KR100915130B1 - Adjustable sizing apparatus of extrusion molding material - Google Patents

Abstract

Disclosed is a variable sizing device for easily adjusting the inner diameter of a sleeve to adjust the outer diameter of an extrudate. The variable sizing device includes a cylindrical sleeve in which a slit is formed in a longitudinal direction, and a sleeve adjusting portion for adjusting an inner diameter of the sleeve, wherein the sleeve adjusting portion is in contact with an outer surface of the sleeve circumference and has one or more separation points. Sleeve adjustment ring is formed on both sides of the separation portion adjustment screw coupling portion, the adjustment screw is coupled to each of the adjustment screw coupling portion, and the adjustment ring rotating portion for transmitting a rotational force in a predetermined direction to the adjustment screw. Here, the slit has a zigzag shape, is formed from the body of the sleeve to the end of the sleeve, one side of the adjustment screw is formed with a left screw, the other side is preferably formed with a right screw.

Description

Adjustable sizing apparatus of extrusion molding material

The present invention relates to a variable sizing device of an extruded molding, and more particularly, to a variable sizing device for controlling an outer diameter of an extrudate by easily adjusting the inner diameter of the sleeve.

Synthetic resin tube is a typical extruded molded product, and there are hard vinyl chloride (PVC) pipe, polyethylene (PE) pipe, etc., and it can be used for various purposes such as pipes such as electric wires and cables, heat insulation pipes, and noise prevention pipes. Used. Referring to the manufacturing apparatus of the synthetic resin tube as the extruded molding, Figure 1 is a view schematically showing the configuration of a conventional manufacturing apparatus of the synthetic resin tube, as shown in Figure 1, the manufacturing apparatus of the extruded molding extruded synthetic resin Extruder 10, the base die 20 for molding the synthetic resin extruded from the extruder 10 in the form of a tube, the sizing die 30 for adjusting the size of the molded tube, the inside of the molded tube is cooled To this end, it comprises an internal cooling device 50 located inside the molded tube, and a vacuum tank 80 including a sizing sleeve 70 for controlling the size of the synthetic resin tube. The extruder 10 is a conventional apparatus used to produce an extruded product such as a pipe, and melts a synthetic resin in a chip state supplied through a hopper 12 with a heater mounted inside the extruder 10. In addition, the molten synthetic resin functions to supply the base die 20 by using a conveying screw mounted inside the extruder 10. The base die 20 and the sizing die 30 are also conventional apparatuses used to manufacture an extruded molding such as a pipe, and a flow path 24 through which the molten synthetic resin 22 moves is formed, and the base die 20 allows the molten resin to be distributed in a cylindrical tubular shape, and the sizing die 30 serves primarily to control the size of the tube to be manufactured. The sizing sleeve 70 is finally a device for precisely controlling the outer diameter of the synthetic resin tube, etc. In general, the outer diameter of the synthetic resin tube is in accordance with the production rate of the tube, the cooling water temperature, the tube wall thickness of the tube, the shrinkage rate of the tube according to the raw material type It is greatly affected. By the way, in the conventional apparatus for manufacturing an extruded molding, the sizing sleeve has a fixed inner diameter, and in order to control the outer diameter of the extrudate according to the shrinkage ratio of the tube, a plurality of sizing sleeves having different inner diameters should be prepared. That is, in the manufacture of the synthetic resin pipe, according to the change in the manufacturing process conditions, a large number of sizing sleeves must be manufactured, and it must be replaced during the manufacturing process, the production cost of the extruded molding is excessive, and the difficulty of process management There is a problem that occurs, such as the need for supply and demand of professional personnel.

It is therefore an object of the present invention to provide a variable size sizing apparatus of an extrudate that can easily control the outer diameter of the extrudate.

It is an object of the present invention to provide a variable sizing device of an extrudate which can be simply controlled without additional equipment.

It is an object of the present invention to provide a variable sizing apparatus of an extrudate which can control the outer diameter of the extrudate of various materials.

In order to achieve the above object, the present invention includes a cylindrical sleeve having a slit formed in the longitudinal direction, and a sleeve adjusting portion for adjusting the inner diameter of the sleeve, wherein the sleeve adjusting portion is in contact with the outer surface of the sleeve circumference, and at least one separation There is a position, the sleeve adjustment ring is formed on both sides of the separation portion adjustment screw coupling portion, the adjustment screw coupled to each of the adjustment screw coupling portion, and the adjustment ring rotating portion for transmitting a rotational force in a predetermined direction to the adjustment screw It provides a variable sizing device that includes. Here, the slit has a zigzag shape, is formed from the body of the sleeve to the end of the sleeve, one side of the adjustment screw is formed with a left screw, the other side is preferably formed with a right screw.

