KR101222189B1 - Apparatus of heating the surface of the extrusion object being extruded from the forming machine for recycled plastic fuel - Google Patents

Abstract

According to the present invention, in a recycled plastic fuel (RPF) molding machine for extruding combustible waste such as plastic and waste vinyl to make a solid fuel, a means for heating the extrudate surface of the combustible waste continuously extruded through a nozzle of the extrusion apparatus is simplified. The present invention relates to an extruded surface heating apparatus of an RPF molding machine that can be installed to simplify the assembly process, to lower manufacturing costs, to be used for a long time, and to be easily removed even during disassembly for nozzle maintenance.
Extruded surface heating apparatus of the present invention is a RPF molding machine comprising a nozzle assembly 40, the plurality of nozzles 41 are coupled in an annular shape, the plurality of extrusion holes (40a) is formed radially, the nozzle assembly ( Annular recesses 40b and 40b 'are formed in the front and rear outer edge portions of the front and rear surfaces 40, respectively, and are inserted into the front and rear recesses 40b and 40b' of the nozzle assembly 40. The annular heating discs 46 and 46 'are formed to have the heating wire 46a embedded therein, and the annular heating discs are formed on the front and rear concave portions 40b and 40b' of the nozzle assembly 40. 46) (46 ') are inserted and joined; The coupling of the heating disk 46 on the front side is coupled to the fixing plate 47 by the fastening of the bolt 47a to the annular fixing plate 47 at the edge of the outer cover 42c of the front cover 42. The bolt 47b is fastened to the formed bolt hole so that the tip of the bolt 47b is pressed by pressing the pad 48, and the coupling of the heating disk 46 'at the rear side is such that the heating disk 46' is inserted. A bolt hole is formed at the edge of the fixed disk 39 in which the recess is formed, and the bolt 47c is fastened to the bolt hole so that the tip of the bolt 47c is heated with the rear recess 40b 'of the nozzle assembly 40. The heating disk 46 'inserted between the recesses of the disk 46' is pressed and coupled.

Description

Apparatus of heating the surface of the extrusion object being extruded from the forming machine for recycled plastic fuel}

The present invention relates to a recycled plastic fuel (RPF) molding machine for extruding combustible waste such as paper, wood, fiber, plastic, and waste vinyl to make a solid fuel. More specifically, the combustible waste continuously extruded through a nozzle of an extrusion apparatus. The present invention relates to an extruded surface heating apparatus of an RPF molding machine that can simplify the assembly process, reduce manufacturing costs, and can be used for a long time by simplifying the means for heating the extrudate surface of the die.

RPF molding machine is a machine that selects and extrudes flammable waste such as paper, wood, fiber, waste plastic and waste vinyl, and cuts it to a certain size to make a solid fuel, that is, recycled plastic fuel (RPF).

With the development of the industry and the improvement of living standard, various household goods and industrial products made of various synthetic resins such as plastic and vinyl are manufactured and used in large quantities, and these products are disposed of together with general wastes after use. These wastes are not only difficult to recycle but also cause environmental pollution during landfill or incineration. Therefore, conventionally, combustible waste, ie paper, wood, fiber, waste plastic, waste vinyl, etc. is selected from waste and compressed and used as fuel. Such fuel is called recycled plastic fuel (RPF), and RPF is a solid fuel in a solid state.

The RPF is formed by transferring the combustible waste to the extrusion space of the extrusion apparatus by a transfer screw and extruding the combustible waste in the extrusion space while pushing the combustible waste into the extrusion hole of the nozzle by an extruded disk that is eccentrically rotated from the center.

Conventional RPF molding machine for molding the RPF as described above is a main component comprising a conveying device for transporting combustible waste, a plurality of nozzles formed by the extrusion hole through which the RPF is compressed and an extrusion disc for pushing the RPF into the nozzle An extrusion device and a cutting device for cutting the solid fuel which is an extrudate continuously extruded from the nozzle.

However, the extrudate of the combustible waste extruded by the extruder should be melted and integrated, so that the compressed waste is not decomposed after extrusion, so it is convenient to use. Is melting.

Thus, the conventional heating apparatus for melting the surface of the extrudate has a structure in which hot wires are arranged on both sides of the nozzle and the hot wires are attached with an adhesive tape. However, in such a heating device, when the heating wire is attached to the nozzle side by using the adhesive tape, the heating wire must be installed at uniform intervals. Therefore, the installation work is very cumbersome. In the maintenance of the nozzle, the heating wire had to be removed one by one.

The present invention is to solve the problems of the extrusion product cutting device of the conventional RPF molding machine as described above, by simplifying the structure for installing the heating means on both sides of the nozzle assembly of the extrusion device to install the heating wire at a uniform interval in the assembly site It is very convenient to assemble the heating means such that it does not require any work, and the heating wire does not depart from the original position even after long-term use after installing the heating means. It is an object of the present invention to provide an extrudate surface heating apparatus of an RPF molding machine which makes the dismantling work of the means simple and convenient.

