KR20180018078A - Extrusion die - Google Patents

Abstract

The present invention relates to an extrusion mold. According to the present invention, the extrusion mold comprises: a male mold which comprises: a single-tube-shaped body (10a); a bridge (11) extended in the body (10a) in a diameter direction; and a pair of port holes (12) formed to allow an extrusion material to pass through both sides of the bridge (11), wherein each of the port holes (12) is divided into a first port hole and a second port hole (12a, 12b) by a barrier rib (16) extended to be at right angles to the bridge (11), and the internal cross-sectional area (S1) of the first port hole (12a) near one end of the bridge (11) is greater than an internal cross-sectional area (S2) of the second port hole (12b) near the other end of the bridge (11); a mandrel (30) formed as one body with the bridge (11) of the male mold (10) or as a separate body combined with the bridge (11) to have a flow path molding unit (31) to form an internal flow path (2) of an extrusion object (1) on a front end of the male mold (10) which protrudes forward; a female mold (20) combined with a front side of the male mold (10) to have an extrusion slot (21) at a position corresponding to the flow path molding unit (31) of the mandrel (30); and a dice holder (40) wherein a plurality of dice combination holes (41) are radially placed to accommodate dice for extrusion (10, 20) which are a combined body of the male mold (10) and the female mold (20). When the dice for extrusion (10, 20) are installed on the dice holder (40), the second port hole (12b) of the male mold (10) is placed to be closer to the center (C) of the dice holder (40) than to the first port hole (12a). The present invention provides the extrusion mold which is able to increase product stability, improve product quality, and increase consumer confidence.

Description

Extrusion die

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an extrusion die, and more particularly, to an extrusion die for molding aluminum or an alloy thereof such as a fin tube for a heat exchanger.

The extrusion die is attached to the tip of a heating cylinder for heating an extruded material such as aluminum and extrudes a fin tube for a heat exchanger. An extrudate having a desired shape is formed as the extruded material passes through the interior at a high pressure.

FIGS. 1 and 2 show a conventional extrusion mold, and FIG. 3 shows an extruded product 1 extruded through the extrusion die and exemplified as a fin tube for a heat exchanger. As shown in the drawing, the conventional extrusion die includes a die holder 40, which is coupled to the tip of the heating cylinder 3 and has a plurality of die coupling holes 41 formed therein, and a die coupling hole 41 of the die holder 40 And a plurality of extrusion dies (10, 20) for molding the extrudate. In this case, the extrusion dies 10 and 20 have a single-ended shape and are provided with a male mold 10 having a bridge 11 crossing in a radial direction at the center thereof, And a female mold 20 having a base 21 formed thereon. The mandrel 30 forming the flow path 2 of the fin tube 1 is coupled to the bridge 11 of the male die 10 and the mandrel 30 is inserted into the extrusion slot 21).

On the other hand, as shown in FIG. 2, the male mold 10 is formed with portholes 12 through which the extruded material passes on both sides of the bridge 11. At this time, each of the portholes 12 is elongated along the longitudinal direction of the bridge 11. The male mold 10 is installed in the dice holder 40 such that the bridges 11 are arranged in the radial direction of the dice holder 40.

The melted extruded material passing through the heating cylinder 3 is heated at a higher velocity than a portion near the center of the die holder 40 due to friction with the inner wall of the heating cylinder 3, The extruded material passing through the porthole 12 of the male die 10 has a fluctuation in the flow velocity at both end portions in the longitudinal direction of the single porthole 12. The thicknesses (t1, t2, t1? T2) of the outer ends of the flow paths 2 at both ends in the longitudinal direction of the cross section of the molded extrudate 1 are different from each other, There is a problem of poor stability and quality.

Korean Patent Registration No. 10-0811561

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to improve the quality of a product by reducing the difference in flow rate of the extruded material, And to provide an extrusion die capable of enhancing reliability.

