KR20130056942A - Molding apparatus for small diameter tube - Google Patents

Abstract

PURPOSE: A molding device for a small diameter tube is provided to obtain reproducibility with respect to the quality of a product which is molded by forming a member for maintaining a core pin to be in central position in the end portion of the core pin. CONSTITUTION: A molding device for a small diameter tube comprises a tension maintaining member(30) and a central position maintaining member. The tension maintaining member is equipped on a material input unit of the molding device and maintains the tension of a material. The central position maintaining member maintains the central position of a core pin by being formed in the end portion of the core pin(P). A cavity(C) in a small diameter tube shape in the central position of the mold device. The core pin is formed inside the cavity.

Description

Molding apparatus for small-diameter tube molding {MOLDING APPARATUS FOR SMALL DIAMETER TUBE}

The present invention relates to a mold apparatus for forming a small-diameter tube, and specifically, can maintain stresses on material input, pressurization, material flow, thermal expansion, and the like. The present invention relates to a mold apparatus for forming a small-diameter tube as well as to maintain it, and to suppress deformation of the molded tube due to high temperature during extraction of the molded small-diameter tube.

In general, the molding method of the small-diameter tube is an extrusion or connection molding method, but mold molding is mainly used in terms of the quality of the out of roundness (surface roughness) and surface roughness (surface roughness).

As a related prior art, Republic of Korea Patent Publication No. 10-0815790, as shown in Figure 1, consisting of the upper mold 210 and the lower mold 220, the upper mold 210 and the lower mold 220 In the cavity (cavity) formed in the center portion of the) is disclosed a tube forming die 200 is provided with a core pin (not shown).

On the other hand, the main content to be considered in the mold apparatus for molding the small-diameter tube as described above is to ensure the reproducibility of the product quality, and to secure the mold durability for productivity and continuous operation.

In other words, it is very important to maintain the stress on the material input, pressurization, flow of the material and thermal expansion, and to register the center of the core pin of the mold during vulcanization molding.

Nevertheless, the prior art as described above has not been able to secure reproducibility of product quality due to the absence of a separate stress holding means and a core position maintaining means of the core pin in addition to the mold, as well as a mold for productivity and continuous work. There was a problem that can not secure the durability.

In addition, when demolding the mold, there is a problem that the molded tube is deformed by the high temperature.

: Republic of Korea Patent Publication No. 10-0815790 "Metal for forming conical tube and method of manufacturing the conical tube using the same"

The present invention is to solve the above problems, in the mold apparatus for forming a small diameter tube, the material input portion of the mold apparatus is a stress holding means that can maintain the stress on the material input, pressurization, material flow and thermal expansion A central position holding means is provided at the end of the core pin, which is installed at the side and allows the core pin to maintain its center position during vulcanization of the material, thereby ensuring reproducibility of the quality of the molded product, productivity and continuous An object of the present invention is to provide a mold apparatus for forming a small diameter tube to ensure mold durability for work.

In addition, another object of the present invention is to provide a mold apparatus for forming a small-diameter tube, which further includes a deformation inhibiting means capable of suppressing deformation of the molded tube by high temperature during extraction of the molded small-diameter tube.

The present invention relates to a mold apparatus for forming a small diameter tube, wherein a cavity having a small diameter tube shape is formed at the center of the upper mold and the lower mold, and a core pin is provided in the cavity. Is configured on the material input side of the stress holding means for maintaining the stress of the material; And a center position holding means formed at an end portion of the core pin to maintain a center position of the core pin.

On the other hand, the mold apparatus is configured to further include a deformation inhibiting means configured on the material discharge portion side of the mold apparatus to suppress the deformation of the molded tube due to the high temperature during extraction of the molded small diameter tube. desirable.

In addition, the stress holding means is made by combining the first block and the second block up and down, it is preferable that one end of the core pin is coupled to the center of the coupling boundary line of the first block and the second block.

In addition, the center position maintaining means, it is preferable that the one end of the end of the core pin is a forced tensile auxiliary groove formed by recessed toward the center side of the core pin along the periphery of the end.

In addition, the deformation inhibiting means, the upper jig and the lower jig is made up and down, it is preferable that the other end of the core pin is coupled to the center of the coupling boundary line of the upper jig and the lower jig.

In the mold apparatus for forming a small-diameter tube, the present invention provides a stress holding means capable of maintaining a stress on material input, pressurization, material flow, thermal expansion, and the like, which is provided on the material input side of the mold apparatus, and further vulcanizes the material. A central position maintaining means is formed at the end of the core pin to allow the core pin to maintain its center position during molding, thereby ensuring reproducibility of the quality of the molded product, and securing moldability for productivity and continuous operation. There is an advantage.

In addition, the extraction of the molded small diameter tube, there is an advantage that can suppress the deformation of the molded tube by high temperature.

