KR101972832B1 - The recycling plastic chip dehydration apparatus - Google Patents

Abstract

The present invention relates to a dewatering device for dehydrating finely pulverized waste plastic pieces, which comprises a main body, a dehydrator, a shaft, a screw and a pneumatic portion. A drain port is formed on the lower side of the main body. The dehydrator is formed into a cylindrical shape having a plurality of dewatering holes formed therein and is inserted and fixed in a manner to penetrate through the body, and an inlet and an outlet are formed at both ends exposed to the outside. The shaft is rotatably coupled to both ends of the dehydration tub, and a hollow portion is formed at the center of the shaft, and a plurality of air holes communicating with the hollow portion are formed at the outer circumferential surface thereof. The screw is attached spirally along the outer circumferential surface of the shaft, and the waste plastic piece charged into the charging port together with the rotation of the shaft is transferred / pressed to the discharge port side. The pneumatic portion supplies dry air to the hollow portion of the shaft. The water contained in the piece of waste plastic is primarily dewatered by the action of the screw and drained to the drain of the main body, and is secondarily evaporated by the dry air discharged from the air hole of the shaft and discharged to the outside.

Description

[0001] The present invention relates to a waste plastic dehydration apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a waste plastic piece dewatering device, and more particularly, to a waste plastic piece dewatering device for dehydrating and drying a waste plastic piece that has been finely pulverized and washed at a high speed for recycling.

Generally, waste plastics are treated by reclamation, incineration, and reclamation. However, since reclamation and incineration cause secondary environmental pollution, most waste plastics are recycled as pellets.

PS (polystyrene) is widely used in small yogurt bottles, and PP (polypropylene) is widely used in angular containers that contain kochujang or soybean paste, and PE (Polyethylene) and PET (polyethylene terephthalate) are widely used in round bottles such as beverage bottles and flask bottles.

The collected waste plastics are sorted and crushed by materials for recycling, and dehydrated through a separate dehydrator. An example of the dehydrating apparatus is disclosed in Korean Patent Laid-Open Publication No. 2000-0063380 (" a dehydrating apparatus for a pulverized synthetic resin bottle ").

The dewatering device is provided between the blowing pipe 10 and the perforated dewatering drum 7 by the wind supplied to the blowing pipe 10 while the blowing pipe 10 is inserted and fixed inside the discharge end of the perforated dewatering drum 7 The crushed pieces that have been dewatered in the perforated dewatering tank 7 can be quickly discharged by the negative pressure and the crushed pieces that have passed through the dewatering tank are blown to a predetermined storage tank by a separate blower to be stored do.

However, in the conventional dewatering apparatus, the blower is only used for forming the negative pressure, and does not greatly affect the dewatering action of the pulverizing piece. In addition, there is a problem that the effect of dewatering of the crushing pieces is relatively reduced due to the relative number of times and areas where the crushing pieces can be simply transported by the feed screw guide 11 and brought into contact with air.

Korean Unexamined Patent Application Publication No. 2000-0063380 (published on November 11, 2000, entitled "Grinding Part Dewatering Apparatus of Cleaned Synthetic Bottles")

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in an effort to solve the above problems, and it is an object of the present invention to provide a method and apparatus for dehydrating and drying a piece of waste plastic, It is intended to provide a dehydrating device for waste plastic pieces.