Extruded surface heating apparatus of the RPF molding machine of the present invention for achieving the above object is an RPF molding machine comprising a nozzle assembly in which a plurality of nozzles are combined in an annular shape and a plurality of extruded holes are formed radially, the nozzle assembly of the An annular recess is formed at the outer edge of the front and rear surfaces, and the annular heating disk is formed to have a size inserted into the front and rear recesses of the nozzle assembly, and is formed by embedding a hot wire. The front and rear surfaces of the nozzle assembly are provided. Inserting and engaging the annular heating disc in the recess; The coupling of the heating disk of the front side is coupled to the edge of the outer cover of the front cover by the fastening of the bolts, and by fastening the bolts to the bolt hole formed in the fixing plate to the end of the bolt to press the pad and The coupling of the heating disk on the rear side forms a bolt hole at the edge of the fixed disk where the recess is formed so that the heating disk is inserted, and fastens the bolt to the bolt hole, so that the tip of the bolt is connected to the rear recess of the nozzle assembly and the heating disc. Pressing the heating disk inserted between the recesses of the combination is characterized in that.

The extrudate surface heating apparatus of the RPF molding machine of the present invention is characterized in that the material of the annular heating disk is aluminum having good heat transfer performance, and the heating disk is bisected left and right.

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Extruded surface heating device of the RPF molding machine of the present invention is a simple installation structure because the coupling is completed only by installing a heating disk is inserted into the heating wire heating means on both sides of the nozzle assembly of the extrusion device is a heating means in the assembly site The assembly work is very convenient because it does not require the installation of the heating wires at uniform intervals, and it can be used for a long time because the heating wires do not deviate from its original position. The effect is to make it.

1 is a partial cutaway front view of an RPF molding machine to which an extrudate surface heater of the present invention is applied;
Figure 2 is a cross-sectional view of the extrusion device showing the installation structure of the heating device in Figure 1,
Figure 3a is a perspective view of the front cover and the heating disk removed from the extrusion device of Figure 2,
Figure 3b is a side view showing the nozzle assembly and extrusion plate structure of the extrusion device of Figure 3a,
3C is a cross-sectional view illustrating a nozzle assembly and an extrusion disc structure of the extrusion apparatus of FIG. 3A;
4 is an exploded perspective view of a heating disc that is a component of the extrudate surface heating apparatus of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 1, the RPF molding machine including the extrudate surface heating apparatus of the present invention is a hopper 10 into which combustible waste is input, and a conveying apparatus for transferring the combustible waste supplied from the hopper 10 to the front. (20), an extrusion device 30 for dispersing the combustible waste transported by the conveying device 20 in an annular shape and extruding in a radial manner, the extrusion of rubbish extruded from the extruder (30) It is composed of a cutting device 50 for cutting water, and a conveying device 70 for transporting the cut waste extrudate.

 The hopper 10 is a kind of inlet through which only combustible wastes such as paper, wood, fiber, waste plastic, and waste vinyl selected from various wastes are supplied.

 The transfer device 20 is a device for moving the combustible wastes introduced into the hopper 10 to the extrusion apparatus 30. The transfer support 21 supports the combustible wastes which are horizontally disposed and transported, and the transfer support 21. A connection box 22 disposed at the front end of the connection box, a rotation shaft 23 installed in the transfer support 21 and the connection box 22, a transfer screw 24 formed around the rotation shaft 23, and It consists of a drive motor 25 for rotating the rotary shaft (23).

Extrusion apparatus 30 is connected to the connection box 22, the inlet tube 31 for receiving combustible waste, the cylinder 32 is connected to the inlet tube 31, the support for supporting the cylinder 32 Frame 33 is installed to be rotatable inside the cylinder 32, the outer surface is spaced apart from the inner surface of the cylinder 32 by a predetermined distance, and a transfer screw (not shown) is formed on the outer surface and the front end plate 34a and the rear The screw 34 closed by the end plate 34b, the drive motor 35 for rotating the screw 34, and the reducer 36 for reducing the rotation of the drive motor 35 and transmitting the screw 34 to the screw 34. , An extruded disc 38 which is eccentrically installed at the center of the front end plate 34a of the screw 34 and rotatably installed by a bearing 37, and is fixed to the front of the cylinder 32. The disk 39, the front of the fixed disk 39 by a plurality of bolts (39a) And a plurality of extrusion holes 40a are formed radially and are installed by the nozzle assembly 40 and the plurality of bolts 42a in front of the nozzle assembly 40 to form an extrusion space between the fixed disk 39. It consists of the front cover 42 which forms 43.

