KR101405064B1 - Multi tread and multi tread extrusion preformer die - Google Patents

Abstract

The present invention relates to an extrusion die extruding a tread which is one among half-finished tire products, and a tread extruded from the extrusion die and, more especially, to a multi-tread consisting of two different rubber extrusion products in which physical properties of a cap tread are different, and to a preformer die extruding the same. The preformer die combines rubbers supplied through an insert channel (101) before the rubbers supplied through the insert channels (101) are extruded by passing through a final die (103). A cap tread extrusion hole (1) of the preformer die (102) is formed in a cut square extrusion hole in which one section is equipped with a corrugated section (1a). The corrugated section (1a) is formed in a structure symmetrical to a corrugated section (1a′) of a corresponding cut square extrusion hole (1′) by being based on a guide bar (109).

Description

[0001] The present invention relates to a multi-tread and multi-tread extrusion preformer die,

The present invention relates to an extrusion die for extruding a tread, which is one of semi-finished products of a tire, and a tread extruded from an extrusion die. More particularly, the present invention relates to a tread made of two different rubber extrudates having different cap tread properties. And a Pfeformer die for extruding the same.

In manufacturing the tire, the extrusion process is a process of supplying the compounded rubber produced in the refining process to the extruder, and discharging the extrudate having a predetermined shape through the specified extrusion die of the extruder according to the manufacturing specification. Tread, and bladder.

As shown in FIG. 5, a conventional extrusion die for extruding a tread (rubber layer in direct contact with the road surface), which is one of the semi-finished products of the tire, comprises a rubber member, which receives the rubber discharged from the supply screw of the extruder in the insert channel 101 The rubber extrusions satisfying the specific profile were then discharged while the rubber received through the insert channel 101 through the preformer die 102 was combined and discharged through the final die 102.

4 (B), the multi-tread 104 composed of different kinds of rubber extrudates having different physical properties of the cap tread among the tread extruded through the preformer die 102 of the conventional extrusion die as described above, Side treads 105a and 105b made of different kinds of physical properties and side treads 106 for protecting the carcass and flexibly moving with the side rubber layer of the tire and the inner belt rubber layer and the multi-cap treads 105a and 105b The boundary surfaces 108 of the left and right cap treads 105a and 105b having two different physical properties are attached only by surface contact. Therefore, in the conventional multi-tread 104, It had a grooved crack of the tread and a weak structure of the interface of the multi-tread.

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 improve the rigidity of multi-tread grooved cracks and reinforce the structure of the interface by increasing the contact area of two rubber- And a preformer die for extruding the multi-tread.

In order to accomplish the above object, the present invention provides a preformer die for joining rubber received in the insert channel before the rubber supplied through the insert channel is extruded through the final die, The sphere is formed by a cut rectangular extrusion with one cross section having a corrugated cut surface, and the corrugated cut surface is arranged symmetrically with the corrugated cut surface of the corresponding cut rectangular extrusion opening with reference to the guide piece.

The multi-tread extruded by the preformer die for extruding the multi-tread according to the present invention may include a different kind of cap tread having different physical properties, a side tread coupled to both sides of the different kind of cap tread, The left and right cap treads of the cap tread are coupled to each other at a waveform interface, and the waveform interface is shifted left and right according to a rubber extrusion amount of the left and right cap treads, .

When the multi-tread is extruded by using the preformer die according to the present invention, the pressure of the extruded rubber having fluidity is controlled to control the movement of the interface between the two cap treads having different physical properties, So that it has a function of strengthening the rigidity against the groove crack as the contact area is increased.

1 is a partially cutaway perspective view showing a preformer die for extruding a multi-tread according to the present invention,
FIG. 2 is a partial enlarged view of FIG. 1 (a)
3 is a front enlarged view of a cap tread extrusion port of a preformer die, which is a main part of the present invention,
FIG. 4A is a schematic cross-sectional view of a multitread extruded by a preformer die according to the present invention, FIG. 4B is a schematic cross-sectional view of a multithread extruded from a conventional preformer die, FIG.
5 is a sectional view of an extrusion die for extruding a general tread.

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

FIG. 1 is a perspective view showing a part of a preformer die for extruding a multi-tread according to the present invention. In FIG. 1, only one part is shown with reference to a guide piece 109, FIG. 3 is an enlarged front view showing a cap tread extruding port in a preformer die, which is a main part of the present invention.

