KR101670838B1 - Dies structure for extrusion molding product - Google Patents

Abstract

The present invention relates to a die structure for an extrusion molding machine, in which a plurality of die dies are inserted in a die casing to form a plurality of layers of extruded material, and a sufficient tensile strength can be obtained even with extrusion materials of the same material.
The die structure for an extrusion molding machine according to the present invention includes a die casing having a hollow so that one side and the other side are communicated with each other so as to be extruded after injection and passage of an extruded material and a plurality of die molds inserted into the die casing to form an extrusion passage, And a spiral portion formed on the outer circumferential surface of each of the plurality of die dies in a threaded shape to feed the extrusion material.

Description

DIES STRUCTURE FOR EXTRUSION MOLDING PRODUCT [0002]

The present invention relates to a die structure for an extrusion molding machine, and more particularly, to a die structure for an extrusion molding machine, in which a plurality of layers of extruded material can be manufactured from the same material and the direction of extrusion of the extrusion materials passing through the inner and outer die molds To a die structure for an extrusion molding machine, the structure of which is improved so that the tensile strength can be remarkably improved.

In general, an extruding apparatus, particularly an extrusion apparatus for regeneration of styrofoam or a synthetic resin product, is produced by grinding a remaining foamed styrofoam or a synthetic resin product, introducing the same into an extrusion apparatus, and heating the molten resin to extrude the molten resin through a discharge hole And produce raw materials.

On the other hand, a plurality of synthetic resin tubes, which are applied to a vinyl house or the like, are overlaid and overlaid on the house frame to be combined. It is inconvenient for the synthetic resin tubes to be stacked on the construction site,

An example of the prior art related to the conventional extrusion molding machine is disclosed in Korean Patent Registration No. 10-0615921 entitled "Extrusion Die for Extruder and Extruded Tube for Spiral Tube Manufacturing Method" (Registered on August 18, 2006) , The extrusion die for the extrusion molding machine has a core body fixed to a cylindrical body connected to the core cover so that a transfer path is formed between the core cover and the body and the core to transfer the molding resin supplied from the extruder first line, And a central stiffener extrusion pipe connected to the second line of the extruder is disposed.

As another prior art described above, as disclosed in Korean Unexamined Utility Model Publication No. 1998-020873 entitled " Extrusion head device for extrusion molding of a triple tube of synthetic resin material ", published on July 15, 1998, A first, a second and a third extrusion passage provided at an end thereof with an injection port to be injected and provided at the other end of each of the inclined flow passages A and B and a merging flow passage, and a discharge section connected to the junction temperature, The tube is extruded and then superimposed and discharged in a superficial form.

Conventionally, an extrusion die for an extrusion molding machine is constituted by a plurality of extrusion die dies, and has an advantage that a tensile strength can be improved by molding a plurality of extruded materials. However, different kinds of materials are supplied The manufacturing cost is increased.

Further, in the extrusion die for extrusion molding according to the prior art, when a raw material such as a pigment is added, a separate stirring facility is not provided.

Korean Patent Registration No. 10-0615921 entitled "Extrusion die for extrusion molding machine and extrusion molding tube for spiral tube manufacturing method" (registered on August 18, 2006) Korean Utility Model Application Publication No. 1998-020873 entitled "Extrusion head device for extrusion molding of a triple tube of synthetic resin material" (published on July 15, 1998)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a method of manufacturing a multi-layer extruded material by using the same material, And the extruded raw material can be easily fed into a plurality of die molds which are superimposed on each other through injection holes respectively formed to communicate with the plurality of die dies. And also to provide a die structure for an extrusion molding machine in which the structure of the extrusion molding machine is improved so that the extrusion raw material can be easily fed into the spiral portion through the inflow hole formed at the end of the spiral portion to induce the flow of the extrusion raw material along the spiral portion .

According to an aspect of the present invention for achieving the above object, the present invention provides a die casing including a die casing and a plurality of die dies inserted into the die casing, And a plurality of die dies formed to communicate with each other around the outer circumferential surface of each of the plurality of die dies so as to allow the flow of the extruded material to flow, And an inflow hole formed so as to be communicated with each other so as to be injected into the spiral portion of the extruded raw material.

Wherein the plurality of die dies includes a first die die, one side of which is coupled to one side of the die casing, an intermediate portion and the other side of which are inserted into the die casing, one side of which is coupled to one side of the first die die, A second die metal mold inserted into the interior of the one-die metal mold, and an n-th die metal mold having one side joined to one side of the second die metal mold and the remaining portion inserted into the second die metal mold.

The helical portion is formed in a direction in which adjacent ones of the plurality of die dies are opposite to each other.

The spiral portion is formed with a band-shaped latching groove horizontally around each die die.

