KR101416796B1 - Apparatus for separating resin - Google Patents

Abstract

The present invention relates to an apparatus for separating resin. The apparatus for separating resin comprises: a material supply part for supplying a material having a resin layer attached thereto; a first pre-heating part for primarily pre-heating the material supplied by the material supply part when the material passes through a pair of rollers; a second pre-heating part, equipped with a pair of rollers, for secondarily pre-heating the material that has passed through the first preheating part; a separation part for separating resin from the material via vacuum absorption by passing the material, which has been pre-heated while passing through the second pre-heating part, through a pair of vacuum rollers; and a vacuum part for forming vacuum pressure in the vacuum rollers of the separation part.

Description

Apparatus for separating resin

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resin separating apparatus, and more particularly, to a resin separating apparatus capable of easily separating resin from paper by automating a process of separating the resin attached to paper by preheating and vacuum pressure.

Generally, in the field of electronic industry that manufactures smart phones, paper with a resin layer such as PVC is generated as a by-product of the process. That is, when a chip is mounted on a substrate, the resin and the paper are laminated on the substrate, and the resin and the paper are pressed while being heated to a predetermined temperature, so that the resin layer is attached to the paper.

In addition, paper by-products having the resin layer attached thereto have been disposed of in the past, but recent attempts have been made to separate the resin and paper from each other and recycle them for their interest in resource recycling.

As an example of separating the paper as described above, paper and resin are separated by the manual operation of the operator at present. That is, the worker separates the resin from the paper by the human force, and the paper is finely pulverized by using a pulverizer or the like, and then the paper is deposited and then recycled again to be padded.

However, such a separation method requires a long working time and low work efficiency because the work is performed by the human power.

Utility Model Registration No. 20-0434861 (Name: Apparatus for separating PVC coating layer from wallpaper)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a separator which can be easily separated by automating a process of separating a resin layer from a work.

In order to achieve the above object, a separation apparatus according to an embodiment of the present invention includes a material supply unit for supplying a material to which a resin layer is attached;

A first preheating unit for primarily preheating the material supplied from the material supply unit when passing between the pair of rollers;

A second preheating unit having a pair of rollers to heat the material passing through the first preheating unit;

A separating unit for separating the resin from the material by vacuum adsorption by passing the preheated material through a pair of vacuum rollers while passing through the secondary preheating unit; And

And a vacuum to form vacuum pressure on the vacuum roller of the separation part.

According to another embodiment of the present invention, there is provided an image forming apparatus comprising: a material supply unit for supplying a material to which a resin layer is attached;

A preheating unit for preheating the material by the heating member when the material supplied from the material supplying unit passes between the pair of rollers;

A separating unit for separating the resin from the material by vacuum adsorption by passing the preheated material through a pair of vacuum rollers while passing through the preheating unit; And

And a vacuum to form vacuum pressure on the vacuum roller of the separation part.

As described above, in the resin separating apparatus according to an embodiment of the present invention, the material is preheated by the preheating roller, and the resin layer can be easily separated from the paper by being attracted by the vacuum roller and pulled.

Further, by forming a suction hole only in a partial region of the vacuum roller, vacuum pressure acts only when the material passes between the vacuum rollers, and after that, no further action is made, thereby separating the resin layer and separation more easily .

1 is a side view showing a paper separating apparatus and a paper separating apparatus according to an embodiment of the present invention.
FIG. 2 is a view showing a vacuum state of the separation apparatus shown in FIG. 1. FIG.
FIG. 3 is a view showing a state in which a vacuum pressure is applied to the roller of the separation unit shown in FIG. 1. FIG.
4 is a view showing a state in which a resin layer attached to the surface of the paper is separated.

Hereinafter, the paper and resin separator according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, a separating apparatus 1 proposed by the present invention comprises a material supply unit 3 for supplying a material 2 composed of a resin layer m and a paper P; A first preheating unit 5 for primarily preheating the supplied material 2; A secondary preheating section 7 for secondarily heating the preheated material 2; A separating part (9) for separating the resin from the heated material (2) by a vacuum adsorption method; And a vacuum 11 for forming a vacuum pressure in the separating part 9.

In the separation apparatus having such a structure, the material supply unit 3 deposits the material 2 and sequentially supplies the material 2 to the first preheating unit 5.

More specifically, a magazine (13) is disposed in the material supply unit (3), so that the material (2) can be stacked. At this time, the material 2 is preferably composed of the paper P and the resin layer m attached to the upper surface thereof, and the surface to which the resin layer m is attached faces upward.