1 is a view showing a mold apparatus according to the prior art
2 is a view showing a mold apparatus for forming a small diameter tube according to an embodiment of the present invention.
3 is a view showing a stress holding means of FIG.
4 is a view showing the central position maintaining means of FIG.
5 is a view showing a deformation inhibiting means according to an embodiment of the present invention;

The above objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

2 is a view showing a mold apparatus for forming a small diameter tube according to an embodiment of the present invention, Figure 3 is a view showing the stress holding means of Figure 2, Figure 4 is a view showing the central position holding means of Figure 2 5 is a view showing the deformation inhibiting means according to an embodiment of the present invention.

Referring to FIG. 2, in the present invention, when the upper mold 10 and the lower mold 20 are coupled to each other, a cavity C having a small diameter tube shape is formed at the center thereof, and a core pin is formed inside the cavity C. In the mold apparatus 100 for forming a small diameter tube provided with P), the apparatus includes a stress holding means 30 and a center position holding means 40 (see Fig. 4).

The stress holding means 30, which is configured on the material input portion side of the mold apparatus 100, to maintain the stress of the material, as shown in Figure 3, the first block 30a and the second block 30b, one end of the core pin P is coupled to a central portion of the coupling boundary line between the first block 30a and the second block 30b.

On the other hand, the stress holding means 30 may be coupled to the material input side of the mold apparatus 100 in various forms, but for a firm coupling, as shown in Figure 3, of the stress holding means 30 It is preferable to form coupling grooves 30c at one end of both sides, and to form coupling pins 30d at one end of the material input part side of the mold apparatus 100 to be fastened to each other.

The center position maintaining means 40 is formed at the end of the core pin (P) to maintain the center position of the core pin (P), as shown in Figure 4, the core pin (P) Tensile force is formed along the periphery of one end of the core pin (P) is made of a forced tensile auxiliary groove (40a) formed by the step difference between the diameter of the core pin (P) diameter and the forced tensile auxiliary groove (40a) This prevents the core pin (P) from deviating from the center.

Therefore, it is possible to maintain stress on material input, pressurization, material flow and thermal expansion, and also, when vulcanizing the material, the core pin can maintain its center position.

Meanwhile, referring to FIG. 5, the mold apparatus 100 configured as described above may further include a deformation inhibiting means 50.

The deformation inhibiting means 50 is configured on the material discharge part side of the mold apparatus 100 to prevent deformation of the molded tube due to high temperature when the molded small diameter tube is extracted. As shown, the upper jig (50a) and the lower jig (50b) is made by combining up and down, the core pin (P, Fig. 2) in the center of the coupling boundary line of the upper jig (50a) and lower jig (50b) The other end of the () (opposite side of one end to which the stress maintaining means 30 is coupled) is coupled.

Therefore, when the shaped small diameter tube is taken out, the molded tube is firmly held, thereby suppressing deformation by high temperature.

On the other hand, in addition to the mechanical extraction method through the upper jig (50a) and the lower jig (50b) as described above by plating the surface of the mold (C) and the core pin (P) to reduce the coefficient of friction, You can also implement the same effect.

The present invention is not limited to the above-described embodiments and the accompanying drawings, and various changes, modifications and variations may be made without departing from the scope of the present invention. Will be apparent to those of ordinary skill in the art.

100: mold apparatus 10: upper mold
20: lower mold 30: stress holding means
30a: first block 30b: second block
30c: coupling groove 30d: coupling pin
40: means for maintaining the center position 40a: forced tensile auxiliary groove
50: strain suppression means 50a: upper jig
50b: Lower jig C: Cavity
P: Core Pin

Claims (5)

In the combination of the upper mold and the lower mold, a small diameter tube-shaped cavity (cavity) is formed at the center thereof, the core device is provided in the mold cavity for forming a small diameter tube,
Stress holding means configured on the material input part side of the mold apparatus to maintain the stress of the material; And
Formed at the end of the core pin, a small diameter tube forming mold apparatus comprising a; central position holding means for maintaining the center position of the core pin
The method of claim 1,
The mold apparatus,
Small diameter tube is configured on the material outlet side of the mold apparatus, the strain suppression means for suppressing the deformation of the molded tube by the high temperature when extraction of the molded small diameter tube; Molding device for molding
The method of claim 1,
The stress holding means,
The first block and the second block is made by combining up and down,
Molding apparatus for forming a small diameter tube, characterized in that one end of the core pin is coupled to the center of the coupling boundary line of the first block and the second block.
The method of claim 1,
The center position maintaining means,
One end of the core pin is a small diameter tube forming mold apparatus, characterized in that the forcible tension auxiliary groove formed by recessed toward the center side of the core pin along the end circumference
The method of claim 1,
The strain inhibiting means,
The upper jig and the lower jig are made up and down combined,
Molding apparatus for forming a small diameter tube, characterized in that the other end of the core pin is coupled to the center of the coupling boundary line of the upper jig and the lower jig.

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