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Embodiments of the present invention are characterized in that a plurality of die dies are arranged in a die casing, spiral portions are formed on the outer circumferential surface of each die mold, and the molten metal is fed along the spiral portion using a liquid extrusion raw material composed of the same material, So that the tensile strength of the extruded material can be remarkably improved by extruding the extruded material in multiple directions so that the direction of the extruded material intersects with each other. The liquid extrusion raw material is supplied smoothly to the spiral portion 250 through the inflow hole 555 in which the inside and the outside are communicated and the extrusion raw material in the inside is supplied smoothly to the space between the die molds, There is an advantage that the thickness of the extrudate to be extruded into multiple plies crossing in different directions is uniformly extruded.

1 is an exploded perspective view showing an embodiment of a die structure for an extrusion molding machine according to the present invention.
Figure 2 is a front view of Figure 1;
Fig. 3 is an assembled state diagram of Fig. 1; Fig.
4 is a use state diagram of an embodiment of the present invention.
5 is a view of an extrudate molded according to one embodiment of the present invention.
6 is an exploded perspective view showing another embodiment of a dice structure for an extrusion molding machine according to the present invention.

The present invention enables a plurality of die dies to be inserted into a die casing to form a plurality of layers of extruded material, and also to obtain a sufficient tensile strength even with an extruded raw material of the same material.

1 to 5, the die structure for an extrusion molding machine according to the present invention includes a die casing 100 having a hollow 105 for allowing one side and the other side to communicate with each other so as to be extruded after injection and passage of an extrusion material, A plurality of die dies inserted to form an extrusion passage in the die casing 100 and a spiral part 250 formed in a threaded shape on the outer circumferential surfaces of the plurality of die dies for transferring the extrusion material.

More specifically, a plurality of die molds are constituted by a plurality of at least two or more die molds, and each die mold has a structure in which respective through holes are formed so as to communicate with one side and the other side.

A stopper 650 for preventing leakage of the extruded raw material is coupled to the innermost die metal mold, here the side of the through hole of the second die metal mold.

The stopper (650) is provided with a lifting ring for lifting.

The first die metal mold 200 has one side coupled to one side of the die casing 100 and the other side inserted into the die casing 100. The first die metal mold 200 has a first side A second die metal mold 300 coupled to one side of the first die metal mold 200 and the remaining portion inserted into the first through hole 205 of the first die metal mold 200, And the remaining portion is inserted into the second through hole 305 of the second die metal mold 300.

That is, the plurality of die dies may include only the first and second die dies 200 and 300, or may include the third die dies 400 as shown in FIG. 6, A die mold (fourth die metal mold ... n die metal mold) can be disposed.

As a result, the space between the die casing 100 and the first die metal mold 200, and between the first die metal mold 200 and the second die metal mold 300 becomes an extrusion path for a plurality of die dies.

A plurality of coupling holes 110 are formed on one side of the die casing 100 for coupling with the first die mold 200.

The first die mold 200 has a flange 210 for fastening the die casing 100 to one side edge thereof and a plurality of first fastening holes 215 at the flange 210.

The first die metal mold 200 has a stepped step 220 formed at one side thereof to couple one end of the second die metal mold 300 to the second die metal mold 300, A second fastening hole 225 is formed.

6, when the plurality of die dies are formed of the first, second, and third die dies, the first die metal mold 200 and the second die metal mold 300, The mold 300 and the third die metal mold 400 are threaded in directions opposite to each other.

That is, when the spiral portion 250 is formed in the right-hand direction on the outer circumferential surface of the first die metal mold 200, the spiral portion 250 is formed in the left-hand direction on the second die metal mold 300, and on the outer peripheral surface of the third die metal mold 400 Left direction.

The spiral part 250 is partially formed around the outer circumferential surface of each die mold, and the spiral part 250 is omitted around the outer circumferential surface close to the other side of the die, so that the spiral part 250 has a simple cylindrical shape.

The spiral portion 250 may further include a band-shaped latching groove 255 formed horizontally around each die mold.

Since the jaws are formed on both sides in the process of intersecting the spiral part 250, when the additive material such as pigment contained in the extruded material is conveyed along the spiral part 250, As it passes over the jaw, it is turned upside down and performs a function of mixing well.

The plurality of die dies are formed with injection holes 550 at positions corresponding to the respective extrusion materials to be supplied between the die dies.

The plurality of molds are formed with an inflow hole 555 so that the extruded raw material is injected into the end portion of the spiral portion 250 so that the inside and outside of the inflow hole are communicated.

According to the present invention having such a configuration, first, a plurality of die dies are inserted into the hollow 105 of the die casing 100, and then the extrusion raw material supply pipe and the die casing 100 are coupled.

1 to 5, when the flange 210 of the first die mold 200 is bent at one side edge of the die mold 200 and at the other side of the die metal mold 200, The coupling hole 110 and the first coupling hole 215 are aligned with each other and then are coupled by a fastening member such as a bolt and the remaining portion of the first die metal mold 200 is inserted into the hollow cavity 105 .

The second die metal mold 300 is inserted into the first through hole 205 of the first die metal mold 200 and the edge of one side of the second die metal mold 300 is inserted into the end of the first die metal mold 200, The first and second die molds 200 and 300 are coupled to each other by fastening members such as bolts.