The variable sizing device of the extruded molding according to the present invention includes a sleeve adjusting portion that can adjust the inner diameter of the sleeve, it is possible to easily adjust the outer diameter of the manufactured extrusion molding, it is also possible to simply adjust the sleeve adjusting unit without additional equipment There is an advantage that anyone can use easily. Accordingly, the variable sizing device of the extruded molding according to the present invention is easy to control the manufacturing error of the extruded molding, and can be directly adjusted in the field, it is possible to produce a more precise and accurate extrusion molding, thereby reducing the occurrence of bad material This has the advantage of reducing the overall manufacturing cost and speeding up the process.

1 is a view schematically showing the configuration of a conventional extrusion molding apparatus.

2A and 2B are side views of a variable sizing device according to an embodiment of the present invention, respectively, and a front view of the variable sizing device viewed from the A-A direction of FIG. 2A;

3A and 3B are respectively a side view after operation of the variable sizing device according to the embodiment of the present invention, and a front view of the variable sizing device as viewed from the direction B-B of FIG. 3A.

Hereinafter, with reference to the accompanying drawings will be described in detail the variable sizing apparatus of the extrusion molding according to a preferred embodiment of the present invention. 2A and 2B are side views of a variable sizing device according to an embodiment of the present invention, and a front view of the variable sizing device seen from the A-A direction of FIG. 2A, respectively.

As shown in FIG. 2A, a variable sizing device of an extruded molding according to an embodiment of the present invention includes a sleeve 712 and a sleeve adjuster, and supports the sleeve 712 and the sleeve adjuster structurally. The ring 740 may include an injection ring 770 through which the extrudate is injected, and a connection ring 746 connecting the injection ring 770 to the sleeve 712.

The sleeve 712 is a portion in which the circumferential outer surface of the extrudate introduced through the injection ring 770 is in contact with each other, and controls the outer diameter of the extrudate. Thus, to form a circular extrudate, the sleeve 712 is cylindrical, one end of the sleeve 712 is coupled to the injection ring 770 through a connecting ring 746, the sleeve 712 Slit (714) is formed in the body of the longitudinal direction. The inner diameter of the sleeve 712 varies depending on the outer diameter of the extrudate to be manufactured, and is usually 16 to 1600 mm, preferably 16 to 630 mm. In addition, the length of the sleeve 712 is varied depending on the inner diameter of the sleeve 712 and the characteristics of the material, use, and the like of the extruded molding to be produced, and is typically 200 to 1,000 mm, preferably 300 to 600 mm. In addition, the thickness of the sleeve 712 is varied depending on the inner diameter, length, etc. of the sleeve 712, is typically 5 to 30mm, preferably 4 to 20mm.

The slit 714 provides a space so that the inner diameter of the sleeve 712 can be changed. When the inner diameter of the sleeve 712 is reduced through the sleeve adjusting part, the space of the slit 714 is narrow. As a result, the inner diameter of the sleeve 712 becomes smaller. Thus, the slit 714 is formed in the longitudinal direction from the body of the sleeve 712 to the end of the sleeve 712, can induce a change in the inner diameter of the sleeve 712, and also the start end of the sleeve 712 Since the silver slit 714 is not formed, the deformed sleeve 712 can be restored to its original shape. The shape of the slit 714 may be a variety of shapes, such as straight, oblique in the longitudinal direction, preferably as shown in Figure 2a, for structural stability, may be a zigzag shape. That is, when the inner diameter of the sleeve 712 is small, since the slit 714 of the zigzag shape is engaged with each other and narrowed, the longitudinal movement of the sleeve 712 is prevented, and the inner diameter of the sleeve 712 is structurally stable. Will change. The slits 714 are arranged at equal intervals around the cylinder of the sleeve 712, the arrangement interval varies depending on the inner diameter of the sleeve 712, the number of the slits 714 arranged is 10 to 22, Preferably it is 12-20. The gap spacing of the slits 714 varies depending on the inner diameter of the sleeve 712 and the number of slits 714 arranged, and is typically 10 to 50 mm, preferably 5 to 30 mm. Therefore, when the inner diameter of the sleeve 712 is 180 mm, the number of slits 714 is 18, and the gap spacing of the slits 714 is 4 mm, when the space of the slit 714 is reduced to 2 mm, the sleeve ( The inner diameter of 712 becomes small, about 171 mm.