According to an aspect of the present invention, there is provided a bridge structure including a body 10a having a single pipe shape, a bridge 11 extending in the radial direction inside the body 10a, Each port hole 12 is partitioned into first and second port holes 12a and 12b by partition walls 16 extending in a direction orthogonal to the bridge 11, Sectional area S1 of the first porthole 12a adjacent to one end of the elevating shaft 11 is larger than an inner sectional area S2 of the second porthole 12b adjacent to the other end of the bridge 11, ; The inner flow path 2 of the extrudate 1 is formed at the front end of the male mold 10 which protrudes forward as a whole and is integrally or integrally formed with the bridge 11 of the male mold 10 A mandrel 30 in which a flow path forming portion 31 is formed; An arm mold (20) coupled to a front of the male mold (10) and having an extrusion slot (21) formed at a position corresponding to the channel forming portion (31) of the mandrel (30); And a die holder 40 in which a plurality of die coupling holes 41 in which the extrusion dies 10 and 20 which are a combination of the male die 10 and the female die 20 are accommodated are radially arranged When the extrusion dies 10 and 20 are installed in the dice holder 40, the second port hole 12b of the male die 10 is positioned at the center of the dice holder 40 C of the extrusion die.

As described above, according to the present invention, a pair of portholes 12 formed on both sides of the bridge 11 are formed in the male die 10 of the extrusion dies 10, Sectional area S1 of the first port hole 12a adjacent to one end of the bridge 11 is located close to the other end of the bridge 11 by the first and second port holes 12a and 12b, Sectional area S2 of the second port hole 12b. When the male mold 10 is installed in the die coupling hole 41 of the die holder 40, the longitudinal direction of the bridge 11 is arranged in the radial direction of the die holder 40 and the pair of second port holes 12b Is disposed closer to the center C of the dice holder 40 than the first port hole 12a. Thus, the fluctuation of the flow rate of the extruded material passing through the first and second port holes 12a and 12b is reduced, so that the numerical values such as the thicknesses t1 and t2 at both ends in the longitudinal direction of the cross section of the extrudate 1, Since the variation of the physical properties is reduced, the stability of the product is improved, the quality of the product is improved, and the trust of the consumer is improved.

1 is an exploded perspective view showing an example of a conventional extrusion die;
Fig. 2 is a front view of the extrusion die of Fig. 1
3 is a view showing an extrudate produced by using an extrusion die;
4 is an exploded perspective view showing an embodiment of the extrusion die according to the present invention.
5 is a front view of the male mold of the embodiment
Fig. 6 is a front view showing the engaged state of the embodiment
7 is a side sectional view of the engaged state of the above-

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

4 to 7 are views showing an extrusion die according to an embodiment of the present invention. As shown in the figure, an extrusion mold according to an embodiment of the present invention includes a male mold 10, a mandrel 30 protruding from the center of the male mold 10, And a die holder 40 for accommodating at least one extrusion die 10, 20 which is a combination of the male die 10 and the female die 20.

The male mold 10 includes a body 10a in the shape of a single pipe, a bridge 11 extending in the radial direction on the inside of the body 10a, and an extrusion material passing through both sides in the width direction of the bridge 11 And a pair of portholes 12 penetrating each of the portholes. A protrusion 13 protruding forward is formed on the front surface of the body 10a and fixing protrusions 14 for fixing the arm 11 to the female mold 20 are projected forward at both ends of the bridge 11 in the longitudinal direction.

4 and 5, each port hole 12 is partitioned into first and second port holes 12a and 12b by partition walls 16 extending in a direction orthogonal to the bridge 11. As shown in FIG. The sectional area S1 of the first port hole 12a adjacent to one end of the bridge 11 is formed to be larger than the sectional area S2 of the second port hole 12b adjacent to the other end of the bridge 11, S2).

The mandrel 30 is for molding the internal flow path 2 of the extrudate 1 which is a known extrudate and has a plurality of teeth-shaped flow path forming portions 31 formed at its tip end, 31) can be variously modified depending on the shape of the extrudate. The mandrel 30 is integrally formed with the bridge 11 of the male die 10 or is formed as a separate body and is joined to the mandrel 30 and the flow path forming portion 31 is protruded forward of the male die 10.