A feeder 15 is disposed at an upper portion of the material supplying unit 3 so that the material 2 can be picked up sequentially. Such a feeder 15 may include various methods, but a vacuum type feeder 15 is preferable.

Therefore, the vacuum type feeder 15 can pick up the material 2 loaded on the magazine 13, and the picked-up material 2 can be placed on the conveying conveyor 17.

The conveying conveyor 17 includes a conveyor of a conventional structure and feeds the material 2 supplied by the feeder 15 to the first preheating portion 5. [

The first preheating portion 5 is provided with a pair of upper and lower rollers r1 and r2 and generates a predetermined heat to primarily preheat the workpiece 2 passing therebetween.

In more detail, the first preheating unit 5 includes a stand 6; Upper and lower rollers (r1, r2) rotatably mounted on the upper and lower portions of the stand (6); And a heat generating member h1 disposed on the upper and lower rollers r1 and r2 to generate heat.

The upper and lower rollers r1 and r2 are connected by a power transmitting member such as a pulley 21 and a power source 19 such as a motor. Therefore, when rotational force is transmitted from the power source 19, the upper and lower rollers r1 and r2 rotate to pressurize the material 2 to preheat.

Various types of heating members h1 are applicable, and include, for example, hot wires. A heat generating member h1 such as this hot line is disposed on the upper and lower rollers r1 and r2, and generates a predetermined heat when power is applied.

Therefore, in a state in which the upper and lower rollers r1 and r2 are preheated to a predetermined temperature, the material 2 can be preheated primarily by passing the material 2 between the rollers r1 and r2.

At this time, the preheating temperature can be appropriately adjusted according to the specification of the material (2).

The second preheater 7 has the same or similar structure as the first preheater 5. That is, the second preheating unit 7 also includes a stand 7; Upper and lower rollers r3 and r4; And a heating member h2.

Therefore, the material 2, which has been preheated while passing through the first preheating section 5, passes between the upper and lower rollers r3 and r4 of the second preheating section 7, Since the lower rollers r3 and r4 are heated to the predetermined temperature by the heating member h2, the work 2 can be heated secondarily.

As described above, the material 2 is heated to a predetermined temperature in the process of passing through the first and second preheating units 5 and 7, so that the resin layer m can be easily separated from the paper P.

Although the preheating roller is disposed in two sets of the first preheating unit 5 and the second preheating unit 7 in the above description, the present invention is not limited to this, and one preheating unit or three or more preheating units may be arranged It is also possible to do.

In this way, when the number of the preheating portions is changed, it is needless to say that the preheating temperature of the preheating portion must be appropriately adjusted accordingly.

On the other hand, the material 2 having passed through the second preheating portion 7 is supplied to the separating portion 9 so that the paper and the resin layer m can be separated from each other by the vacuum pressure.

The separating portion 9 includes a stand 30; Upper and lower vacuum rollers r5 and r6, which are vertically disposed on the stand 30 to form a vacuum pressure; And a vacuum port 32 connected to the vacuum 11 to form a vacuum from the upper and lower vacuum rollers r5 and r6.

More specifically, vacuum spaces are formed in the upper and lower vacuum rollers r5 and r6 to form vacuum pressure. A plurality of suction ports 34 are formed on the surfaces of the upper and lower vacuum rollers r5 and r6, and the suction port 34 communicates with the space.

A vacuum port 32 is connected to the neck 36 of the upper and lower vacuum rollers r5 and r6 and the vacuum port 32 communicates with the space.

Therefore, when the vacuum 11 is driven, air in the inner spaces of the upper and lower vacuum rollers r5 and r6 is discharged through the vacuum port 32, thereby forming vacuum pressure inside the space.

As a result, the inner space of the upper and lower vacuum rollers r5 and r6 is formed such that the material 2 passing between the upper and lower vacuum rollers r5 and r6 is formed by the upper and lower rollers r5 and r6, As shown in FIG.

At this time, the resin layer m attached to the upper surface of the blank 2 is disposed on the side of the upper vacuum roller r5, and the paper P is disposed on the side of the lower vacuum roller r6.

The resin layer m is adsorbed on the surface of the upper vacuum roller r5 and the lower vacuum roller r6 is attracted to the surface of the upper vacuum roller r5 when the material 2 passes through the upper and lower vacuum rollers r1 and r2, The paper P is adsorbed on the surface of the paper P.

As a result, the paper P and the resin layer m can be separated by being attracted to each other by the vacuum pressure of the upper and lower vacuum rollers r5 and r6.

