KR102217097B1 - Material Overlapping System for Composite Film Formation - Google Patents

Abstract

The present invention relates to a raw material overlapping device for a composite film molding machine, which cuts a composite raw material on which different raw materials are laminated and then overlaps the same in two stages. According to the present invention, the raw materials laminated only by passing the composite raw materials are doubled, the composite raw materials can be easily separated by forming inclined parts inclined in the front-rear direction on both sides of an upper part where the composite raw materials enter, and the separated composite raw materials are stuck and are easily integrated by forming an inwardly inclined adhesion induction surface and an adhesion induction protrusion unit at a lower part where the composite raw materials are discharged.

Description

Material Overlapping System for Composite Film Formation}

The present invention relates to a raw material superimposing device for a multi-film molding machine, and more particularly, for a multi-film molding machine in which the front and rear inclined portions and the front and rear transfer paths in different directions are formed so that the composite raw materials stacked with different raw materials are doubled by only vertical passage. It relates to a material overlapping device.

In general, a multi-layer film is a multilayer film through a feedblock method or a multi-manifold method by melting raw materials such as different or similar resins through a plurality of extruders. It refers to a multi-layered film made through a longitudinal stretching process and a biaxial stretching process, which is a transverse stretching process, after being discharged in a molten state.

In this way, the use of the multilayer film, which is a multilayer film, is to complement the shortcomings of a single layer film composed of a single material or to be used in a high-performance film product that requires a combination of different properties.

Korean Patent No. 10-0280017 has been disclosed as a technical document related to a conventional multi-film manufacturing apparatus for manufacturing such a multi-film, and Fig. 1 is a view showing a multi-film manufacturing apparatus.

Here, looking at a conventional apparatus for manufacturing a composite film, as shown in FIG. 1, a plurality of extruder units 30 for melting and supplying raw materials having different characteristics, and the raw materials supplied from the extruder unit 30 Consisting of a plurality of moving supply pipe parts 20 and an extrusion die part 50 that receives raw materials from the supply pipe part 20 and discharges them in a sheet shape, the raw materials having different characteristics are melted and introduced. It is moved to the extrusion die part 50, and layered layers are stacked in the extrusion die part 50 to manufacture a multilayered composite film.

On the other hand, the conventional composite film can further improve the function of the composite film by increasing the number of raw materials supplied, but in order to manufacture it, the quantity of the extruder part 30 is first unnecessarily increased, thus increasing the size of the manufacturing apparatus. There was a problem.

In addition, in order to laminate the conventional composite film in multiple layers, the conventional extrusion die part 50 is duplicated in the discharge part, that is, a plurality of extrusion die parts 50 are arranged in series, so that the manufacturing cost and molding time of the manufacturing apparatus There was a problem of this unnecessarily increasing.

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to construct a raw material superimposing device for a multi-film forming machine that cuts a composite raw material stacked with different raw materials and then overlaps it in two stages. The stacked raw materials are doubled by only passing the raw materials, and the composite raw materials are easily separated by forming an inclined part that is inclined in the front and rear directions at the top where the composite raw material enters, and the composite raw material is inclined inward at the bottom where the composite raw material is discharged. It is to provide a raw material superimposing device for a multi-film forming machine that can be easily integrated by forming a close contact guide surface and a close contact guide protrusion to closely contact the separated composite raw material.

The raw material overlapping device for a composite film forming machine according to the present invention for achieving the above object is a raw material stacking device for a composite film forming machine that cuts and overlaps the composite raw material in which different raw materials are stacked in two stages. A central housing passing through, a front housing covering a front surface of the central housing, and a rear housing covering a rear surface of the central housing; The central housing includes a square block-shaped central body that is in close contact between the front housing and the rear housing, a front inclined portion inclined forward to an upper surface of one side of the central body, and penetrated downward from the lower end of the front inclined portion. The composite at the front transfer path, the rear slope inclined rearward on the upper surface of the other side of the central body, the rear transfer path penetrating downward from the lower end of the rear slope, and the contact portion of the front slope and the rear slope It is characterized in that it consists of a cutting and separating blade for cutting the raw material and transferring it by dividing it into the forward and rear transfer paths.

The inner side of the forward transfer path is curved in one direction so that the width of the composite material to be transferred increases in the X-axis direction, and an extended forward transfer expansion surface is formed; The inner side of the rear transfer path is curved in the other direction so that the width of the composite material to be transferred is increased in the X-axis direction, and an extended rear transfer expansion surface is formed.

The front slope and the rear slope are characterized in that the curved slope portion is formed in a curved shape so as to smoothly bend the descending composite material.

A close contact guide surface inclined inward is formed at the lower end of the central housing so that the composite raw materials moved in the forward and rear transfer paths are in close contact with each other.

It is characterized in that the inclined and protruding close contact guide protrusions are formed at the inner lower ends of the front and rear housings so that the composite material moved in the front and rear transfer paths moves in the inward direction.

As described above, the raw material overlapping device for a multi-film forming machine according to the present invention has the following effects.

