KR20190087182A - Heater magnet for extrusion die and process for extruding production - Google Patents

Abstract

The present invention relates to a magnet heater for an extrusion die and a production method of an extruded molding product using the same and, more particularly, to a magnet heater for an extrusion die which uses a specially designed magnet heater to increase the ease of assembly of the die heater and the durability of the heater and to increase the productivity of the extrusion molding product, and to a production method of an extruded molding product using the same. Since a bolt for assembling the heater do not come in direct contact with the extrusion die, the heater is closely assembled to the die in an extremely simple manner, thereby not needing advanced skills, and the working time is shortened, the durability of the heater is increased and the production productivity of the extruded molding product can be increased.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnet heater for an extrusion die and a method of manufacturing an extrusion die using the same,

The present invention relates to a magnet heater for an extrusion die and a method of manufacturing an extrusion molding using the magnet heater. More particularly, the present invention relates to a magnet heater for an extrusion die and a method of manufacturing the extrusion die using the specially designed heater magnet, The present invention relates to a heater magnet for an extrusion die capable of enhancing productivity and a method of manufacturing an extrusion molding using the same.

Generally, the extrudate to be applied to the extruder for producing an extruded product is composed of a sizing means and a cooling tank containing the cooling water sequentially, while being formed into a desired shape while passing a die through which the shape of the extrudate is determined at the tip of the extruder in a molten state The cooled extrudate is drawn out at a constant speed through a separate take-out means and finally cut through a cutting device to an appropriate size. The process is then continuously carried out do.

In such an extrusion apparatus, the mold is heated to an appropriately set temperature according to the type of the material and the like, thereby preventing the temperature deviation of the extrudate in the mold, thereby maintaining smooth discharge and moldability.

The mold heating apparatus (heater) for heating the extrusion mold as described above is constituted by connecting a plurality of plate-shaped heating elements which are in close contact with the outer surface of the mold, and the heating body is located inside and comes into direct contact with the mold, And a pressure plate which is formed in close contact with the outer side of the heater and improves the contact efficiency between the heater and the heat conduction plate by a pressing force to improve the thermal conductivity.

The heater, which is closely attached to the outer circumferential surface to raise heat to the extrusion mold, is assembled with bolts and nuts, and by heating the mold to a predetermined temperature, temperature deviation of the extrudate in the mold can be prevented, and smooth discharge and moldability can be maintained.

However, since such a heater is directly assembled with a bolt and a nut, it takes a long time in the process of work and requires a skill in assembly of a heater. Since the heater is fixed in direct contact with the mold, not only the surface of the mold is damaged, Are low.

Korean Patent Laid-Open Publication No. 10-1993-0016220 (Aug. 26, 1993) Korean Patent Publication No. 10-2008-0100866 (November 21, 2008) Korean Registered Utility Model No. 20-0330814 (October 10, 2003) Korean Registered Utility Model No. 20-0402362 (November 23, 2005)

The inventors of the present invention have solved the above-mentioned conventional problems and studied extensively in order to develop a more efficient mold heater. As a result, when the extrusion mold is assembled by using the heater magnet as described later, the problems of the above- In addition, since it is possible to assemble the heater to the mold in a simple manner, it is possible to increase the productivity of the extruded product while improving the durability of the heater, And has reached the completion of the invention.

Accordingly, it is an object of the present invention to provide a method of assembling a heater, in which a bolt for assembling a heater does not come into direct contact with an extrusion die, so that a heater can be assembled to a mold in a simple manner, And to provide a method for manufacturing an extruded molding using the same, and to provide a method for manufacturing an extruded molding using the same, which can improve durability and productivity of extruded products.

SUMMARY OF THE INVENTION [0006]

In a mold heater (20) closely assembled at the outside of the extrusion die (10) and directly contacting the extrusion die (10) to transfer heat,

The mold heater 20 has a rectangular heat conductive plate and a heater wire disposed therein,

A heater magnet receiving hole (30) is formed on an outer surface of a heat conduction plate region on which the heater wire is not provided, through the mold heater (20)

The holder 60 accommodating the magnet 80 and the fixture 70 are received in tight contact with the magnet receiving hole 30 so that the magnet 80 is coupled to the surface of the extrusion die 10 by the magnetic force And the heater (20) is closely attached to the extruding mold (10) by magnetic force. The magnet heater for an extrusion mold for maintaining the temperature of the extruding mold can be achieved.

According to the present invention, since the bolts for assembling the heater do not directly contact the extrusion mold, the heater can be closely assembled to the mold in an extremely simple manner, so that a high level of proficiency is not required and the time for the work process is shortened. And productivity of the extruded product can be increased.