The extrusion slot 21 is formed at the center of the male die 20 to allow the extrusion material to pass therethrough. The extrusion slot 21 is formed at the center of the mandrel 30, The flow path forming portion 31 is formed at a position corresponding to the flow path forming portion 31 of FIG. An unillustrated fixing groove into which the fixing protrusion 14 of the male mold 10 is inserted is formed on the rear surface of the female mold 20. An insertion groove 23 into which the protrusion 13 of the male mold 10 is inserted Is formed. As is well known, a combination of the female die 20 and the male die 10 is called extrusion dies 10 and 20 and is coupled to the die holder 40.

The die holder 40 is coupled to the tip of the heating cylinder 3 and is formed on the surface of the die holder 40 so that a die coupling hole 41 accommodating at least one of the extrusion dies 10 and 20 is arranged radially. In the illustrated embodiment, four die-coupling holes 41 are formed in the die holder 40, but the number of the die-coupling holes 41 may be two or four. On the inner wall of the die coupling hole 41 of the die holder 40 is formed a pin insertion groove 42 into which a fixing pin 50 for fixing the extrusion dies 10 and 20 is inserted and extends back and forth .

When the extrusion dies 10 and 20 constructed as described above are installed on the die coupling holes 41 of the dice holder 40, the longitudinal direction of the bridge 11 of the male die 10, as shown in Fig. 6, 40 and the second port hole 12b is located closer to the center C of the dice holder 40 than the first port hole 12a.

Accordingly, when the extruded material flowing into the die holder 40 through the heating cylinder 3 passes through the first and second port holes 12a and 12b of the male die 10 as shown in Figs. 5 and 7, The flow rate of the extruded material passing through the second port hole 12b is reduced while the sectional area S2 passes through the second port hole 12b which is smaller than the cross sectional area S1 of the first port hole 12a, The fluctuation of the flow rate of the extruded material passing through the porthole 12a and the relatively slow flow rate is reduced. The extruded material that has passed through the first and second port holes 12a and 12b passes through the extrusion slot 21 of the female die 20 in a state in which the deviation of the flow velocity is reduced. And the thicknesses t1 and t2 due to the deviation of the flow velocity are prevented from being lowered, that is, the thickness and the physical properties become uniform, so that the product is more stable, and the numerical stability and physical properties Uniformity and the like are improved and the quality of the product is improved.

4, front and rear chamfered portions 15 and 22 are respectively formed on the front edge of the male die 10 and the rear edge of the female die 20 as shown in FIG. The chamfered portions 15 and 22 are formed only on opposite sides of the male mold 10 and the female mold 20 and are not formed on the entire side surfaces of the male mold 10 and the female mold 20. The chamfered portions 15 and 22 serve as a reference point when the dies 10 and 20 are manufactured.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

1: extrudate 2: flow path
10: male mold 20: female mold
30: Mandrel 40: Dice holder

Claims (1)

A pair of portholes 12 formed on both sides of the bridge 11 so as to allow the extruded material to pass therethrough, and a pair of portholes 12 formed on both sides of the bridge 11. The body 10a has a single- And each port hole 12 is partitioned into first and second port holes 12a and 12b by partition walls 16 extending in a direction orthogonal to the bridge 11 and connected to one end of the bridge 11 Sectional area S1 of the first porthole 12a is larger than the inner cross-sectional area S2 of the second porthole 12b adjacent to the other end of the bridge 11;
The inner flow path 2 of the extrudate 1 is formed at the front end of the male mold 10 which protrudes forward as a whole and is integrally or integrally formed with the bridge 11 of the male mold 10 A mandrel 30 in which a flow path forming portion 31 is formed;
An arm mold (20) coupled to a front of the male mold (10) and having an extrusion slot (21) formed at a position corresponding to the channel forming portion (31) of the mandrel (30); And
And a die holder 40 in which a plurality of die coupling holes 41 in which the extrusion dies 10 and 20 which are a combination of the male die 10 and the female die 20 are accommodated are radially arranged ,
When the extrusion dies 10 and 20 are installed in the dice holder 40, the second port hole 12b of the male die 10 is positioned at a center C of the dice holder 40 rather than the first port hole 12a, Is disposed so as to be in close proximity to the outer circumferential surface.

Images