CN110712332A - Casting machine for processing antirust film - Google Patents

Abstract

The invention discloses a casting machine for processing an antirust film, which structurally comprises a rack, a discharging roller, a leveling box, a film manufacturing structure, a receiving roller and an electric box, wherein the discharging roller is installed at the upper end of the rack; the film manufacturing structure comprises a feed box, a feed inlet, a drying and stripping structure, a fan and a winding roller, wherein the feed inlet is arranged above the feed box and is of an integrated structure, the drying and stripping structure is arranged below the feed box, and air is blown out of an air blowing port to assist a stripping block to strip an antirust film and a carrier film while scraping, so that the antirust film is prevented from being broken when devices are directly contacted and stripped, and the quality of the whole bundle of antirust film is improved.

Description

Casting machine for processing antirust film

Technical Field

The invention belongs to the field of film processing, and particularly relates to a casting machine for processing an antirust film.

Background

The antirust film is a film prepared by mixing antirust components and polyethylene, and is mainly used for wrapping some antirust equipment parts, and the tape casting mainly melts and mixes the antirust components and the polyethylene, and uniformly coats a carrier film for conveying, heating, evaporating and forming, and then primary forming and winding of the antirust film can be completed, but the prior art has the following defects:

the raw materials contain the adhesive, so when the raw materials are adhered to a carrier film for evaporation molding, the raw materials are easy to adhere to the carrier film, so that the antirust film is easy to be difficult to separate due to adhesion on the carrier film in the stripping process, the antirust film is easy to break in the stripping process, and the quality of the whole bundle of antirust film is further influenced.

The application provides a casting machine for processing the antirust film, and the defects are improved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a casting machine for processing an antirust film, which solves the problems that the raw materials in the prior art contain a binder, and the raw materials are easy to adhere to a carrier film when being adhered to the carrier film for evaporation molding, so that the antirust film is difficult to separate because of being adhered to the carrier film in the stripping process, the antirust film is easy to break in the stripping process, and the quality of the whole bundle of antirust film is further influenced.

In order to achieve the purpose, the invention is realized by the following technical scheme: a casting machine for processing an antirust film structurally comprises a rack, a discharging roller, a leveling box, a film manufacturing structure, a material receiving roller and an electric box, wherein the discharging roller is installed at the upper end of the rack and is in mechanical connection; the film manufacturing structure comprises a material box, a feed inlet, a drying stripping structure, a fan and a winding roller, wherein the feed inlet is arranged above the material box and is of an integrated structure, the material box is vertically arranged on the left side above the drying stripping structure, the fan is embedded into the right side above the drying stripping structure, and the winding roller is arranged on the upper end of the drying stripping structure and is positioned above the fan.

The invention is further improved, the drying and stripping structure comprises a drying box, a connecting port, a stripping structure, an antirust film, a driven roller and a carrier film, the connecting port penetrates through the left side above the drying box, the stripping structure is embedded and mounted on the right side of the inner side of the drying box, the antirust film penetrates through the stripping structure and is wound on the winding roller, and the carrier film is arranged on the outer side of the driven roller and is wound on the outer side of the collecting roller.

The invention is further improved, the stripping structure comprises a case, an air suction box, a film stripping mechanism, a bottom plate and an inlet, the air suction box is embedded in the case and is mechanically connected, the film stripping mechanism is installed on the surface of the inner side of the case, the bottom plate is horizontally installed on the surface of the inner side of the case, the inlet penetrates through the left side of the case and is positioned above the left side of the bottom plate, and the carrier film is arranged at the upper end of the bottom plate.

The film peeling mechanism is further improved, the film peeling mechanism comprises an air blowing peeling structure, a spring, a rotary disc, a rotary shaft and a compression block, the spring is located on the inner side of the air blowing peeling structure, the rotary disc is embedded and installed inside the air blowing peeling structure and is movably connected, the rotary shaft penetrates through the inner side of the rotary disc, the compression block is installed on the outer surface of the rotary disc, one end of the spring abuts against the inner side of the compression block, and the other end of the spring abuts against the inner side surface of the machine box.

The invention is further improved, the air blowing stripping structure comprises a stripping block, a connecting pipe, an arc edge and an air blowing opening, the connecting pipe is embedded and installed on the inner side of the right end of the stripping block and is connected with the stripping block in a threaded mode, the arc edge is arranged on the left side of the stripping block and is of an integrated structure, and the air blowing opening penetrates through the left side of the arc edge and is communicated with the connecting pipe.

