KR20150071783A - Center adjusting apparatus for dice of blower molding machine - Google Patents

Abstract

The present invention relates to a center adjusting device used in an extrusion die of a blower molding machine. According to the present invention, the center adjusting device is used to adjust the radial gap (C1) between an inner die (120) and an outer die (110) in the extrusion die (100) which extrudes the melt resin through the radial gap (C1) between the inner and outer dies (110, 120) into a tube-shaped parison. One side of the present invention facing the outer die (110) in the radial direction supports a first elastic support while the other side supports a first cam tool (220). A side of the present invention supports a second elastic support (230) in the direction perpendicular to the first support (210) and the first cam tool (220) while the other side supports a second cam tool (240). The first and second cam tools (220, 240) are operated to match the center shaft of the outer die (110) to the inner die (120) or arrange the center shaft eccentrically.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a center adjusting device for a blow molding machine,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a blow molding machine for molding a thermoplastic resin into an empty container shape, and more particularly, to a blow molding machine capable of precisely adjusting the center of an outer die with respect to an inner die, To a center adjusting device for an extrusion die for a blow molding machine having a simple mechanical structure.

In a blow molding machine for producing a plastic beverage container, a food container, a water bottle, etc., a molten resin is called a parison (or a preform) in the form of a tube by extrusion. In the present specification, this is referred to as a parison ), Then putting the parison into the mold, blowing air into the parison through the blowing system, and pushing it to the inner wall of the mold to expand it, thereby making the product having the inner wall shape of the mold.

The parison is discharged downward through an orifice, which is a gap formed between the inner die and the outer die of the die, as disclosed in Patent Document 1, and the parison to be discharged is received and accommodated inside the opened die, After the mold is closed, the mold is closed, and air is injected into the parison, and the mold is opened to the inner wall of the mold to form a container shape having an inner surface of the mold.

The radial thickness of the parison is determined by the clearance between the inner die and the outer die. Depending on the container, the radial thickness may be uniform over the entire circumference or may be manufactured with a different thickness.

In order to uniformly manufacture the radial thickness across the entire circumference of the container, the centers of the inner and outer dies must be aligned. In contrast, in order to manufacture radial thicknesses differently, the centers of the inner and outer dies should be adjusted to be offset from each other.

Figures 1 and 2 schematically show a conventional arrangement for adjusting the centers of the inner and outer dies.

1 and 2, a conventional die centering device includes a cylinder device 12, 14 for moving the outer die 4 in the radial direction with respect to the inner die 2, to be.

Therefore, by the combination of the two cylinders 12 and 14 arranged in the perpendicular direction, the radial thickness is increased, and the radial clearance between the inner die 2 and the outer die 4 Sectional area) can be changed. Further, in order to uniform the radial thickness of the product over the entire circumference, the center axis of the outer die 4 is made to coincide with the center axis of the inner die 2 by the combination of the two cylinders 12, 14.

However, in the above conventional centering device for the dies, the operation of the cylinders 12 and 14 can not be finely and precisely controlled, and the center adjustment is deviated and takes a long time.

Japanese Patent Application Laid-Open No. 10-0698512 (2007.03.15.)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a center adjustment device for an extrusion dies for a blow molding machine capable of finely and precisely adjusting the center adjustment while having a simple structure.

In order to achieve the above object, the present invention provides an apparatus for adjusting the center of an extrusion die for a blow molding machine, comprising: an extrusion die for extruding a molten resin into a tube-shaped parison by a radial gap formed between the outer die and the inner die; Wherein the first and second elastic supports are disposed at positions facing each other in the radial direction of the outer dies, and the opposite side supports the first cam mechanism; One of which supports the second elastic support body and the other of which supports the second cam mechanism, at opposite positions in a direction perpendicular to the first support body and the first cam mechanism; And the central axes of the outer dies are aligned or deflected with the central axes of the inner dies by operation of the first cam mechanism and the second cam mechanism.

In one embodiment, the outer periphery of the outer dies is provided with a first follower surface and a second follower surface, each of which is formed in a tangential direction to be in contact with the first cam surface and the second cam surface of each of the first cam mechanism and the second cam mechanism, 2 tracking plane is formed.

According to the centering device for an extrusion die for a blow molding machine according to the present invention, the cam is constituted by a combination of two cams and two elastic supports, and the cam moves the outer die by the fine control of the motor, Since the center axis of the dice is finely and precisely adjusted, the thickness of the product is precisely adjusted, thereby improving the manufacturing quality.

1 is a plan view schematically showing a conventional centering device for extrusion dies.
2 is a front cross-sectional view schematically showing a conventional centering device for extrusion dies.
3 is a plan view schematically showing an apparatus for adjusting the center of an extrusion die according to the present invention.
4 is a plan view showing an example of adjusting the radial thickness of a product using the center adjusting device according to the present invention.
5 is a plan view showing another example in which the radial thickness of the product is adjusted using the center adjusting device according to the present invention.

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

3 is a plan view schematically showing an apparatus for adjusting the center of an extrusion die according to the present invention.

3, the center adjusting device of the extrusion dies according to the present invention is characterized in that the molten resin is formed into a tube-like shape by the radial clearance C1 formed between the outer die 110 and the inner die 120 And an extrusion die 100 for extruding into a recess.

