slide bar slider is fixed in the sixth trompil, is equipped with the third pivot that the mirror image distributes on the lifter plate, and the fifth trompil and the third pivot normal running fit of lower extreme, lifter plate have the third mounting panel, are equipped with the cutter on the third mounting panel, and cutter one side is equipped with the pressfitting board, is equipped with array distribution's buffer spring on the pressfitting board, and buffer spring fixes in the lifter plate below.

Further, the processing and production process comprises the following steps:

step 1: passing the produced polypropylene film between the laminated plate and the lower pressing plate and then between the laminated plate and the lower pressing plate;

step 2: when the film cutting is not needed, the polypropylene film is flattened by the pressing rubber roll and the groove rubber roll, and is wound around the tensioning shaft, and finally the material is collected through the material collecting shaft;

and step 3: when the film is cut, the second cylinder pushes the first connecting rod in a reciprocating mode, the first connecting rod rotates around the second opening, the first connecting rod pushes the second connecting rod to move, the second connecting rod drives the fourth connecting rod to rotate, the fourth connecting rod drives the lifting plate to move, and the lifting plate slides up and down through the sliding rod sliding block and the sliding rod in a reciprocating mode to cut the film;

and 4, step 4: a third motor is started to drive the groove rubber roller to rotate, the groove rubber roller drives the auxiliary rubber roller to rotate, and the sliced polypropylene film enters the space between the press-fit rubber roller and the groove rubber roller through the synchronous belt to be pressed and flattened;

and 5: the flattened polypropylene film falls onto a conveying belt, and a first motor is started to drive the conveying belt to rotate for conveying.

The invention has the beneficial effects that:

1. the anti-drop ring is reliable in structure and practical in function, can effectively prevent the polypropylene film from deviating during material collection, and is good in material collection tensioning effect;

2. the automatic slicing machine has a good slicing effect, the polypropylene film can be tightly pressed by the pressing plate and the lower pressing plate during slicing, wrinkles are prevented from occurring during slicing, automatic conveying can be realized after slicing is completed, and the labor cost is reduced.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the structure of a processing and production apparatus of the present invention;

FIG. 2 is a schematic view of the receiving assembly of the present invention;

FIG. 3 is a schematic view of the conveyor assembly of the present invention;

FIG. 4 is a schematic structural view of the support assembly of the present invention;

FIG. 5 is a schematic view of the lifting link assembly of the present invention;

fig. 6 is a schematic view of the construction of the slicer assembly of the present invention.

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.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

The utility model provides a processing apparatus for producing of polypropylene film, processing apparatus for producing is including receiving material subassembly 1, as shown in fig. 1, fig. 3, fig. 4, fig. 5, fig. 6 shows, receive material subassembly 1 includes bottom support 11, be equipped with first board 12 and conveyer belt 142 on bottom support 11, conveyer belt 142 top is equipped with tensioning axle 152 and receives material axle 162, be equipped with conveying assembly 2 on the bottom support 11, conveying assembly 2 includes trough of belt rubber roll 24, trough of belt rubber roll 24 top is equipped with pressfitting rubber roll 23, trough of belt rubber roll 24 one side is equipped with supplementary rubber roll 26, first board 12 top is equipped with supporting component 3, supporting component 3 includes supporting beam 32, be equipped with lifting link assembly 4 in the supporting beam 32, lifting link assembly 4 includes first connecting rod 42, second connecting rod 43, third connecting rod 44 and fourth connecting rod 45, lifting link assembly 4 below is equipped with section subassembly.

The bottom bracket 11 is provided with first connecting blocks 13 distributed in a mirror image manner, as shown in fig. 2, the first support plate 12 is provided with a lower pressing plate 121, the bottom bracket 11 is further provided with first bearing seats 14 distributed in a mirror image manner, first rollers 141 are arranged between the first bearing seats 14, the first rollers 141 are provided with a conveyer belt 142 together, one end of each group of first rollers 141 is provided with a first motor 143, the bottom bracket 11 is further provided with first brackets 15 distributed in a mirror image manner, the first brackets 15 are provided with second bearing seats 151, tensioning shafts 152 are arranged between the second bearing seats 151, the tensioning shafts 152 are provided with first anti-drop rings 153 distributed in a mirror image manner, one side of each first bracket 15 is provided with a second bracket 16 distributed in a mirror image manner, the second brackets 16 are also fixed on the bottom bracket 11, the second brackets 16 are provided with third bearing seats 161 distributed in a mirror image manner, material receiving shafts 162 are arranged between the third bearing seats 161, the material receiving shafts 162 are provided with second anti-, one end of the material receiving shaft 162 is provided with a second motor 164.