The invention is further improved, the upper end of the bottom plate is provided with a plurality of air holes which are evenly distributed, and the holes at the upper end of the carrier film are attached above the air holes.

According to the technical scheme, the casting machine for processing the antirust film has the following beneficial effects:

the invention arranges a drying stripping structure below a feed box, uses a carrier film to drive an antirust film to come above a bottom plate, and sucks air through the matching of a fan and an air suction box, so that air flow moves upwards from air holes of the bottom plate, the antirust film is blown to be separated from the carrier film through small holes on the carrier film and then continuously moves to the outer side of a film stripping mechanism, the antirust film and the carrier film are respectively positioned at two sides of the film stripping mechanism, the whole air blowing stripping structure flexibly changes under the matching of a spring and a turntable according to the positions of the antirust film and the carrier film to scrape the distance between the antirust film and the carrier film, and an external air pipe blows air from a connecting pipe to blow out an auxiliary stripping block from an air blowing port to strip the antirust film and the carrier film for multiple times, and utilizes the air to carry out auxiliary stripping, the anti-rust film is prevented from cracking when the device is directly peeled off by contact, thereby improving the quality of the whole bundle of anti-rust film.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a casting machine for processing an anti-rust film according to the present invention;

FIG. 2 is a schematic structural diagram of a thin film fabrication structure according to the present invention;

FIG. 3 is a schematic structural diagram of a drying and peeling structure according to the present invention;

FIG. 4 is a schematic structural view of a lift-off structure according to the present invention;

FIG. 5 is a schematic structural diagram of a film peeling mechanism according to the present invention;

FIG. 6 is a schematic diagram of a front view of the air-blown peeling structure of the present invention;

FIG. 7 is a schematic side view of the air-blown peeling structure of the present invention;

fig. 8 is a schematic structural diagram of the base plate of the present invention.

In the figure: a frame-1, a feeding roller-2, a paving box-3, a film manufacturing structure-4, a receiving roller-5, an electric box-6, a bin-41, a feed inlet-42, a drying stripping structure-43, a fan-44, a take-up roller-45, a drying box-431, a connecting port-432, a stripping structure-433, an antirust film-434, a driven roller-435, a carrier film-436, a case-3 a, an air suction box-3 b, a film stripping mechanism-3 c, a bottom plate-3 d, an inlet-3 e, an air blowing stripping structure-3 c1, a spring-3 c2, a turntable-3 c3, a rotating shaft-3 c4, a compression block-3 c5, a stripping block-c 11, a connecting pipe-c 12, an arc edge-c 13, an air blowing port-c 14, Air vent-3 d 1.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-8, the embodiments of the present invention are as follows:

the structure of the device comprises a rack 1, a discharging roller 2, a leveling box 3, a film manufacturing structure 4, a receiving roller 5 and an electric box 6, wherein the discharging roller 2 is mounted at the upper end of the rack 1 and is mechanically connected, the leveling box 3 is horizontally mounted at the upper end of the rack 1, the film manufacturing structure 4 is mechanically connected to the upper end of the rack 1 and is arranged at the right side of the leveling box 3, the receiving roller 5 is mounted at the upper end of the rack 1 and is mechanically connected, and the electric box 6 is connected to the front of the rack 1 through a bolt and is electrically connected with the film manufacturing structure 4; film manufacturing structure 4 includes workbin 41, feed inlet 42, stoving peel structure 43, fan 44, roll-up roller 45, feed inlet 42 is located workbin 41 top and structure as an organic whole, workbin 41 is vertical to be installed in stoving peel structure 43 top left side, fan 44 is embedded in stoving peel structure 43 top right side, roll-up roller 45 is installed in stoving peel structure 43 upper end and is located the fan 44 top.

Referring to fig. 3, the drying and peeling structure 43 includes a drying box 431, a connection port 432, a peeling structure 433, an antirust film 434, a driven roller 435, and a carrier film 436, the connection port 432 is disposed on the left side above the drying box 431, the peeling structure 433 is inserted into and mounted on the right side of the inner side of the drying box 431, the antirust film 434 is disposed on the peeling structure 433 and wound around the take-up roller 45, and the carrier film 436 is disposed on the outer side of the driven roller 435 and wound around the outer side of the take-up roller 5.