1 is a view for explaining a state of assembling a heater of an extrusion die according to the prior art,
2 is a view for explaining a combination of a magnet heater for an extrusion die for an extrusion die with an extrusion die according to the present invention,
Fig. 3 is a view for explaining a side engagement state of a magnet heater for an extrusion die for an extrusion die according to the present invention,
4 is a view for explaining a side engagement state of a magnet heater for an extrusion die for an extrusion die according to another embodiment of the present invention,
Fig. 5 is a view for explaining a side fitting state of a holder of a magnet heater for an extrusion die for an extrusion die according to the present invention.

The present invention, in one aspect,

In a mold heater (20) closely assembled at the outside of the extrusion die (10) and directly contacting the extrusion die (10) to transfer heat,

The mold heater 20 has a rectangular heat conductive plate and a heater wire disposed therein,

A heater magnet receiving hole (30) is formed on an outer surface of a heat conduction plate region on which the heater wire is not provided, through the mold heater (20)

The holder 60 accommodating the magnet 80 and the fixture 70 are received in tight contact with the magnet receiving hole 30 so that the magnet 80 is coupled to the surface of the extrusion die 10 by the magnetic force A magnet heater for an extrusion die for maintaining a temperature of an extrusion die, characterized in that the heater (20) is closely attached to the extrusion die (10) by magnetic force.

According to another aspect of the present invention,

The bolt 40 is engaged with the holder 60 through the fastener 70,

The holder 60 is inserted into the heater magnet accommodating hole 30 in a state where the fixture 70 is in contact with one side of the fixture 70, the heater magnet 80 is accommodated in the holder 60,

A part of the fixture 70 is inserted into the heater magnet receiving hole 30 and the other part is engaged with the outer surface of the thermally conductive plate by protruding a stepped portion and the nut 50 is tightly coupled from the outside, And a bolt (40) penetrating through the through hole (40).

The present invention, in a further aspect,

The magnet (80) is a shimarium which does not lose magnetism even at a high temperature.

The invention, in another further aspect,

Wherein the holder (60) is provided with a locking part (64) on the outer side thereof.

The invention, in another further aspect,

Providing a mold at the tip of the extruder to determine the shape of the extrudate;

Assembling the heater containing the magnet on the outer slope of the mold;

Connecting the electric power to the extruder to raise the temperature of the mold;

Molding the extrudate into a predetermined shape through a mold in a molten state;

Cooling the formed product by sequentially passing through a cooling means composed of a sizing means and a cooling tank containing cooling water; And

And withdrawing the molded product at a constant speed to cut the molded product into a predetermined size. The present invention also provides a method of manufacturing an extruded product using the magnet heater for an extrusion die.

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

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that the disclosure can be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. In the drawings, the thicknesses of layers and regions are exaggerated for clarity. For ease of explanation, electrical wiring and the like are omitted.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be construed as ideal or overly formal in meaning unless explicitly defined in the present application Do not.

FIG. 1 is a view for explaining a state of assembling a heater of an extrusion die according to the prior art, FIG. 2 is a view for explaining a combination of a magnet heater for an extrusion die for an extrusion die for an extrusion die, Fig. 4 is a view for explaining a side engagement state of a magnet heater for an extrusion die for an extrusion die according to another embodiment of the present invention, and Fig. 5 is a view for explaining a side engagement state of a magnet heater for an extrusion die according to another embodiment of the present invention. Fig. 5 is a view for explaining the side fitting state of the holder of the magnet heater for the extrusion die for extrusion die.

The mold heater 20 according to the present invention is a member that is closely assembled at upper, lower, left, and right slopes outside the extrusion die 10 and is in direct contact with the extrusion die 10 to transmit heat. When a conventional heater is installed in a die, It is a kind of special magnet that is able to withstand high temperatures but does not have magnetism. It is a kind of special magnet that can affect magnetism. It is possible to adjust the position of the heater for the extrusion die by using such magnets.

The mold heater 20 has a basic structure in which a generally used rectangular heat conductive plate and heater wires are staggered therein.

The magnet accommodating hole 30 is formed to penetrate the mold heater 20 on the outer surface of a region where the heater wire is not provided in the heat conductive plate, so as to allow the magnet 80 to be received in a stable state. Of course, at the position where the heater 20 is attached to the mold 10, an insertion port 90 for sensing the temperature of the mold is formed.

The holder 60 accommodating the magnet 80 and the fixture 70 are received in tight contact with the magnet receiving hole 30 so that the magnet 80 is coupled to the surface of the extrusion die 10 by the magnetic force The heater 20 is closely attached to the extrusion die 10 by magnetic force.