The conveying assembly 2 comprises third supports 21 distributed in a mirror image manner, as shown in fig. 3, the third supports 21 are respectively provided with a first open groove 211, first slide rails 212 distributed in a mirror image manner are arranged in the first open groove 211, the third supports 21 are respectively provided with a second open groove 213, the third supports 21 are respectively provided with a first air cylinder 22, the lower end of the first air cylinder 22 is provided with a connecting ring 221, a sliding block 222 is arranged below the connecting ring 221, the sliding block 222 is in sliding fit with the first slide rails 212, the sliding block 222 is internally provided with a first bearing 223, a press-fit rubber roller 23 is arranged between the first bearings 223, a slot rubber roller 24 is arranged between the second open grooves 213, the slot rubber roller 24 is provided with first loop grooves 241 distributed in an array manner, one end of the slot rubber roller 24 is provided with a third motor 242, one side of the third supports 21 is provided with bearing seats 25 distributed in a mirror image manner, one side of the bearing seats 25 are provided with an auxiliary plate 251 together, the first ring line groove 241 and the second ring line groove 261 are provided with synchronous belts 262 distributed in an array.

The supporting component 3 includes supporting columns 31 distributed in a mirror image manner, as shown in fig. 4, a supporting beam 32 is arranged between the supporting columns 31, a third opening 321 is arranged in the supporting beam 32, a first mounting plate 33 is arranged on the supporting beam 32, first rotating shafts 34 distributed in an array manner are arranged in the supporting beam 32, a second mounting plate 35 distributed in a mirror image manner is arranged below the supporting beam 32, sliding rods 36 are arranged below the second mounting plate 35, and sliding rod sliders 361 are arranged on the sliding rods 36.

The lifting link assembly 4 includes a second cylinder 41, as shown in fig. 5, one end of the second cylinder 41 is provided with a rotating base 411, the rotating base 411 is fixed on the first mounting plate 33, the other end of the second cylinder 41 is provided with a telescopic shaft 412, one end of the telescopic shaft 412 is provided with a mounting block 413, the mounting block 413 is provided with a first opening 414, the first link 42 is provided with a second rotating shaft 421 distributed in a mirror image manner, the second rotating shaft 421 at the upper end is rotatably matched with the first opening 414, the first link 42 is further provided with a second opening 422, the second link 43 is provided with a third opening 431 distributed in a mirror image manner, the third link 44 is provided with a fourth opening 441 distributed in a mirror image manner, the fourth link 45 is provided with a fifth opening 451 distributed in a mirror image manner and a third, the fourth opening 441 and the fifth opening 451 are rotatably engaged with the second shaft 421, and the fourth opening 441 and the second opening 422 at the upper end are rotatably engaged with the first shaft 34.

The slicing assembly 5 comprises a lifting plate 51, as shown in fig. 6, a sixth opening 511 with mirror image distribution is arranged on the lifting plate 51, a sliding rod slider 361 is fixed in the sixth opening 511, a third rotating shaft 512 with mirror image distribution is arranged on the lifting plate 51, a fifth opening 451 at the lower end is in running fit with the third rotating shaft 512, a third mounting plate 52 is arranged below the lifting plate 51, a cutter 53 is arranged on the third mounting plate 52, a pressing plate 54 is arranged on one side of the cutter 53, buffer springs 541 with array distribution are arranged on the pressing plate 54, and the buffer springs 541 are fixed below the lifting plate 51.