Referring to fig. 4, the peeling structure 433 includes a case 3a, an air suction box 3b, a thin film peeling mechanism 3c, a bottom plate 3d, and an inlet 3e, the air suction box 3b is embedded in the inner side of the case 3a and is mechanically connected, the thin film peeling mechanism 3c is installed on the inner side surface of the case 3a, the bottom plate 3d is horizontally installed on the inner side surface of the case 3a, the inlet 3e penetrates through the left side of the case 3a and is located above the left side of the bottom plate 3d, a carrier film 436 is arranged at the upper end of the bottom plate 3d, and is primarily peeled by matching the air suction box 3b with a fan 44, and then further glass is peeled by the thin film peeling mechanism.

Referring to fig. 5, the film peeling mechanism 3c includes an air-blowing peeling mechanism 3c1, a spring 3c2, a rotary plate 3c3, a rotary shaft 3c4, and a compression block 3c5, wherein the spring 3c2 is located inside the air-blowing peeling mechanism 3c1, the rotary plate 3c3 is embedded inside the air-blowing peeling mechanism 3c1 and movably connected, the rotary shaft 3c4 penetrates inside the rotary plate 3c3, the compression block 3c5 is installed on the outer surface of the rotary plate 3c3, one end of the spring 3c2 abuts against the inside of the compression block 3c5, the other end abuts against the inner surface of the chassis 3a, the spring is embedded between the rust-proof film 434 and the carrier film 436 to perform scraping peeling, and the spring 3c2 is compressed to perform deflection adaptation of the whole air-blowing peeling mechanism 3c1 according to the angle between the rust-proof film 434 and the.

Referring to fig. 6-7, the air blowing stripping structure 3c1 includes a stripping block c11, a connecting pipe c12, an arc edge c13, and an air blowing port c14, wherein the connecting pipe c12 is inserted into the right inner side of the stripping block c11 and is connected by a screw, the arc edge c13 is provided at the left side of the stripping block c11 and is an integrated structure, the air blowing port c14 penetrates through the left side of the arc edge c13 and is communicated with the connecting pipe c12, and air is blown between the anti-rust film 434 and the carrier film 436, so that the stripping is easier.

Referring to fig. 8, the bottom plate 3d is provided at the upper end thereof with a plurality of ventilation holes 3d1 uniformly distributed, the hole at the upper end of the carrier film 436 is attached above the ventilation hole 3d1, and when the suction box 3b sucks air, the air penetrates through the ventilation hole 3d1 and penetrates through the hole at the upper end of the carrier film 436 to peel off the antirust film 434.

Based on the above embodiment, the specific working principle is as follows:

firstly, winding a carrier film 436 on a discharging roller 2, pulling out one end of the carrier film 436 to a material receiving roller 5, winding, electrifying, turning on the power by an electric box 6, and then starting to work, pouring the raw material for manufacturing the antirust film 434 into a bin 41 from a feeding port 42, at this time, seeping the material from below a connecting port 432 and uniformly spreading the material on the upper end of the carrier film 436, at the same time, the discharging roller continuously discharges the carrier film 436 and the material receiving roller 5 collects, the carrier film 436 at the upper end is continuously moved to the right, at this time, the antirust film 434 is formed by drying through a drying box 431, then, the carrier film 436 is brought into the inner side of a peeling structure 433 from an inlet 3e, the carrier film 436 takes the antirust film 434 to the upper side of a bottom plate 3d, and air is sucked through the cooperation of a fan 44 and an air suction box 3b, so that the air flow moves upwards from an air vent 3d1 of, then, the film is continuously moved to the outside of the film peeling mechanism 3c, at this time, the rust-proof film 434 and the carrier film 436 are respectively located at two sides of the film peeling mechanism 3c, the whole blowing peeling mechanism 3c1 is flexibly changed under the cooperation of the spring 3c2 and the rotating disc 3c3 according to the positions of the rust-proof film 434 and the carrier film 436, so as to scrape the distance between the rust-proof film 434 and the carrier film 436, and at the same time of scraping, an external air pipe blows air from the connecting pipe c12 and blows air out from the blowing port c14 to assist the peeling block c11 to peel the rust-proof film 434 from the carrier film 436.