At this time, the plurality of suction ports 34 are formed only on the predetermined area on the upper and lower vacuum rollers r5 and r6. That is, the suction port 34 is formed only in a part of the circumferential surface of the upper and lower vacuum rollers r5 and r6, so that the vacuum pressure acts on only a part of the upper and lower vacuum rollers r5 and r6.

Accordingly, since the suction port 34 is not disposed in the section before entering the upper and lower vacuum rollers r5 and r6, the vacuum pressure does not act so that the material 2 smoothly flows through the upper and lower vacuum rollers (r5, r6).

The suction ports 34 of the upper and lower vacuum rollers r5 and r6 are connected to the suction port 34 of the upper and lower vacuum rollers r5 and r6 by the vacuum pressure of the material 2 ) Is adsorbed.

At this time, the material 2 is preheated to a predetermined temperature while passing through the first and second preheating units 5,

Thus, when the upper and lower vacuum rollers r5 and r6 pull the material respectively by the vacuum pressure, the paper P and the resin layer m can be separated from each other.

In this state, when the material 2 proceeds further, the paper P and the resin m adsorbed on the surfaces of the upper and lower vacuum rollers r5 and r6 are separated by the separation guide G. [

At this time, since the upper and lower vacuum rollers r5 and r6 are further rotated by a certain angle, the suction port 34 and the workpiece 2 are separated from each other so that the vacuum pressure of the suction port 34 no longer acts on the workpiece 2. [ .

Therefore, the paper P and the resin layer m can be discharged to the upper portion and the lower portion without the influence of the vacuum pressure.

As a result, by disposing the suction port 34 in only a part of the upper and lower vacuum rollers r5 and r6, the material 2 can be moved and separated by being adsorbed by the vacuum pressure when passing through the entry section of the roller , The vacuum pressure does not act after passing through the entrance section, so that the paper and the resin can be easily separated by the separation guide G, respectively.

The paper P separated by the separation guide G falls down and stored, and the resin m can be discharged by a feed conveyor.

Meanwhile, the vacuum 11 may include various types of vacuum devices such as a vacuum pump. The vacuum 11 is connected to the vacuum port 32 of the upper and lower rollers r5 and r6 by piping. Therefore, when the vacuum 11 is driven, vacuum air can be formed by discharging the air in the spaces of the upper and lower rollers r5 and r6 through the vacuum port 32 and the pipe.

The resin described above includes a natural resin or a synthetic resin such as PVC. In addition, in the above description, paper has been described as the material (2), but the present invention is not limited to this, and may include any material that can adhere the resin layer (m).

1: Separation device
2: Material
3:
5: First preheating section
7: Second preheating part
9:
11: Jean's study
13: Magazine
15: Feeder
17: Conveyor
r1, r2, r3, r4: upper and lower rollers
r5, r6: upper and lower vacuum rollers

Claims (6)

A material supply unit for supplying a material to which the resin layer is attached;
At least one preheating unit for preheating the material supplied from the material supply unit when passing between the pair of rollers;
A separating unit for separating the resin from the material by vacuum adsorption by passing the preheated material through a pair of vacuum rollers while passing through the preheating unit; And
And a vacuum for forming vacuum pressure on the vacuum roller of the separation part,
The separating portion includes a stand;
And upper and lower vacuum rollers disposed on the stand and having a space formed therein and connected to the vacuum chamber to form vacuum pressure. The method according to claim 1,
Wherein the at least one preheating unit includes: a first preheating unit that primarily preheats the material supplied from the material supply unit when the material passes between the pair of rollers;
And a second preheating unit in which a material passing through the first preheating unit is secondarily heated by providing a pair of rollers. 3. The method of claim 2,
The first and second preheating units include a stand; Upper and lower rollers rotatably mounted on upper and lower portions of the stand; And a heating member disposed on the upper and lower rollers to generate heat. delete The method according to claim 1,
The upper and lower rollers have a plurality of suction ports formed in the surface and communicating with the inner space;
A neck protruding from both ends and rotatably connected to the stand;
And a vacuum port connected to the neck at one side and connected to the vacuum chamber for evacuating the gas in the inner space of the upper and lower vacuum rollers when the vibrating section is driven. 6. The method of claim 5,
The suction port is formed only on a predetermined area on the upper and lower vacuum rollers. When the material passes through the entry section between the upper and lower vacuum rollers, the suction port is passed through the suction port in a state adsorbed by the suction port,
And the suction port and the material are separated from each other after rotating at a predetermined angle, so that the vacuum pressure is not applied and the resin and the paper can be separated from each other.

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