A processing and production process of a polypropylene film comprises the following steps:

step 1: passing the produced polypropylene film between the pressing plate 54 and the lower pressing plate 121, and then between 23 and 24;

step 2: when the film cutting is not needed, the laminating rubber roller 23 and the groove rubber roller 24 flatten the polypropylene film, pass around the tensioning shaft 152, and finally receive the material through the material receiving shaft 162;

and step 3: when the film is cut, the second cylinder 41 pushes the first connecting rod 42 in a reciprocating manner, the first connecting rod 42 rotates around the second opening 422, the first connecting rod 42 pushes the second connecting rod 43 to move, the second connecting rod 43 drives the fourth connecting rod 45 to rotate, the fourth connecting rod 45 drives the lifting plate 51 to move, and the lifting plate 51 slides up and down in a reciprocating manner through the sliding rod slider 361 and the sliding rod 36 to cut the film;

and 4, step 4: the third motor 242 is started to drive the slot rubber roller 24 to rotate, the slot rubber roller 24 drives the auxiliary rubber roller 26 to rotate, and the sliced polypropylene film enters the space between the laminating rubber roller 23 and the slot rubber roller 24 through the synchronous belt 262 to be flattened;

and 5: the flattened polypropylene film falls onto the conveying belt 142, and the first motor 143 is started to drive the conveying belt 142 to rotate for conveying.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. The utility model provides a processing apparatus for producing of polypropylene film, processing apparatus for producing is including receiving material subassembly (1), a serial communication port, receive material subassembly (1) including bottom support (11), be equipped with first extension board (12) and conveyer belt (142) on bottom support (11), conveyer belt (142) top is equipped with tensioning axle (152) and receives material axle (162), be equipped with on bottom support (11) and transport assembly (2), transport assembly (2) are including trough of belt rubber roll (24), trough of belt rubber roll (24) top is equipped with pressfitting rubber roll (23), trough of belt rubber roll (24) one side is equipped with supplementary rubber roll (26), first extension board (12) top is equipped with supporting component (3), supporting component (3) are including supporting beam (32), be equipped with lifting link assembly (4) in supporting beam (32), lifting link assembly (4) are including first connecting rod (42), second connecting rod (43), A third connecting rod (44), a fourth connecting rod (45) and a slicing component (5) are arranged below the lifting connecting rod component (4).

2. The processing and production device of the polypropylene film as claimed in claim 1, wherein the bottom bracket (11) is provided with first connecting blocks (13) distributed in a mirror image manner, the first support plate (12) is provided with a lower pressing plate (121), the bottom bracket (11) is further provided with first bearing seats (14) distributed in a mirror image array manner, first rollers (141) are arranged between the first bearing seats (14), the first rollers (141) are provided with a conveying belt (142) together, one end of one group of first rollers (141) is provided with a first motor (143), the bottom bracket (11) is further provided with first brackets (15) distributed in a mirror image manner, the first brackets (15) are provided with second bearing seats (151), tensioning shafts (152) are arranged between the second bearing seats (151), the tensioning shafts (152) are provided with first anti-drop rings (153) distributed in a mirror image manner, one side of the first brackets (15) is provided with second brackets (16) distributed in a mirror image manner, the second support (16) is fixed on the bottom support (11) in the same way, third bearing seats (161) distributed in a mirror image mode are arranged on the second support (16), a material receiving shaft (162) is arranged between the third bearing seats (161), a second anti-drop ring (163) distributed in a mirror image mode is arranged on the material receiving shaft (162), and a second motor (164) is arranged at one end of the material receiving shaft (162).

3. The processing and production device of the polypropylene film as claimed in claim 1, wherein the conveying assembly (2) comprises third supports (21) distributed in a mirror image manner, the third supports (21) are respectively provided with a first open groove (211), the first open grooves (211) are internally provided with first slide rails (212) distributed in a mirror image manner, the third supports (21) are respectively provided with a second open groove (213), the third supports (21) are respectively provided with a first air cylinder (22), the lower ends of the first air cylinders (22) are provided with a connecting ring (221), a sliding block (222) is arranged below the connecting ring (221), the sliding block (222) is in sliding fit with the first slide rails (212), the sliding block (222) is internally provided with a first bearing (223), a press-fit rubber roller (23) is arranged between the first bearings (223), a slot rubber roller (24) is arranged between the second open grooves (213), the slot rubber rollers (24) are provided with first loop grooves (241) distributed in an array manner, groove rubber roll (24) one end is equipped with third motor (242), and third support (21) one side is equipped with bearing frame (25) that the mirror image distributes, and bearing frame (25) one side is equipped with accessory plate (251) jointly, is equipped with between bearing frame (25) supplementary rubber roll (26), is equipped with second ring wire groove (261) that the array distributes on supplementary rubber roll (26), is equipped with hold-in range (262) that the array distributes jointly on first ring wire groove (241) and second ring wire groove (261).