The radial clearance C1 between the inner die 120 and the outer die 110 allows the center axis of the outer die 110 to be adjusted by moving the center axis of the inner die 110 relative to the center axis of the inner die 110 .

To this end, the first elastic support body 210 is supported on one side and the first cam mechanism 220 is supported on the opposite side in a radial direction of the outer dies 110.

The second elastic support body 230 is supported on one side and the second cam mechanism 240 is supported on the opposite side in a direction opposite to the first elastic support body 210 and the first cam mechanism 220 .

In the present invention, it is possible to adjust the center axis of the outer die 110 to match or deflect the central axis of the inner die 120 by the operation of the first cam mechanism 220 and the second cam mechanism 240 , Thereby adjusting the radial thickness of the gap (C1) formed between the inner die (110) and the outer die (120).

In the present embodiment, the first cam mechanism 220 includes a first cam 222 having a first cam surface 222a and a second cam 222 having a first cam 222 mounted thereon and rotated by a stepping motor The first camshaft 224 is provided with a first camshaft 224.

Similarly, the second cam mechanism 240 includes a second cam 242 having a second cam surface 242a and a second cam 242 having a second cam 242 mounted thereon and rotated by a stepping motor And has a camshaft 244.

The first cam mechanism 220 and the second cam mechanism 220 are provided on the outer periphery of the outer die 110 in order to stably contact the first and second cam mechanisms 220 and 240 and the outer die 110, First and second follower faces 226 and 246 are formed which are tangentially flat to contact with the first and second cam surfaces 222 and 242 of the first and second cam followers 240, respectively.

The first elastic support 210 elastically supports the outer dies 110 in a direction to push the first cam mechanism 220 and the second elastic support 230 supports the outer dies 110 in the second cam mechanism 240, And is elastically supported in the direction of pushing.

The outer dies 110 move in the direction of compressing or restoring the first elastic support 210 and the second elastic support 230 by the rotation of the first cam mechanism 220 and the second cam mechanism 240 .

According to the present invention as described above, the cam mechanism is operated by the step motor, and the gap C1 between the outer die 110 and the inner die 120 is finely and precisely held by the structure that supports the elastic supporter on the opposite side of the cam mechanism Can be controlled and adjusted.

Hereinafter, two examples of various adjustments will be described with reference to Figs. 4 and 5. Fig.

4 is a plan view showing an example of adjusting the radial thickness of a product using the center adjusting device according to the present invention.

4 illustrates a state in which the first cam mechanism 220 is operated to move the outer dies 110 to the right in the drawing relative to the inner dies 120 so as to enlarge the radial clearance C1 of the right- Thick < / RTI >

In this case, when the step motor of the first cam mechanism 220 is controlled to rotate the first cam 222 so that the short diameter portion of the first cam surface 222a comes into contact with the first follower surface 226, The elastic force of the first elastic supporter 210 causes the outer die 110 to move to the right in the figure so that the center axis of the outer die 110 moves to the right with respect to the center axis of the inner die 120 , The radial clearance (C1) of the right side becomes larger, and the radial clearance of the left side becomes narrower.

5 is a plan view showing another example in which the radial thickness of the product is adjusted using the center adjusting device according to the present invention.

5 shows a state where the second cam mechanism 240 is operated to move the outer dies 110 downward in the drawing relative to the inner dies 120 so as to enlarge the radial clearance C1 of the lower circumferential portion, Thick < / RTI >

In this case, when the step motor of the second cam mechanism 240 is controlled to rotate the second cam 242 so that the long diameter portion of the second cam surface 242a comes into contact with the second follower surface 246, The outer die 110 moves downward in the drawing. At this time, the second elastic supporter 230 is compressed. Therefore, the central axis of the outer die 110 moves downward with respect to the central axis of the inner die 120, so that the radial clearance C1 of the lower portion becomes larger, and the radial clearance of the upper portion becomes narrower.

The foregoing is a description of certain preferred embodiments of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein, but may be modified and altered without departing from the spirit and scope of the invention as defined in the appended claims.

100: extrusion die
110: outer die
120: inner side die
210: a first elastic support
220: first cam mechanism
222: cam
222a: cam face
224: cam shaft
226: First follower face
230: second elastic support
240: a second cam mechanism
242: Cam
242a: cam face
246: second follower face
C1: Niche

Claims (2)

The extrusion die 100 for extruding the molten resin into the tube-shaped parison by the radial clearance C1 formed between the outer die 110 and the inner die 120, 110), characterized in that the radial clearance (C1)
One side of the outer dies 110 supports the first elastic support 210 and the other side supports the first cam mechanism 220 at positions facing each other in the radial direction,
One end of the second elastic support body 230 is supported at a position facing the first support body 210 and the first cam mechanism 220 in a direction perpendicular to the first support body 210 and the second cam mechanism 240 is supported on the opposite side,
Characterized in that the center axis of the outer die (110) is made to coincide with or deflects the central axis of the inner die (120) by the action of the first cam mechanism (220) and the second cam mechanism (240) . The method according to claim 1,
In order to make contact with the first cam surface 222 and the second cam surface 242 of each of the first cam mechanism 220 and the second cam mechanism 240 on the outer periphery of the outer die 110, Wherein the first follower surface (226) and the second follower surface (246) are formed on the surface of the extruder die.

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