The sleeve adjusting unit is a device for adjusting the inner diameter of the sleeve 712, and is formed at the end of the sleeve 712, that is, the portion where the extrudate is discharged. The sleeve adjusting part may include a sleeve adjusting ring 722 in contact with the outer circumference of the sleeve 712, an adjusting screw 726 connected to the sleeve adjusting ring 722 to control the sleeve adjusting ring 722, and The adjusting screw 726 includes an adjustment ring rotating portion 724 for transmitting a rotational force in a predetermined direction, and may include a connecting shaft 732 and a remote control unit 734 connected to the adjusting ring rotating portion 724. have. The sleeve adjusting ring 722 is a device for inducing a change in the inner diameter of the sleeve 712 in contact with the outer circumferential surface of the sleeve 712, as shown in Figure 2b, two separation points up and down It may be formed, the adjustment screw 726 and the adjustment ring rotating part 724 is located in the separation point. That is, the separation point is a place where the adjustment ring rotating part 724 is located so as to control the diameter of the sleeve adjustment ring 722, the number of separation points varies depending on the material and the outer diameter of the manufactured extrusion molding, Preferably it is 1-4 places. In addition, the adjustment screw coupling portion 723 is formed on both sides of the separation portion of the sleeve adjustment ring 722. The adjustment screw 726 is a device for adjusting the inner diameter of the sleeve adjustment ring 722 in combination with the adjustment screw coupling portion 723 of the sleeve adjustment ring 722, one side is formed with a left side screw, the other side The right screw is formed. Here, the right screw means to move forward when turned to the right, the left screw means to move forward when turned to the left. That is, when the adjustment screw 726 rotates in a predetermined direction, since the rotation directions of the left and right screws positioned on both sides act in opposite directions, the sleeve adjustment ring 722 coupled with the adjustment screw 726 is adjusted. Movement toward the screw 726 causes the sleeve adjustment ring 722 to have a smaller diameter. Similarly, when the adjustment screw 726 rotates in the opposite direction, the rotation direction of the left and right screws positioned on both sides acts in opposite directions, so that the sleeve adjustment ring 722 moves away from the adjustment screw 726. As it moves, the diameter of the sleeve adjustment ring 722 becomes large. In addition, the adjustment screw 726 is connected to the adjustment ring rotating part 724.

The adjustment ring rotating unit 724 is a device for transmitting a rotational force in a predetermined direction to the adjustment screw 726, the 360-degree rotation is free, the direction of rotation of the adjustment screw 726 according to the right direction rotation and left direction rotation. Will be different. Accordingly, for this purpose, the adjusting ring rotating part 724 and the adjusting screw 726 may be connected to the pinch gear, that is, one end of the adjusting ring rotating part 724 and the center of the adjusting screw 726 may be formed. Can be. Accordingly, when the adjusting ring rotating part 724 is rotated in the right direction or the left direction, the adjusting screw 726 moving in engagement with the adjusting ring rotating part 724 rotates in a predetermined direction (clockwise or counterclockwise), so that the sleeve The diameter of the adjusting ring 722 becomes smaller or larger. In addition, the sleeve adjustment ring 722 may be combined with the connecting shaft 732, as shown in Figure 2a, the connecting shaft 732 is combined with the remote control unit 734, the remote control By adjusting the portion 734, the sleeve adjusting ring 722 may be rotated. Therefore, the variable sizing device according to an embodiment of the present invention, through the remote control unit 734, can easily and conveniently adjust the inner diameter of the sleeve adjusting ring 722 and the sleeve 712, and easily The outer diameter of the extrudate can be controlled.