4. The processing production device of the polypropylene film as claimed in claim 1, wherein the supporting assembly (3) comprises supporting columns (31) distributed in a mirror image manner, supporting beams (32) are arranged between the supporting columns (31), a third slot (321) is arranged in each supporting beam (32), a first mounting plate (33) is arranged on each supporting beam (32), first rotating shafts (34) distributed in an array manner are arranged in each supporting beam (32), second mounting plates (35) distributed in a mirror image manner are arranged below each supporting beam (32), sliding rods (36) are arranged below each second mounting plate (35), and sliding rod sliders (361) are arranged on each sliding rod (36).

5. The processing and production device of polypropylene film as claimed in claim 1, wherein the lifting link assembly (4) comprises a second cylinder (41), one end of the second cylinder (41) is provided with a rotating base (411), the rotating base (411) is fixed on the first mounting plate (33), the other end of the second cylinder (41) is provided with a telescopic shaft (412), one end of the telescopic shaft (412) is provided with a mounting block (413), the mounting block (413) is provided with a first opening (414), the first link (42) is provided with a second rotating shaft (421) distributed in a mirror image manner, the second rotating shaft (421) at the upper end is rotatably matched with the first opening (414), the first link (42) is further provided with a second opening (422), the second link (43) is provided with a third opening (431) distributed in a mirror image manner, the third link (44) is provided with a fourth opening (441) distributed in a mirror image manner, the fourth connecting rod (45) is provided with fifth openings (451) distributed in a mirror image mode, the third openings (431), the fourth openings (441) and the fifth openings (451) are in running fit with the second rotating shaft (421), and the fourth openings (441) at the upper end are in running fit with the second openings (422) and the first rotating shaft (34).

6. The processing production device of the polypropylene film as claimed in claim 1, wherein the slicing assembly (5) comprises a lifting plate (51), a sixth opening (511) with mirror image distribution is formed in the lifting plate (51), a sliding rod slider (361) is fixed in the sixth opening (511), a third rotating shaft (512) with mirror image distribution is formed in the lifting plate (51), a fifth opening (451) at the lower end is rotatably matched with the third rotating shaft (512), a third mounting plate (52) is arranged below the lifting plate (51), a cutter (53) is arranged on the third mounting plate (52), a pressing plate (54) is arranged on one side of the cutter (53), buffer springs (541) distributed in an array are arranged on the pressing plate (54), and the buffer springs (541) are fixed below the lifting plate (51).

7. The processing and production process of the processing and production device for the polypropylene film as claimed in any one of claims 1 to 6, wherein the processing and production process comprises the following steps:

step 1: passing the finished polypropylene film between the laminated plate (54) and the lower pressing plate (121), and then between (23) and (24);

step 2: when the film cutting is not needed, the pressing rubber roller (23) and the groove rubber roller (24) flatten the polypropylene film, pass around the tensioning shaft (152), and finally receive the material through the material receiving shaft (162);

and step 3: when the film is cut, the second cylinder (41) pushes the first connecting rod (42) in a reciprocating mode, the first connecting rod (42) rotates around the second opening (422), the first connecting rod (42) pushes the second connecting rod (43) to move, the second connecting rod (43) drives the fourth connecting rod (45) to rotate, the fourth connecting rod (45) drives the lifting plate (51) to move, and the lifting plate (51) slides up and down in a reciprocating mode through the sliding rod sliding block (361) and the sliding rod (36) to cut the film;

and 4, step 4: the third motor (242) is started to drive the groove rubber roller (24) to rotate, the groove rubber roller (24) drives the auxiliary rubber roller (26) to rotate, and the sliced polypropylene film enters the space between the laminating rubber roller (23) and the groove rubber roller (24) through the synchronous belt (262) to be flattened;

and 5: the flattened polypropylene film falls onto the conveying belt (142), and the first motor (143) is started to drive the conveying belt (142) to rotate and convey.