First, by configuring a raw material superimposing device for a multi-film forming machine that cuts and overlaps the composite raw material in which different raw materials are stacked in two stages, it is possible to double the stacked raw materials by passing the composite raw materials.

Second, by forming a cutting and separating blade on the upper part of the raw material nesting device to separate the composite raw material forward and backward, the supplied composite raw material can be easily separated in half and then moved forward and backward.

Third, by forming the front slope and the rear slope on the upper part of the central body, the cut composite material can be accurately guided in the directions of the forward and rear transport paths,

Fourth, by forming the front and rear inclined portions as curved curved inclined portions, the composite raw materials can be easily moved by smoothing the bending of the falling composite raw materials.

Fifth, by forming a close contact guide surface inclined in the inward direction and a pair of contact guide protrusions protruding in the inward direction at the bottom of the raw material nesting device, the direction can be easily guided so that the composite material that has been divided in the front and rear is collected in the inside There is an effect.

1 is a view showing a conventional composite film manufacturing apparatus,
2 is a configuration diagram showing the installation state of the raw material superposition apparatus according to the present invention,
3 is a perspective view and an exploded perspective view showing the upper portion of the raw material overlapping device according to the present invention,
4 is a perspective view and an exploded perspective view showing a lower portion of the raw material nesting device according to the present invention,
Figure 5 is a front and side view showing that the composite raw material is introduced into the raw material nesting device according to the present invention,
Figure 6 is a front and side view showing that the composite raw material is cut and moved in the raw material nesting device according to the present invention,
Figure 7 is a front and side view showing that the composite raw material is superimposed on the raw material nesting device according to the present invention,
FIG. 8 is an enlarged view of A and B shown in FIG. 7,
9 is an enlarged view of the enlarged portion shown in FIG. 5 as another embodiment of the present invention,
10 is an enlarged view of C shown in FIG. 6 on an enlarged scale.

Hereinafter, an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The raw material overlapping device for a composite film molding machine according to the present invention is a raw material overlapping device for a composite film molding machine 100 that cuts and overlaps the composite raw material F in which different raw materials (P1, P2, P3) are stacked in two stages. 2 to 8, a central housing 110 for passing the composite material F in a vertical direction, a front housing 120 for covering the front surface of the central housing 110, and the center It is composed of a rear housing 130 covering the rear surface of the housing 110.

Here, the central housing 110 has a square block-shaped central body 111 that is in close contact between the front housing 120 and the rear housing 130, and is inclined forward to the upper surface of one side of the central body 111. A photograph of the front inclined part 112, the forward transfer path 113 penetrating downward from the lower end of the front inclined part 112, and the rear inclined part inclined rearward on the upper surface of the other side of the central body 111 ( 114), and the rear transfer path 115 penetrating downward from the lower end of the rear inclined portion 114, and the composite material (F) at the contact portion between the front inclined portion 112 and the rear inclined portion 114. ) Is cut and divided into the front transfer path 113 and the rear transfer path 115, and is made of a cutting and separation blade 116 for transferring.

On the other hand, the front housing 100 to the rear housing 300 is formed with a through hole (not shown) that penetrates in one direction so as to be mutually coupled, and a bolt is preferably fastened to the through hole (not shown).

In addition, a front transfer expansion surface 113a is formed on the inner surface of the forward transfer path 113, curved in one direction so that the width of the transferred composite material F increases in the X-axis direction and extended; On the inner side of the rear transfer path 115, a rear transfer expansion surface 115a is formed that is curved and extended in the other direction so that the width of the transferred composite material F increases in the X-axis direction.

In addition, the front inclined portion 112 and the rear inclined portion 114 are formed with a curved inclined portion 117 curved in a curved shape to facilitate bending of the falling composite material F as shown in FIG. do.

And, as shown in Fig. 10, the lower end of the central housing 110 is inclined in close contact with the composite raw material (F) moved in the front transfer path 113 and the rear transfer path 115 to each other. Guiding surface 118 is formed.

In addition, at the inner lower end of the front housing 120 and the rear housing 130, the composite material (F) moved in the front transfer path 113 and the rear transfer path 115 is inclined in an inward direction to move in the inward direction. And a protruding close contact guide protrusion 119 is formed.

Looking at the operation of the raw material superimposing device for a multi-film forming machine according to the present invention having the above configuration as follows.

The raw material overlapping device for a composite film molding machine according to the present invention is a raw material overlapping device 100 for a composite film molding machine that cuts and overlaps the composite raw material (F) in which different raw materials (P1, P2, P3) are stacked in two stages. .

That is, the central housing 110 for passing the composite material (F) in a vertical direction, the front housing 120 covering the front surface of the central housing 110, and the rear surface of the central housing 110 It is composed of a rear housing 130 that covers the composite material (F) passing through the central housing 110 can be prevented from being separated from the front or rear.

Here, as shown in FIG. 5, when the composite raw material F enters the upper portion of the raw material overlapping device 100, it is cut in half through the cutting-separating blade 116 formed on the upper portion of the central body 111. .