To achieve the above object, the present invention provides a dehydrating apparatus for dehydrating a piece of waste plastic which is finely pulverized and washed, the dehydration apparatus comprising: a main body 100 having a drain port 120 formed at a lower side thereof; A dewatering cylinder 200 having a cylindrical shape formed with a plurality of dewatering holes 210 and inserted and fixed to the main body 100 in such a manner as to penetrate the main body 100 and having an inlet 220 and an outlet 230 formed at both ends exposed to the outside, ); A plurality of air holes 320 are formed in the outer circumferential surface of the shaft 310 to communicate with the hollow portion 310. The air hole 320 is formed in the center of the shaft 310, A shaft (300) rotated by a drive motor; A screw 400 attached spirally along the outer circumferential surface of the shaft 300 to transfer and compress the waste plastic pieces injected into the inlet 220 together with the rotation of the shaft 300 toward the outlet 230; And a pneumatic part 500 for supplying the dry air A to the hollow part 310 of the shaft 300. The water contained in the waste plastic piece is compressed by the compression action of the screw 400 And is drained to the drain port 120 of the main body 100 and is secondarily evaporated by the dry air A discharged from the air hole 320 of the shaft 300 and discharged to the outside, And a plurality of first stirring plates 600 coupled at regular intervals along tip portions of the first and second stirring plates 400 and 400. The first stirring plate 600 is connected to the waste plastic piece 400 conveyed by the screw 400, A waste plastic piece existing within a predetermined distance from the tip portion of the screw 400 is continuously hit and stirred and an exhaust port 110 is formed on the upper side of the body 400, (800), wherein the water contained in the waste plastic piece Is discharged through the exhaust port 110 of the main body 100 and is coupled along the outer circumferential surface of the shaft 300 partitioned in a helical shape by the screw 400, The second stirring plate 700 is detachably attachable to one end tip portion of the second stirring plate 700. The second stirring plate 700 includes a plurality of second stirring plates 700, A plurality of hub plates 720 connected between the screw 400 and the other end of the second stirring plate 700 and radially coupled to the outer circumferential surface of the shaft 300, The second stirring plate 700 continuously blows and agitates the waste plastic pieces present between the screws 400 among the waste plastic pieces conveyed by the screw 400, The hub plate (720) strikes and agitates a piece of waste plastic that is in close proximity to the screw (400), and the auxiliary plate (710) strikes and agitates waste plastic pieces that are remotely located from the screw (400) The stirring plate 700 is characterized by striking and stirring waste plastic pieces present therebetween.

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According to the waste plastic piece dehydrating apparatus of the present invention, the screw compression and the drying by the wind are performed at the same time, whereby the dehydration efficiency of the waste plastic pieces can be further improved.

Further, since the transferring-dehydrating-drying of waste plastic pieces is performed simultaneously in one space, a favorable effect can be obtained in terms of equipment and working space.

Particularly, in the drying process of the waste plastic pieces, stirring and pressing are further performed by the stirring plate, whereby the effect of maximizing the dehydration and drying efficiency of the waste plastic pieces can be obtained.

Brief Description of the Drawings Fig. 1 is a three-dimensional perspective view showing a waste plastic piece dehydrating apparatus according to an embodiment of the present invention. Fig.
2 is a side cross-sectional view for explaining the internal configuration of the waste plastic piece dehydrating apparatus of FIG. 1;
Fig. 3 is a partially enlarged view for explaining simultaneous dewatering and drying of waste plastic pieces in the waste plastic piece dewatering device of Fig. 1; Fig.
4 is a perspective view for explaining the function of the stirring plate included in the waste plastic piece dewatering device of FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of a waste plastic piece dehydrator according to the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

2 is a side sectional view for explaining the internal configuration of the waste plastic piece dehydrating apparatus of FIG. 1, and FIG. 3 is a cross-sectional view of the waste plastic piece dehydrating apparatus of FIG. 1 according to an embodiment of the present invention. Fig. 4 is a partial enlarged view for explaining dewatering and drying of the waste plastic pieces at the same time in the waste plastic piece dewatering device of Fig. 1. Fig. 4 is a view for explaining the function of the stir plate included in the waste plastic piece dewatering device of Fig. It is a perspective view.

Referring to FIGS. 1 and 2, a waste plastic piece dewatering apparatus according to an embodiment of the present invention includes a main body 100, a dehydrator 200, Shaft 300, screw 400, and pneumatic portion 500.

An air outlet 110 is formed on the upper side of the main body 100, and a drain 120 is formed on the lower side. A plurality of legs are mounted so that the main body 100 is installed at a predetermined height from the ground.

The dehydration tub 200 is formed in a cylindrical shape and is inserted and fixed in the form of passing through the main body 100. A plurality of dewatering holes 210 are formed in a region of the entire region of the dewatering container 200 except for both ends exposed to the outside, and the dewatering holes 210 are formed to be smaller than the size of the waste plastic pieces.

The waste plastic pieces are transported by a conveyor and dropped to one end of the dehydrating tub 200. An inlet 220 through which dehydrated waste plastic pieces are injected is placed on the upper side of one end of the dehydrating tub 200, And a discharge port 230 through which waste plastic pieces are discharged.

The shaft 300 is rotatably coupled to both ends of the dewatering cylinder 200 via a shaft bearing, and is rotated by a driving motor and a belt. A hollow portion 310 is formed at the shaft center of the shaft 300 and a plurality of air holes 320 are formed at the outer circumferential surface to communicate with the hollow portion 310.

