KR101430206B1 - Apparatus for preventing extruded product from bending - Google Patents

Abstract

The present invention relates to an extruded product bending prevention device, and more particularly, to an extruded product bending prevention device which is provided at a rear portion of an extrusion die and which reduces a speed of an extrudate by contact with an extrudate. A vertical movement adjusting unit for moving the speed control member in the vertical direction; And a left and right movement adjusting unit for adjusting the movement of the speed control member in the left-right direction, so that the speed control member can be accurately and easily operated in the up-and-down direction and the left-right direction to effectively prevent the warping of the extruded product. ≪ / RTI >

Honeycomb, structure, segment, filter, extruder, speed, warp

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an extruded product,

More particularly, the present invention relates to a device for preventing bending of an extruded product, and more particularly, to a device for preventing bending of an extruded product by providing a speed control member for reducing a speed in contact with an extruded product at a rear portion of the extrusion die, The movement of the speed control member can be accurately and easily operated and the movement of the speed control member can be numerically controlled so that the warping phenomenon of the extrudate can be prevented in a data- To an apparatus for preventing warpage of extruded products.

Generally, it is required that the extrudate in the form of a long bar be extruded and formed straight without warping. For example, a honeycomb segment used for a filter for removing particulates contained in an exhaust gas and the like is used.

FIG. 1 is a perspective view of a honeycomb segment, and FIG. 2 shows a honeycomb structure in which a plurality of honeycomb segments shown in FIG. 1 are bonded.

1 and 2, the honeycomb segment 1 generally has a honeycomb structure in the form of a rectangular column. And a channel 3 provided by a porous partition 2 is formed in the longitudinal direction thereof, through which exhaust gas containing dust is passed.

A plurality of honeycomb segments 1 are joined together by a bonding material 4 and then subjected to an outer wall treatment with a heat-resistant finishing material 5 after the outer peripheral portion is subjected to a grinding treatment to produce a cylindrical honeycomb structure as shown in Fig. 2 . Such a honeycomb structure is usefully used for a diesel particulate filter (DPF) or a catalyst carrier.

The honeycomb segment 1 is extrusion-molded and then dried and sintered. In this honeycomb segment 1, the partition wall 2 and the channel 3 are formed during the extrusion molding process, which is achieved by the structure of the extrusion die. For example, U.S. Patent Publication No. 2004-0041296 (Document 1) discloses an extrusion die capable of forming partition walls 2 and channels 3 of various structures.

The honeycomb segment 1 should have excellent linearity without warpage in consideration of easiness of work in the joining step and the like and efficiency of the filter. However, the honeycomb segment 1 is warped during the extrusion molding process, the drying process, and the sintering process. In the drying process or sintering process, shrinkage is a major factor in the occurrence of warpage. In the extrusion molding process, rotation of a screw is a main factor of occurrence of warpage.

This will be described with reference to FIGS. 3 and 4. FIG. FIG. 3 is a cross-sectional view showing a schematic view of an extrusion die according to the related art, and FIG. 4 is a view showing a rear view of the extrusion die shown in FIG. 3 viewed from the front.

Referring to FIGS. 3 and 4, an extruder in which a screw 7 is embedded is generally used for molding an extrudate. The extruded material (for example, a slurry such as ceramic powder) introduced into the hopper 6 is kneaded by the rotation of the screw 7 and extruded toward the extrusion die 8. At this time, a difference in extrusion speed occurs between the upper side and the lower side and the left side and the right side due to the rotation of the screw 7, and a bent site of the extrudate is generated. For example, if the left extrusion speed is faster than the right extrusion, the extrusion will bend to the right. 3, reference numeral h denotes a heat transfer medium.

In order to prevent the bending phenomenon caused by the difference in the extrusion speed as described above, conventionally, a technique of attaching the speed control member 9 to the rear portion of the die 8 has been attempted. At this time, as shown in FIG. 4, the speed control member 9 is composed of four pieces (9a to 9d) separated from each other as the upper side, the lower side, the left side and the right side. For example, when the extruded material is deflected to the right due to the rapid extrusion speed of the left side, the left speed control member 9c is moved to the right side to decelerate the left extrusion speed through contact between the extrudate and the speed control member 9c Thereby preventing warpage. At this time, when the left speed control member 9c is moved, it is operated by hitting it with a hammer.