Thereafter, one side of the composite material (F) is transferred to the inside of the front transfer path 113 by riding the front inclined part 112, and the other side of the rear transfer path 115 riding the rear inclined part 114 It is transferred inside.

Through this, the composite material (F) can be easily separated by cutting the composite material (F) in half and transferring it to the front transfer path 113 and the rear transfer path 115 divided into front and rear directions, respectively.

On the other hand, as another embodiment of the present invention, as shown in Fig. 9, the front slope part 112 and the rear slope part 114 are curved in a curved shape so that the bending of the composite raw material F is smooth. By forming the curved inclined portion 117, it is possible to prevent a phenomenon in which the vertically moving composite material (F) is bent at a right angle, making it difficult to move when separating it in the front and rear direction.

Thereafter, the composite material (F) is moved downward as shown in FIG. 6. A front transfer expansion surface 113a is formed on the inner side of the front transfer path 113, and the rear transfer path 115 Since the rear transfer expansion surface 115a is formed on the inner side, the composite raw material F divided in half through the cutting and separating blade 116 is unfolded to its original width and can be lowered.

In addition, by forming a close contact guide surface 118 inclined in the inward direction as shown in FIG. 10 at the lower end of the central housing 110, the movement in the front transfer path 113 and the rear transfer path 115 It is possible to integrate the separated composite raw material (F) by intimate contact with the composite raw material (F) in the inward direction.

In addition, by forming a close contact guide protrusion 119 inclined and protruding in the inward direction at the inner lower end of the front housing 120 and the rear housing 130, the front transfer path 113 and the rear transfer path 115 By allowing the moved composite raw material (F) to move in the inward direction, the separated composite raw material (F) can be easily brought into close contact.

Through this, the composite raw material (F) is 6 raw materials (P1) simply by passing the composite film consisting of the first three raw materials (P1, P2, P3) through the raw material superposition apparatus 100 of the present invention as shown in FIG. ,P2,P3,P1,P2,P3) can be easily overlapped.

On the other hand, if a plurality of the raw material superimposing devices 100 are arranged in a downward direction, the amount of superimposed raw materials can be increased many times, so that the overlapping effect can be greatly improved.

The present invention is not limited to the specific preferred embodiments described above, and any person having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention claimed in the claims can implement various modifications Of course, such changes are within the scope of the claims.

<Description of symbols for major parts of drawings>
P1, P2, P3: raw material F: composite raw material
100: raw material overlapping device 110: central housing
111: central body 112: front slope
113: forward feed path 113a: forward feed extended surface
114: rear slope 115: rear transfer path
115a: rear transfer expansion surface 116: cutting separation blade
117: curved slope part 118: close contact guided surface
119: close contact guide protrusion 120: front housing
130: rear housing

Claims (5)

In the raw material superimposing device 100 for a multi-film forming machine in which the composite raw material F in which different raw materials (P1, P2, P3) are stacked is cut and then overlapped in two stages,
A central housing 110 that passes the composite material (F) in a vertical direction, a front housing 120 that covers the front surface of the central housing 110, and a rear surface of the central housing 110. It is composed of a rear housing 130;
The central housing 110 has a square block-shaped central body 111 that is in close contact between the front housing 120 and the rear housing 130, and a front inclined forward on an upper surface of one side of the central body 111 An inclined portion 112, a forward transfer path 113 penetrating downward from the lower end of the front inclined portion 112, and a rear inclined portion 114 inclined rearward on the upper surface of the other side of the central body 111 Wow, the composite material (F) is applied to the rear transfer path 115 penetrating downward from the lower end of the rear inclined portion 114 and the contact portion between the front inclined portion 112 and the rear inclined portion 114 A raw material overlapping device for a multi-film molding machine, characterized in that it consists of a cutting and separating blade part 116 that is cut and transferred into the forward transfer path 113 and the rear transfer path 115. The method of claim 1,
On the inner side of the forward transfer path 113, a forward transfer expansion surface 113a is formed that is curved in one direction so that the width of the transferred composite material F increases in the X-axis direction and expanded;
A composite film molding, characterized in that the rear transfer expansion surface 115a is curved and extended in the other direction so that the width of the composite material F to be transferred increases in the X-axis direction on the inner side of the rear transfer path 115 Material superimposition device for machine use. The method of claim 1,
The raw material for a composite film molding machine, characterized in that the front slope part 112 and the rear slope part 114 have a curved slope part 117 curved in a curved shape to smoothly bend the descending composite material F Nesting device. The method of claim 1,
A close contact guide surface 118 inclined inward is formed at the lower end of the central housing 110 so that the composite raw material F moved in the front transfer path 113 and the rear transfer path 115 adhere to each other. Raw material superimposition device for multi-film forming machine. The method of claim 1,
At the inner lower end of the front housing 120 and the rear housing 130, the composite material (F) moved in the front transfer path 113 and the rear transfer path 115 is inclined and protruded in the inward direction so that it moves in the inward direction. Raw material overlapping device for a multi-film molding machine, characterized in that the close contact guide protrusion (119) is formed.

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