1, couplings 36a and 36b are provided before and after the reducer 36, respectively. The nozzle assembly 40 is composed of a plurality of nozzles 41 arranged in an annular shape, and extruded holes 40a are formed between the nozzles 41, respectively.

The extrusion disc 38 is configured by combining the center portion 38b and the edge portion 38a. At the inner end of each nozzle 41, a nozzle tip 45 having an extrusion recess 45a is coupled by a tannery bolt 41d.

Central shafts 34c and 34d are connected to the front and rear of the screw 34, respectively, and these central shafts 34c and 34d are rotatable by bearings 32a and 32b. The front central shaft 34c is integrally or coupled to the disk 34e, and the disk 34e is connected to the front end plate 34a of the screw 34 by the coupling member 34f. The bearing 37 supporting the extruded disc 38 is provided between the front end plate 34a of the screw 34 and the disc 34e of the central axis 34c.

As shown in FIG. 2, the front cover 42 has an inner cover 42b forming an extrusion space 43, an edge portion thereof is fixed to the nozzle assembly 40, and a connecting leg 42ca is formed at the center thereof. The outer cover 42c is configured to be coupled. The front cover 42 is fixed to the nozzle assembly 40 by bolts 42a.

The cutting device 50 is a device for cutting the extrudate extruded through the extrusion hole 40a of the nozzle assembly 40.

And the conveying device 70 is a device for conveying the extrudate, ie RPF which is cut by the cutting device 50 falls. Unexplained sign "1" ventilation duct.

The extrudate surface heating apparatus of the present invention forms annular recesses 40b and 40b 'in the front and rear outer edge portions of the nozzle assembly 40, respectively, and the front and rear recesses 40b of the nozzle assembly 40. And 40b 'are inserted into each other, and the annular heating disks 46 and 46' are formed to have the heating wire 46a embedded therein, and the front and rear concave portions 40b of the nozzle assembly 40 are provided. 40b 'is coupled to the annular heating disk 46, 46'.

The annular heating disks 46 and 46 'are made of aluminum having good heat transfer performance, and the heating disks 46 and 46' are bisected left and right. Terminals 46b, which are ends of the heating wire 46a, are exposed to the outside.

Coupling of the front heating disk 46, the annular fixing plate 47 is coupled to the edge of the outer cover 42c of the front cover 42 by the fastening of the bolt 47a, formed on the fixing plate 47 The bolt 47b is fastened to the bolt hole, and the tip of the bolt 47b is coupled by pressing the pad 48. The coupling of the rear heating disc 46 'has a concave portion to insert the heating disc 46'. A bolt hole is formed at the edge of the formed fixed disk 39 and the bolt 47c is fastened to the bolt hole, so that the tip of the bolt 47c has the rear recess 40b 'of the nozzle assembly 40 and the heating disc ( The heating disk 46 'inserted between the recesses of 46' is engaged by pressing. In Fig. 4, reference numeral 47b, which represents the head of the bolt, shows the positions of the bolt 47b that are fastened when the heating disk 46 is coupled.

Extruded surface heating apparatus of the present invention configured as described above acts as follows.

In the method of installing the heating disc 46 on the front surface of the nozzle assembly 40, first, the fixing plate 47 is fixed to the outer cover 42c of the front cover 42, and then the two heating discs 46 are divided. It inserts into the recessed part 40b of the nozzle assembly 40 in an axially perpendicular direction. Then, the pad 48 is applied to the heating disk 46 and the bolts 47b are fastened to the bolt holes of the fixing plate 47 so that the tips of the bolts 47b press the heating disk 46 to strongly press the heating disk 46. Fix it to the front of the nozzle assembly 40.

In the method of installing the heating disc 46 'on the rear surface of the nozzle assembly 40, the rear disk recess 40b' and the fixed disk of the nozzle assembly 40 are respectively arranged in the axially perpendicular direction to the divided heating disk 46 '. Insert between the recesses of 39. Then, the bolts 47c are fastened to the bolt holes of the fixing plate 47 so that the tips of the bolts 47c press the heating disk 46 'strongly to fix the heating disk 46' to the front of the nozzle assembly 40. .

When the heating discs 46 and 46 'are not divided and are integrally annular, when the nozzle assembly 40 and the front cover 42 are installed, the heating discs 46 and 46' are mounted in advance. ) Into recesses 40b and 40b '.

The material of the heating discs 46 and 46 'has good heat transfer performance, so heat is transferred to the nozzle assembly 40 well.

In this state, extrusion is performed to combustible waste which is a material of the RPF. Combustible waste is introduced through the hopper 10 and transferred forward by the rotation of the feed screw 24 by the operation of the drive motor 25 of the feeder 20 to enter the connection box 22, and then the feed pipe Via 31 enters the space between the housing 32 and the cylinder 34.