However, according to the related art, as described above, the speed control member 9 is operated by beating with a hammer, so that the movement of the speed control member 9 can not be accurately and easily operated, ) Must be repeatedly operated several times. Further, since the movement of the speed control member 9 can not be precisely controlled in a data manner, the speed control member 9 must be operated in accordance with the viscosity of the material and the rotation speed of the screw 7 for each step . In addition, since the speed control member 9 has a separate structure of four (9a-9d) upper and lower / left / right, there is a troublesome movement operation. For example, when the left speed control member 9c is moved, the right speed control member 9d also has to be moved together.

[Patent Document 1] United States Patent Application Publication No. US 2004-0041296

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a speed control member at a rear portion of an extrusion die, There is provided an apparatus for preventing warpage of an extruded product capable of precisely and easily operating a movement of a speed control member and numerically controlling the movement of the speed control member to prevent a warp phenomenon of the extrudate from being data It has its purpose.

According to an aspect of the present invention,

A speed control member provided at a rear portion of the extrusion die for decelerating the speed of the extrudate by contact with the extrudate;

A vertical movement control unit for moving the speed control member in a vertical direction; And

And a left and right movement adjusting unit for adjusting the movement of the speed control member in the left and right direction.

The speed control member is composed of four members, that is, upper, lower, left, and right, according to a preferred embodiment, and they are integrally formed and have a rectangular shape.

Further, it is preferable that the speed control member has a rectangular frame shape integrally formed as described above, and the corner portion is formed in a round shape. The speed control member may be installed apart from the extrusion die. Preferably, the speed control member is coupled to the rear portion of the extrusion die, and may be installed in a sliding structure that can be freely moved in the up, down, left, and right directions.

The up-and-down movement control unit and the left and right movement control unit precisely move the speed control member in the up-down direction and the left-right direction. The up-down movement control unit and the left- , Preferably a scale gauge.

According to the present invention, the speed control member can be accurately and easily operated in the vertical and lateral directions through the vertical movement control unit and the horizontal movement control unit. The movement of the speed control member can be numerically controlled by the scale gauge provided in the up-and-down movement control unit and the left-right movement control unit, so that the bending phenomenon of the extrusion can be prevented .

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

Fig. 5 shows an exemplary embodiment of a deflection preventing device according to the present invention, and is a view showing the rear side of the extrusion die. 6 is a configuration diagram of a vertical movement control unit constituting the bending prevention device according to the present invention, and FIG. 7 is a configuration diagram of a left and right movement control unit constituting the bending prevention device according to the present invention .

5 to 7, an extrusion bending prevention device according to the present invention includes a speed control member 100; A vertical movement adjusting unit 200 for adjusting the vertical movement of the speed control member 100; And a left and right movement control unit 300 for controlling the movement of the speed control member 100 in the left and right direction.

The speed control member 100 is for decelerating the extrusion speed of the extrudate, which is provided at the rear of the extrusion die, that is, at the end of the extrusion die from which the extrudate comes out. The greater the contact area between the speed control member 100 and the extrudate, the slower the speed of the extrudate.

The speed control member 100 may be divided into upper, lower, left, and right four members as in the prior art. However, according to a preferred embodiment of the present invention, the upper, lower, left, It is preferable to have an integrally formed rectangular frame shape. In addition, the speed control member 100 may have a rectangular frame shape integrally formed as described above, and the four corner portions may be formed in a round (R) shape.

The speed control member 100 may be installed separately from the extrusion die. Preferably, the speed control member 100 is slidably coupled to the rear portion of the extrusion die, Structure. For example, a guide rail is formed on a rear surface of the speed control member 100, and a guide groove is formed in a rear portion of the extrusion die to slide the guide rail. And can be installed in a structure that can slide in the up, down, left, and right directions. On the contrary, a guide groove may be formed on the rear surface of the speed control member 100, and a guide rail may be formed on the rear portion of the extrusion die so as to be slidable. The speed control member 100 has a rectangular shape as described above, and one or more than two speed control members 100 may be installed in the apparatus.

The up-and-down movement control unit 200 controls the movement of the speed control member 100 in the up-and-down direction. The up-and-down movement control unit 200 may be installed only at the upper portion, at the lower portion, or at both the upper portion and the lower portion. The figures illustrate the installation on both the upper and lower portions. At this time, in the case where it is installed in both the upper and lower portions, it can be divided into the phase shifter unit 200 and the lower shifter unit 200 as illustrated in the figure.

The up and down movement control unit 200 includes a vertical movement member 210 connected to the velocity control member 100 to move the velocity control member 100 up and down, And a vertical operation member 220 for vertically driving the upper and lower operation members. At this time, the up-and-down operation member 220 can be connected to the up-and-down driving member 210 in a gear structure so that the operation can be finely performed. For example, the up-and-down operation member 220 may include one or two or more gears, such as a microscope coarse screw (and fine threaded screw) structure, The upper and lower driving member 210 can be finely driven. The up-and-down movement adjusting unit 200 preferably further includes a scale gauge for numerically confirming the degree of movement of the speed-controlling member 100. At this time, the scale gauge may be an electronic digital micro gauge, for example.