The stopper 650 is coupled to the other side end of the through hole to seal the through hole, so that the extruded material is extruded through the normal extrusion path, not through the through hole, in the die metal mold (here, the second die metal mold 300) will be

After the extruded raw material is supplied from the external extruded raw material supply pipe coupled with the die casing 100, the extruded raw material in the second through hole 305 is injected through the injection hole 550 into the inner second die die 300 and the first And enters the space between the die molds 200.

The extruded raw material is fed through the inflow hole 555 formed at the end of each spiral part 250 to the spiral part 250 and then transferred from one side to the other along the thread of the spiral part 250 And has a process of being extruded.

At this time, the extruded raw material containing the additive such as pigment is turned over while passing through the jaw portion of the hooking groove 255 formed horizontally in the middle of the spiral portion 250 in the process of being transferred from the spiral portion 250, After the raw materials for extrusion are uniformly mixed, they are again extruded from the other side of each die mold after passing through the spiral part (250).

5, the extrusion raw materials are fed along the spiral portion 250 formed in the plurality of die dies in different directions, And extruded in water.

Since the extruded raw material can employ the extruded raw material of the same material, the present invention has an advantage in that the manufacturing cost can be reduced because the conventional extruded raw material has a supply structure of a simple structure as compared with supplying different kinds of different raw materials.

A plurality of layers of the extrudate 10 are composed of extrudates on the inside and on the outside and the extrudate 10A on the outside is formed in the right screw direction while the extrudate 10B on the inside is formed in the left screw direction Are formed so as to intersect with each other.

Next, the multiple layers of the extrudate 10 are squeezed in the form of a flat plate by means of an extrusion guide (not shown) and a pressing roller, and can be used, for example, as a plastic wrapping a framework such as a vinyl house.

6, when the third die metal mold 400 is further provided on the components of the first embodiment described above, the third die metal mold 400 has the one side of the second die 400, And the remaining portion is inserted into the second through hole 305 of the second die metal mold 300. The second through hole 305 of the second die metal mold 300 is connected to the stepped portion 320 formed on one side of the mold 300,

In this case, the second die mold 300 has a rim portion and a stepped portion 320 formed at one side thereof, and a third fastening hole 225 is formed at a rim portion of the second die metal mold 300 to be fastened to the second fastening hole 225 of the first die metal mold 200. [ And a fourth fastening hole 325 is formed in the stepped portion 320 so as to engage with one side edge portion of the third die metal mold 400.

This shows that a plurality of die dies may be provided with other die dies as well as the first and second die dies 200 and 300 described above.

Another embodiment of the present invention having such a configuration is a method of manufacturing a mold in which the space between the die casing 100 and the first die metal mold 200, the space between the first die metal mold 200 and the second die metal mold 300, After the extruded raw material flows into the space between the die mold 300 and the third die mold 400, the extruded raw material is extruded from one side to the other side and extruded into a three-fold extrudate.

At this time, the three-ply extrudate is formed in the direction of the right screw, left screw, and right screw from the outermost side to the inside, so that the tensile strength can be greatly improved.

In the embodiments of the present invention described above, a plurality of die dies are arranged in a die casing 100, a spiral portion 250 is formed on the outer circumferential surface of each die die, and a liquid extrusion raw material composed of the same material is used The feed structure of the extruded raw material can be simplified and the cost can be reduced and the multiple extruded materials can be extruded so as to intersect one another in direction so that the tensile strength can be remarkably improved .

10: extrudate 10A: outer extrudate
10B: Inner extruded product 100: Dice casing
105: hollow 110:
200: first die mold 205: first through hole
210: flange 215: first fastening hole
220: step portion 225: second fastening hole
250: helix 255:
300: second die mold 305: second through hole
315: third fastening hole 320: stepped portion
325: fourth fastening hole 400: third die mold
550: Injection ball 555: Injection ball
650: Plug

Claims (5)

A die casing (100) provided so that one side and the other side are communicated with each other so as to allow an extruded raw material to pass therethrough; and a plurality of die dies inserted in the die casing (100)
And a spiral part (250) formed on an outer circumferential surface of each of the die dies for feeding the extruded raw material,
The plurality of die dies includes an injection hole 550 formed to communicate with the periphery of each of the die dies so as to allow the flow of the extrusion raw material,
And an inflow hole (555) formed in the end of the helical part (250) so as to communicate with the inside and the outside so as to be injected into the spiral part (250). The method according to claim 1,
A first die metal mold 200 having one side connected to one side of the die casing 100 and an intermediate side and the other side inserted into the die casing 100;
A second die metal mold 300 having one side coupled to one side of the first die metal mold 200 and the other side inserted into the first die metal mold 200,
And an n-th die mold having one side coupled to one side of the second die mold (300) and the other side inserted into the second die mold (300). The method according to claim 1,
Wherein the spiral portion (250) is formed in a direction opposite to that of adjacent ones of the plurality of die dies. The method according to claim 1,
Wherein the spiral part (250) has a band-shaped latching groove (255) formed horizontally around each die mold. delete

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