On the other hand, when the drive motor 35 of the extrusion apparatus 30 is operated, the driving force is transmitted to the cylinder 34 via the reducer 36. When the cylinder 34 is rotated, since the conveying screw (not shown) is comprised in the outer surface of the cylinder 34, combustible waste moves forward.

When the combustible waste is supplied to the extrusion space 43, which is a space between the inner surface of the nozzle assembly 40 and the extrusion disc 38, the extrusion disc 38 is eccentric by the centerline of the cylinder 34 and is connected to the bearing 37. Since it is rotatable by the rolling movement along the extrusion groove (45a) of the nozzle assembly (40). At this time, the combustible waste in the extrusion space passes through the extrusion hole (40a) under pressure, the extrusion occurs.

The extrudate coming out through the extrusion action is cut by a predetermined length between the blocking plate 49 by a cutting blade 60 that rotates like the rotary arm 59 of the cutting device 50. At this time, the cut extrudate is blocked from being thrown inward by the blocking plate 49 and is separated by a lower conveying device 70 and is conveyed to a predetermined position.

In the heating apparatus of the present invention, when the flammable waste is extruded while passing through the extrusion hole 40a of the nozzle assembly 40, the heating discs 46 and 46 'are heated by the heating wire 46a, and the heating discs are heated. The heat of the 46 and 46 'is transmitted to the front and rear surfaces of the nozzle assembly 40 to melt the surface of the combustible garbage passing through the extrusion hole 40a.

Thus, the surface of the extrudate extruded from the extrusion hole 40a of the nozzle assembly 40 is integrally smooth, so that the compressed garbage is not decomposed and maintains a cylindrical shape, and is very convenient in the future transportation and handling process. Done.

Extruded surface heating apparatus of the present invention, the assembly is completed only by the installation of the heating disk 46, 46 'with the heating wire (46a) is inserted, the heating disk 46, 46' Since it is divided into two parts, the cover 44a and 44b can be removed and the bolts 47b and 47c can be removed from the nozzle assembly 40 without disassembling the other parts.

While the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

10: hopper 20: feeder
21: transfer support 22: connection box
23: rotating shaft 24: feed screw
25: drive motor
30: extrusion apparatus 31: input pipe
32: cylinder 32a, 32b: bearing
33: support frame 34: screw
34a: front end plate 34b: rear end plate
34c, 34d: central axis 34e: disc
34f: Connecting body 34g: Feeding wing
35: drive motor
36 reducer 36a, 36b coupling
37 bearing 38 extrusion plate
38a: edge portion 38b: center portion
39: fixed disk 39a: bolt
40: nozzle assembly 40b, 40b ': recessed part
40a: extrusion hole 41: nozzle
41d: headless bolt
42: front cover 42a: bolt
42b: inner cover 42c: outer cover
42ca: Connection bridge 43: Extrusion space
44a, 44b: cover 45: nozzle tip
45a: extrusion groove
46, 46 ': heating disc 46a: heating wire
46b: terminal 47: fixed plate
47a, 47b, 47c: bolt 48: pad
49: blocking plate 50: cutting device
60: cutting blade 70: feeder

Claims (3)

In the RPF molding machine comprising a nozzle assembly 40 in which a plurality of nozzles 41 are coupled in an annular shape and a plurality of extrusion holes 40a are radially formed,
Annular recesses 40b and 40b 'are respectively formed in the front and rear outer edge portions of the nozzle assembly 40 and inserted into the front and rear recesses 40b and 40b' of the nozzle assembly 40, respectively. It has an annular heating disk 46, 46 'shaped to have a heating wire 46a, and formed in the front and rear recesses 40b and 40b' of the nozzle assembly 40. Heating discs 46 and 46 'are inserted and joined;
The coupling of the heating disk 46 on the front side is coupled to the fixing plate 47 by the fastening of the bolt 47a to the annular fixing plate 47 at the edge of the outer cover 42c of the front cover 42. The bolt 47b is fastened to the formed bolt hole so that the tip of the bolt 47b is pressed by pressing the pad 48, and the coupling of the heating disk 46 'at the rear side is such that the heating disk 46' is inserted. A bolt hole is formed at the edge of the fixed disk 39 in which the recess is formed, and the bolt 47c is fastened to the bolt hole so that the tip of the bolt 47c is heated with the rear recess 40b 'of the nozzle assembly 40. An extruded surface heating device of an RPF molding machine, characterized in that the heating disk 46 'inserted between the recesses of the disk 46' is pressed to engage. 2. The extrusion of the RPF molding machine according to claim 1, wherein the annular heating disks 46 and 46 'are made of aluminum having good heat transfer performance, and the heating disks 46 and 46' are bisected left and right. Water surface burner. delete

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