It is preferable that the air hole 320 is formed in a rectangular shape having a transverse length parallel to the longitudinal direction of the shaft 300 longer than a longitudinal length so that the torsional rigidity of the shaft 300 is not lowered.

The screw 400 is attached spirally along the outer circumferential surface of the shaft 300 and serves to transfer and press the waste plastic pieces injected into the inlet 220 together with the rotation of the shaft 300 toward the outlet 230 side.

The waste plastic pieces put into the dewatering tub 200 are primarily pressed while being pushed to the outer wall surface of the dewatering container 200 by the rotational pressure of the screw 400. The waste plastic pieces are compressed and pressed secondarily do. In this process, the water contained in the waste plastic pieces is discharged to the outside through the dewatering hole 210 of the dewatering tank 200 and the drain port 120 of the main body.

The pneumatic part 500 functions to supply the dry air A to the hollow part 310 of the shaft 300 as shown in FIG. 2 or FIG. The pneumatic portion 500 is made of a normal pneumatic compressor and an air hose.

The water contained in the waste plastic pieces is dehydrated by the compression action of the screw 400 and drained to the drain port 120 of the main body 100. The dry air A supplied by the pneumatic part 500 is discharged to the shaft 300 The water contained in the piece of waste plastic is evaporated and discharged to the outside through the dewatering hole 210 of the dewatering cylinder 200.

That is, in order to maximize the water removal efficiency of waste plastic pieces, dehydration and drying are performed in parallel.

In this process, the pieces of waste plastic adhered to the surface of the screw 400 fall into the wind, so that the rotational power of the screw 400 can be prevented from being reduced by the adhered pieces of waste plastic, It is possible to obtain a subsidiary effect that the discharge speed of the water is further accelerated by the action of the pneumatic pressure toward the outside.

In this case, it is preferable that the waste plastic pieces are compressed and transported while being irregularly mixed with each other rather than being simply compressed and transported by the screw 400 from the viewpoint of dehydration efficiency. The reason for this is that the space between the pieces of waste plastic is basically watered, and the evaporation rate of the water molecules changes in proportion to the contact area with the air and the number of times.

Therefore, the first stirring plate 600 and the second stirring plate 600 are further included in this embodiment.

4, the first stirring plate 600 is coupled to the first stirring plate 600 at a predetermined interval along the tip of the screw 400. The first agitating plate 600 is located outside the relatively high pressure dewatering tub 200 (see FIG. 2), and may be deformed or damaged during use. Therefore, it is preferable that the first stirring plate 600 is detachably coupled to the screw 400 so that the first stirring plate 600 can be easily replaced. For this purpose, screwing means such as bolts and nuts may be used.

The first stirring plate 600 serves to successively strike and stir the waste plastic pieces existing within a predetermined distance from the tip portion of the screw 400 among the waste plastic pieces conveyed by the screw 400.

The second stirring plate 700 is coupled along the outer circumferential surface of the shaft 300 divided by the screw 400 and is detachably coupled to the screw 400 in the same manner as the first stirring plate 600 .

The second stirring plate 700 serves to successively strike and stir the waste plastic pieces present between the screws 400 among the pieces of waste plastic conveyed by the screw 400.

In this process, both ends of the second stirring plate 700 are subjected to a relatively high bending force. Therefore, in order to reinforce the rigidity of the second stirring plate 700, a separate auxiliary plate 710 is detachably coupled to one end of the second stirring plate 700, and the other end of the second stirring plate 700 A plurality of hub plates 720 connect between the screws 400 and are radially coupled to the outer circumferential surface of the shaft 300.

Since the tip portion of the second agitating plate 700 located outside the relatively high pressure dewatering container 200 is easily deformed by the pressure, it is easily replaceable, and the bending force corresponding to the pressure So that the root portion of the second stirring plate 700 is brought into contact with the surface of the hub plate 720 to be stably supported.

Here, the hub plate 720 serves to support both sides of the screw 400 so that the screw 400 is not bent in the transport direction.

The first and second stirring plates 600 and 700 configured to be detachable and attachable as described above strike and stir the pieces of waste plastic together with the rotation of the shaft 300. In the process of mixing the pieces of waste plastic, the moisture held between the pieces of waste plastic flows out, is discharged to the dewatering hole 210 of the dewatering cylinder 200, and the area and chance of exposing the pieces of waste plastic to air are increased, The rate of evaporation of the gas is also accelerated.

That is, as the skin that is applied to the skin is instantly dried and the wet clothes laid on the clothesline are dried quickly, the contact area with the air is increased and the number of contact is increased, thereby improving the dehydration and drying efficiency of the waste plastic pieces.