The present invention relates to a preformer die for joining rubbers supplied from the insert channel (101) before the rubber supplied through the insert channels (101) is extruded through a final die (103) The cap tread extrusion port 1 of the present invention is formed by a cut rectangular extrusion port having a corrugated cut surface 1a having a cross section and the corrugated cut surface 1a has a corresponding cut rectangular extrusion port 1 ' Is formed symmetrically with the wave-cut surface 1a '

Here, the dissimilar rubber supplied through both the left and right cap tread extruding ports 1, 1 'of the preformer die 102 can control the amount of extrusion according to the pressure, so that both the right and left cap tread extruders (1), the rubber extrusion amount is increased in the left-cap tread extrusion port (1) of the portion where the pressure is strong, and the other right-cap tread extrusion port (1 '), The rubber extrusion amount becomes small.

Therefore, when the multi-tread is extruded, the contact interface 2a of the different kind of cap tread 2 can be moved, and the heterogeneous cap tread 2 of different properties can be moved The contact portions of the rubbers are contacted in the "S" shape by the wavy cut surfaces 1a, 1a 'of the left and right cap tread extrusion ports 1, 1' and are extruded.

In this case, the waveform cut surfaces 1a and 1a 'of the left and right cap tread extruding ports 1 and 1' are formed so that the uppermost value d and the lower maximum value c, (B) of the corrugated curved portion forming the ½ cycle of the cap tread extrusion orifice (1a, 1a ') and the hole height (a) of the cap tread extrusion orifice (1, 1') are as follows.

a: hole height of the cap tread extrusion (1,1 ')

b: 0.5 x a

c: 0.25 x a

d: 0.25 x a

Meanwhile, the multi-tread extruded by using the preformer die according to the present invention has a different kind of cap tread 2 having different physical properties as shown in FIG. 4 (A), the different kind of cap tread 2 and the side tread 3, Wherein the left and right cap treads 2b and 2c of the different kind of cap tread 2 are joined and bonded to each other at a contact interface 2a so that the contact interface 2a Are shifted leftward and rightward depending on the rubber extrusion amount of the left and right cap treads 2b and 2c.

As described above, the left and right cap treads 2b and 2c of the hetero-cap tread 2 can move the position of the S-shaped contact interface 2a to the left and right, The left cap tread extruding port 1 having a high pressure and the right cap tread extruding port 1 'having a relatively low pressure are formed by controlling the pressure when the rubber is passed through the cap tread extrusion ports 1, The contact interface 2a of the different kind of cap tread 2 is formed by moving to the right side where the pressure is weak with reference to Fig. 4 (A), and a stronger pressure is applied to the right cap tread extrusion 1 ' When the rubber is applied, the contact interface 2a of the heterogeneous cap tread 2 moves to the left side with reference to FIG. 4 (A).

In this way, when adjusting the ratio of the left and right cap treads 2b and 2c of the heterogeneous cap tread 2, it is not necessary to newly build the preformer die 102, and the composition ratio can be adjusted only by adjusting the pressure of the supplied rubber.

1: Cap tread extrusion port, 1a: Wave cut surface,
2: heterogeneous cap tread, 2a: contact interface,
3: side tread, 4: under tread.

Claims (5)

A preformer die for joining the rubbers supplied from the insert channel (101) before the rubbers supplied through the insert channels (101) are extruded through the final die (103)
The cap tread extrusion port 1 of the preformer die 102 is formed by a cut rectangular extrusion port having a corrugated cut surface 1a on one side and the corrugated cut surface 1a is cut corresponding to the guide piece 109 Is formed symmetrically with the wavy cut surface (1a ') of the rectangular extrusion opening (1'). The method according to claim 1,
The cut surface 1a and 1a 'of the left and right cap tread extruding ports 1 and 1' are formed so as to have an upper maximum value d and a lower maximum value c on the basis of a waveform curve forming a cycle, , And the hole height (a) of the cap tread extrusion (1, 1 ') is defined as the following. Preformer die.
a: hole height of the cap tread extrusion (1,1 ')
b: 0.5 x a
c: 0.25 x a
d: 0.25 x a A multi-tread comprising a heterogeneous cap tread (2) having different physical properties, an under tread (4) coupled to a bottom surface of the heterogeneous cap tread (2) and the side tread (3)
The left and right cap treads 2b and 2c of the different kind of cap tread 2 are joined to and joined to each other by a contact interface 2a. So that they are coupled to each other. delete The method of claim 3,
And the contact interface (2a) is formed in an S-shaped waveform.

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