The invention solves the problems that the raw materials are easy to stick on a carrier film when being adhered on the carrier film and subjected to evaporation molding, so that the antirust film is difficult to separate because of being stuck on the carrier film in the stripping process, and the antirust film is easy to break when being stripped, thereby affecting the quality of the whole bundle of antirust film in the prior art, the invention adopts the mutual combination of the components, the drying stripping structure is arranged below a material box, the carrier film drives the antirust film to come above a bottom plate, and air is sucked by the matching of a fan and an air suction box, so that air flow moves upwards from air holes of the bottom plate, the antirust film is blown to separate from the carrier film through small holes on the carrier film and then continuously moves to the outer side of a film stripping mechanism, and the antirust film and the carrier film are respectively positioned at two sides of the film stripping mechanism, according to the positions of the antirust film and the carrier film, the whole air blowing stripping structure flexibly changes under the matching of the spring and the rotary disc to scrape the distance between the antirust film and the carrier film, and an external air pipe blows air from the connecting pipe and blows the air out of the air blowing port to assist the stripping block to strip the antirust film and the carrier film during scraping, so that the film is stripped for multiple times, and the air is utilized for assisting stripping to prevent the antirust film from cracking when a device is directly contacted and stripped, thereby improving the quality of the whole bundle of antirust film.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. A casting machine for processing an antirust film structurally comprises a rack (1), a discharging roller (2), a leveling box (3), a film manufacturing structure (4), a receiving roller (5) and an electric box (6), wherein the discharging roller (2) is installed at the upper end of the rack (1), the leveling box (3) is horizontally installed at the upper end of the rack (1), the film manufacturing structure (4) is mechanically connected to the upper end of the rack (1) and is arranged on the right side of the leveling box (3), the receiving roller (5) is installed at the upper end of the rack (1), and the electric box (6) is connected to the front side of the rack (1) through bolts; the method is characterized in that:

film manufacturing structure (4) are including workbin (41), feed inlet (42), stoving peeling structure (43), fan (44), roll-up roller (45), workbin (41) top is located in feed inlet (42), workbin (41) are vertical to be installed in stoving peeling structure (43) top left side, fan (44) are embedded in stoving peeling structure (43) top right side, roll-up roller (45) are installed in stoving peeling structure (43) upper end.

2. The casting machine for processing a rust-preventive film according to claim 1, characterized in that: drying peeling structure (43) including stoving case (431), connector (432), peeling structure (433), rust-resistant film (434), driven roller (435), carrier membrane (436), stoving case (431) top left side is run through has connector (432), peeling structure (433) embedding is installed in stoving case (431) inboard right-hand side, rust-resistant film (434) run through in peeling structure (433), the carrier membrane (436) is located the driven roller (435) outside.

3. The casting machine for processing a rust-preventive film according to claim 2, characterized in that: peeling structure (433) include quick-witted case (3 a), case (3 b) induced drafts, film peeling means (3 c), bottom plate (3 d), import (3 e), it is inboard in quick-witted case (3 a) to induced drafts case (3 b), film peeling means (3 c) are installed in quick-witted case (3 a) interior side surface, bottom plate (3 d) horizontal installation is in quick-witted case (3 a) interior side surface, import (3 e) run through in quick-witted case (3 a) left side, bottom plate (3 d) upper end is located in carrier membrane (436).

4. The casting machine for processing a rust-preventive film according to claim 3, characterized in that: film peeling means (3 c) including blowing peeling means (3 c 1), spring (3 c 2), carousel (3 c 3), pivot (3 c 4), compression piece (3 c 5), spring (3 c 2) are located blowing peeling means (3 c 1) inboard, carousel (3 c 3) embedding is installed inside blowing peeling means (3 c 1), pivot (3 c 4) run through inside carousel (3 c 3), compression piece (3 c 5) are installed in carousel (3 c 3) surface, spring (3 c 2) one end is supported at compression piece (3 c 5) inboard, and the other end is supported at quick-witted case (3 a) inside surface.

5. The casting machine for processing a rust-preventive film according to claim 4, characterized in that: the air blowing stripping structure (3 c 1) comprises a stripping block (c 11), a connecting pipe (c 12), an arc edge (c 13) and an air blowing port (c 14), wherein the connecting pipe (c 12) is embedded in the inner side of the right end of the stripping block (c 11), the arc edge (c 13) is arranged on the left side of the stripping block (c 11), and the air blowing port (c 14) penetrates through the left side of the arc edge (c 13) and is communicated with the connecting pipe (c 12).

6. The casting machine for processing a rust-preventive film according to claim 3, characterized in that: the upper end of the bottom plate (3 d) is provided with a plurality of air holes (3 d 1) which are evenly distributed, and the holes at the upper end of the carrier film (436) are attached above the air holes (3 d 1).

Images