The left and right movement control unit 300 controls the movement of the speed control member 100 in the left and right direction and may have the same structure as that of the up and down movement control unit 200. Specifically, the left / right movement control unit 300 may be installed only on the left side, on the right side, or on both the left and right sides. The drawings illustrate the installation on both the left and right sides. In this case, when both the right and left sides are installed, the left moving unit 300 and the right moving unit 300 can be divided as shown in the figure.

The left and right movement controlling unit 300 includes a left and right driving member 310 connected to the speed controlling member 100 to move the speed controlling member 100 to the left and right, And a left and right operating member 320 for driving the left and right operating members 320 to the left and right. At this time, the left and right operating members 320 may be connected to the left and right driving members 310 in a gear structure so as to enable fine manipulation. For example, the left and right operating member 320 may include one or two or more gears, such as a microscope coarse screw (and fine threaded screw) structure, for example, It is sufficient that the left and right driving members 310 can be finely driven. It is preferable that the left and right movement control unit 300 further includes a graduation gauge that can numerically confirm the degree of movement of the speed control member 100. [ At this time, the scale gauge may be an electronic digital micro gauge, for example.

As described above, the present invention can accurately and easily operate the speed control member 100 in the up-and-down direction and the left-right direction, including the up-and-down movement control unit 200 and the left- Thus, warping of the extrudate can be prevented. For example, if the extrusion speed is higher on the left than on the right, and the extrudate is bent to the right, the speed control member 100 is moved to the right. By this movement, the area of contact with the extrudate on the left side is increased, so that the extrusion speed is reduced, thereby preventing the extrusion from being warped. In addition, movement of the speed control member 100 is numerically controlled by the scale gauge installed in the up-and-down movement control unit 200 and the left-right movement control unit 300, Can be prevented.

The apparatus for preventing warpage of extrudate according to the present invention is a honeycomb segment used for a catalyst carrier or a filter for removing particulates contained in an exhaust gas. Specifically, the honeycomb segment of the honeycomb segment as shown in FIG. 1 And can be usefully used in extrusion molding.

1 is a perspective view of a honeycomb segment.

FIG. 2 is a perspective view of a honeycomb structure formed by bonding a plurality of honeycomb segments shown in FIG. 1; FIG.

Fig. 3 is a schematic configuration diagram of an extrusion die according to the prior art.

FIG. 4 is a front view of the rear portion of the extrusion die shown in FIG. 3. FIG.

5 is a block diagram showing an exemplary embodiment of a deflection preventing device according to the present invention.

6 is a configuration diagram of the up-and-down movement adjusting unit constituting the deflection preventing device according to the present invention.

7 is a configuration diagram of a left and right movement adjusting unit constituting a warp preventing apparatus according to the present invention.

Description of the Related Art

100: speed control member 200: vertical movement control unit

210: upper and lower driving member 220: upper and lower operating member

300: a left / right movement control unit 310: a left / right drive member

320: right and left operating member

Claims (8)

A speed control member provided at a rear portion of the extrusion die for decelerating the speed of the extrudate by contact with the extrudate; A vertical movement adjusting unit for moving the speed control member in the vertical direction; And And a left and right movement adjusting unit for adjusting the movement of the speed control member in the left and right directions. The method according to claim 1, Wherein the speed control member has a rectangular frame shape in which four members of the upper side, the lower side, the left side, and the right side are integrally formed. 3. The method of claim 2, Wherein the speed control member is installed in a sliding structure on a rear portion of the extrusion die. The method of claim 3, Wherein a guide rail is formed on the speed control member and a guide groove is formed in a rear portion of the extrusion die to slide the guide rail. The method according to claim 1, Wherein the up-and-down movement adjusting unit includes an up-down drive member connected to the speed control member to move the speed control member up and down, and a vertically operating member for vertically driving the up- Deflection device. 6. The method of claim 5, Wherein the up-and-down movement adjusting unit further comprises a scale gauge. The method according to claim 1, Wherein the left and right movement adjusting unit includes left and right driving members connected to the speed control member so that the speed control member is moved left and right and right and left operating members for driving the left and right driving members in the left and right direction by a rotating operation Deflection device. 8. The method of claim 7, Wherein the left-right movement adjusting unit further comprises a scale gauge.

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