In addition, the first and second stirring plates 600 and 700 serve to scrape up pieces of waste plastic attached to the inner wall surface of the dewatering tub 200, thereby enhancing the stirring effect. Further, It works to double the effect.

Meanwhile, the higher the temperature of the water, the higher the evaporation speed of the water and the greater the evaporation amount. Thus, the present embodiment further includes a heating unit 800 for heating the dehydration tub 200 as shown in FIG.

The heating unit 800 may be installed in the form of a heat line surrounding the outside of the dewatering tub 200. The induction current generated by the magnetic field may be used to induce heating of the dewatering tub 200. In addition, So that the dewatering tub 200 can be heated. Here, the heating unit 800 preferably heats the dehydration tub 200 to a temperature between the boiling point of water and the melting point of the waste plastic.

The water contained in the piece of waste plastic is evaporated by the heat and discharged to the discharge port 110 of the main body 100, whereby the drying efficiency of the waste plastic piece becomes higher.

The waste plastic piece dewatering apparatus of the present invention configured as described above can achieve the effect of further increasing the dewatering efficiency of waste plastic pieces by simultaneously performing screw pressing and wind drying.

Further, since the transferring-dehydrating-drying of waste plastic pieces is performed simultaneously in one space, a favorable effect can be obtained in terms of equipment and working space.

Particularly, in the drying process of the waste plastic pieces, stirring and pressing are further performed by the stirring plate, whereby the effect of maximizing the dehydration and drying efficiency of the waste plastic pieces can be obtained.

The scope of the present invention is not limited to the above-described embodiments and modifications, but can be implemented in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100:
200: Dewatering tub
300: shaft
400: Screw
500: Pneumatic part
600: first stirring plate
700: Second stirring plate
800: heating part

Claims (4)

A dewatering device for dehydrating finely pulverized and washed waste plastic pieces,
A main body 100 in which a drain 120 is formed at a lower side;
A dewatering cylinder 200 having a cylindrical shape formed with a plurality of dewatering holes 210 and inserted and fixed to the main body 100 in such a manner as to penetrate the main body 100 and having an inlet 220 and an outlet 230 formed at both ends exposed to the outside, );
A plurality of air holes 320 are formed in the outer circumferential surface of the shaft 310 to communicate with the hollow portion 310. The air hole 320 is formed in the center of the shaft 310, A shaft (300) rotated by a drive motor;
A screw 400 attached spirally along the outer circumferential surface of the shaft 300 to transfer and compress the waste plastic pieces injected into the inlet 220 together with the rotation of the shaft 300 toward the outlet 230; And
And a pneumatic part (500) for supplying dry air (A) to the hollow part (310) of the shaft (300)
The water contained in the waste plastic piece is primarily dewatered by the action of the screw 400 and drained to the drain port 120 of the main body 100 and discharged from the air hole 320 of the shaft 300 Is evaporated by the dry air (A) and discharged to the outside,
And a plurality of first stirring plates (600) coupled at regular intervals along a tip portion of the screw (400)
The first agitating plate 600 successively strikes and agitates a piece of waste plastic present within a predetermined distance from a tip portion of the screw 400 among pieces of waste plastic conveyed by the screw 400,
An exhaust port 110 is formed on the upper side of the main body,
And a heating unit (800) for heating the dehydrating tub (200)
The water contained in the piece of waste plastic is evaporated by the heat and discharged to the exhaust port 110 of the main body 100,
A plurality of second stirring plates 700 coupled along the outer circumferential surface of the shaft 300 divided by the screw 400 in a spiral shape and coupled to each other in a line by way of the screw 400, ; ≪ / RTI >
The second stirring plate 700 includes an auxiliary plate 710 detachably coupled to a tip portion of the one end of the second stirring plate 700 and an auxiliary plate 710 detachably attached to the other end of the second stirring plate 700, Further comprising a plurality of hub plates (720) connecting between the hubs (400) and radially coupled to an outer circumferential surface of the shaft (300)
The second stirring plate 700 continuously hits and agitates waste plastic pieces present between the screws 400 among the waste plastic pieces conveyed by the screw 400, And the auxiliary plate 710 strikes and agitates the waste plastic pieces existing in the vicinity of the screw 400. The auxiliary plate 710 strikes and agitates the waste plastic pieces far away from the screw 400, 700) strikes and agitates waste plastic pieces present therebetween. delete delete delete

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