An initial positional relationship between the sleeve adjustment ring 722 and the sleeve 712 will be described. Since the inner diameter of the sleeve 712 is reduced by reducing the diameter of the sleeve adjusting ring 722, that is, the inner diameter of the sleeve 712 is changed according to the change in the diameter of the sleeve adjusting ring 722. Accordingly, the sleeve adjustment ring 722 may be positioned at a predetermined interval to contact the sleeve 712 while maintaining the original shape of the sleeve 712. That is, the outer circumferential surface of the sleeve 712 and the inner circumferential surface of the sleeve adjustment ring 722 may be spaced apart by about 5 to 20 mm. In addition, the sleeve adjustment ring 722 may be positioned in contact with the sleeve 712. Therefore, in the initial position, it is possible to adjust the inner diameter of the sleeve 712 by reducing the diameter of the sleeve adjustment ring 722. Further, the sleeve adjustment ring 722 is in contact with the sleeve 712 in a state where the space of the slit 714 of the sleeve 712 is reduced, that is, the position where the inner diameter of the sleeve 712 is reduced. May be initially positioned. Therefore, the inner diameter of the sleeve 712 is reduced by reducing the diameter of the sleeve adjusting ring 722, and the inner diameter of the sleeve 712 is increased by expanding the diameter of the sleeve adjusting ring 722. That is, the inner diameter of the sleeve 712 may be adjusted by reducing and expanding the diameter of the sleeve adjusting ring 722.

The support ring 740 is a device for structurally and stably supporting the sleeve 712 and the sleeve adjuster. As shown in FIG. 2A, the connection ring 746 and the support ring 740 are supported shafts 742. The coupling shaft 732 is also coupled to the support ring 740. Thus, the sleeve 712 and the sleeve adjuster can operate while maintaining a circular shape. The support shaft 742 and / or the connecting shaft 732 may be provided in plural around the circumference of the sleeve 712. In addition, a coolant injection hole 762 may be installed at an outer circumferential surface of the injection ring 770, and the coolant injected into the coolant injection hole 762 is provided through a coolant jet hole (not shown) along a coolant passage (not shown). It is sprayed on the incoming extrudate, which makes it possible to reduce the surface temperature of the produced extrudate.

Next, the operation of the variable sizing apparatus according to an embodiment of the present invention will be described. 3A and 3B are respectively a side view after operation of the variable sizing apparatus according to an embodiment of the present invention and a front view of the variable sizing apparatus viewed from the B-B direction of FIG. 3A.

As shown in FIGS. 3A and 3B, when the adjusting ring rotating part 724 is rotated in the right direction, the adjusting screw 726 engaged with the adjusting ring rotating part 724 also rotates. That is, the right screw located on the right side (see FIG. 3B) of the adjusting screw 726 rotates to the right direction (based on the adjusting screw coupler 723 to be coupled), and the left screw located on the left side (based on FIG. 3B) is leftward. (Based on the control screw coupling unit 723 to be coupled). Accordingly, in the right direction rotation of the adjustment ring rotating part 724, the sleeve adjustment ring 722 coupled with the adjustment screw 726 moves toward the adjustment screw 726, that is, in a direction facing each other, so that the sleeve The diameter of the adjusting ring 722 becomes small. Therefore, since the diameter of the sleeve adjustment ring 722 is smaller, the sleeve adjustment ring 722 is in contact with the sleeve 712, the space of the slit 714 is reduced, the size of the sleeve 712 The inner diameter becomes small. Therefore, it is possible to control the outer diameter of the manufactured extrusion molding to be small. On the contrary, when the adjusting ring rotating part 724 is rotated in the left direction, the adjusting screw 726 is also rotated in the opposite direction, that is, the right screw rotates in the left direction and the left screw rotates in the right direction. Since the sleeve adjusting ring 722 moves away from the adjusting screw 726, that is, in a direction away from each other, the diameter of the sleeve adjusting ring 722 becomes large. Therefore, since the slit 714 is restored to its original size, the inner diameter of the sleeve 712 is increased, and the outer diameter of the extrudate is increased.

Claims (5)

A cylindrical sleeve in which slits are formed in the longitudinal direction, and A sleeve adjusting portion for adjusting the inner diameter of the sleeve, The sleeve adjusting portion is in contact with the outer surface of the sleeve circumference, there is at least one separation portion, a sleeve adjusting ring having adjustment screw coupling portion is formed on both sides of the separation portion, the adjustment screw coupled to the adjustment screw coupling portion, and Variable ring sizing device that comprises a control ring rotating portion for transmitting a rotational force in a predetermined direction to the adjustment screw. The variable sizing device of claim 1, wherein the slit is zigzag. The variable sizing device according to claim 1, wherein the slit is formed from the body of the sleeve to the end of the sleeve. The variable sizing apparatus according to claim 1, wherein a left side thread is formed at one side of the adjustment screw and a right side thread is formed at the other side. The variable sizing apparatus according to claim 1, wherein the adjusting screw and the adjusting ring rotating part are connected to the pin gear.