More specifically, the holder 60 is for accommodating the heater magnet 80 therein, and is generally cylindrical in shape. The groove 60 for coupling the bolt 40 is formed at one side of the holder 60, And a female screw thread 61 is formed at an edge of the bolt 40 so as to be free to engage with the male thread 41 of the bolt 40. A space for accommodating the magnet 80 is formed on the other side, It is more preferable that an elastic member 63 capable of withstanding high temperature is provided at the interface so as to protect the magnet 80 and the outer side thereof is provided with a latching portion 64 for preventing the magnet 80 from being separated or pushed . If the magnet 80 does not have elasticity, it may not be easy to directly insert the magnet 80, so that the magnet 80 is inserted into the side surface It is possible to secure the space and push it to the side to fix it, and this example can be explained similarly to the insertion form of the circular battery.

The holder 60 is inserted into the heater magnet receiving hole 30 in a state where one side of the holder 60 is in contact with the fixture 70.

The fixture 70 has a hollow cap shape and has a hole through which the bolt 40 passes. The fixture 70 is inserted into the heater magnet receiving hole 30, The bolt 40 penetrates through the fastener 70 and the nut 50 is fastened to the outer surface of the plate 50. The nut 50 is fastened and fastened to the outer surface of the plate 50, (60).

The magnet 80 may be preferably a sintered magnet that does not lose magnetism even at a high temperature.

4 is a view for explaining a side engagement state of a magnet heater for an extrusion die for an extrusion die according to another embodiment of the present invention in which a bolt 45 is inserted into a through hole (62) of the holder (60) through the through hole (32).

It is preferable that the cross-sectional structure of the heater 20 suitable for such bonding has a structure in which a hole 32 is formed on one side and a groove 31 for accommodating the holder 60 on the other side.

Hereinafter, a method of manufacturing an extruded product using a magnet heater for an extrusion die according to the present invention will be described.

A method for manufacturing an extruded product using a magnet heater for an extrusion die according to the present invention starts by providing a mold for determining the shape of an extrudate at the tip of the extruder.

Next, the heater according to the present invention described above is assembled on the outer slope of the mold, and by using the magnet heater pre-assembled without using bolts or nuts, the close assembly is extremely simple.

Next, as a typical process, there is a typical process in which electricity is connected to the extruder to raise the temperature of the mold, the extrudate is introduced into the hopper, and the mold is pressed in a molten state to form a certain shape, Cooling means comprising cooling means and cooling water, cooling the formed product, withdrawing the obtained molded product at a constant speed, and cutting the molded product to a predetermined standard to produce an extruded product.

Since the heater 20 is adhered closely to the extrusion die by such a simple operation, the process can be shortened and the productivity of the extruded product can be improved. Further, since the mold 10 is not dull or scratched due to the bolt connection, Can be used.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, it is intended that the scope of the invention be defined by the claims appended hereto, and that all equivalent or equivalent variations thereof fall within the scope of the present invention.

10: Mold
20: Heater
30: hole
40: Bolt
50: Nut
60: Holder
70: Fixture
80: Magnet
90: Sensor insertion port

Claims (5)

In a mold heater (20) closely assembled at the outside of the extrusion die (10) and directly contacting the extrusion die (10) to transfer heat,
The mold heater 20 has a rectangular heat conductive plate and a heater wire disposed therein,
A heater magnet receiving hole (30) is formed on an outer surface of a heat conduction plate region on which the heater wire is not provided, through the mold heater (20)
The holder 60 accommodating the magnet 80 and the fixture 70 are received in tight contact with the magnet receiving hole 30 so that the magnet 80 is coupled to the surface of the extrusion die 10 by the magnetic force Wherein the heater (20) is closely attached to the extrusion die (10) by magnetic force. The method according to claim 1,
The bolt 40 is engaged with the holder 60 through the fastener 70,
The holder 60 is inserted into the heater magnet accommodating hole 30 in a state where the fixture 70 is in contact with one side of the fixture 70, the heater magnet 80 is accommodated in the holder 60,
A part of the fixture 70 is inserted into the heater magnet receiving hole 30 and the other part is engaged with the outer surface of the thermally conductive plate by protruding a stepped portion and the nut 50 is tightly coupled from the outside, Wherein the bolt (40) is formed in a through-hole. The method according to claim 1,
Wherein the magnet (80) is a sintered metal that does not lose magnetism even at a high temperature. The method according to claim 1,
Wherein the holder (60) is provided with a locking part (64) on the outer side thereof. Providing a mold at the tip of the extruder to determine the shape of the extrudate;
Assembling a heater containing a magnet according to claim 1 on an outer slope of a mold;
Connecting the electric power to the extruder to raise the temperature of the mold;
Molding the extrudate into a predetermined shape through a mold in a molten state;
Cooling the formed product by sequentially passing through a cooling means composed of a sizing means and a cooling tank containing cooling water; And
And withdrawing the molded product at a constant speed to cut the molded product into a predetermined standard.

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