KR102337187B1 - Tire Forming Mold to Automatic Cutting of Spew - Google Patents

Abstract

The present invention relates to a tire forming mold capable of automatic cutting of extruded rubber and, more specifically, to a tire forming mold capable of automatic cutting of extruded rubber to improve the exterior quality of a tire as a bimetal knife that bends toward a vent hole by thermal expansion is provided near the vent hole, so the bimetal knife automatically cuts extruded rubber generated during vulcanization without providing an external force and then blocks the vent hole. In the tire forming mold used for tire vulcanization, the bimetal knife is installed near the vent hole of the tire forming mold and is bent in the direction of the vent hole by thermal expansion during vulcanization to cut the extruded rubber coming out through the vent hole. The bimetal knife is formed by overlapping a first metal plate having a relatively high coefficient of thermal expansion and a second metal plate having a relatively low coefficient of thermal expansion.

Description

Tire Forming Mold to Automatic Cutting of Spew

The present invention relates to a tire forming mold capable of automatic cutting of extraction rubber, and more particularly, a bimetal knife that is bent to a vent hole part by thermal expansion is provided in the vicinity of the vent hole, and a formula that occurs during vulcanization without providing a separate external force It relates to a tire forming mold capable of automatic cutting of extruded rubber so that the exterior quality of the tire can be improved by blocking the vent hole after the bimetal knife automatically cuts the product.

In general, during the tire manufacturing process, the first case is formed by assembling semi-finished tire products such as inner liner, carcass, and sidewall, and after forming the second case by assembling semi-finished tread products and semi-finished belt products, the first Assemble the case and the secondary case to form a green case. The green case is then subjected to a vulcanization process to make the final tire by applying heat and pressure.

In the vulcanization process, after putting the green case inside the tire forming mold, heat and pressure are applied to the inside of the green case for a certain period of time using a bladder, so that the green case is in close contact with the inner surface of the tire forming mold and the tread on the outer surface of the tire to form a pattern.

However, during the vulcanization process, air may remain between the tire forming mold and the green case, and if the remaining air is not smoothly discharged, a defect occurs in that the surface of the finished tire becomes non-uniform. Therefore, it is very important to discharge residual air in the vulcanization process.

For this reason, as shown in FIG. 1 , in most cases, the vent hole 150 is formed in the tire forming mold 100 used in the vulcanization process to discharge air. And when the green case is vulcanized, air is discharged through the vent hole of the tire forming mold, but even after the air is exhausted, the rubber may flow out and harden. Since biting is a factor that deteriorates the exterior quality of the tire, a separate trimming process to remove the extraction rubber is performed on the finished tire after vulcanization, or a ventless plug is installed in the vent hole to suppress the occurrence of extraction rubber. ) is also applied.

However, if a separate trimming process is added, production time increases and it is very disadvantageous in terms of cost. In case of using a ventless plug, there is a problem that frequent replacement is required because the vent hole is clogged by rubber.

On the other hand, as a result of investigating the prior art related to the present invention, a number of patent documents were searched, and some of them are introduced as follows.

Patent Document 1 discloses a formula for a finished tire that includes a guide for preventing excessive adhesion of a rotating tire, a rotating knife rotated by a motor, and a fixed knife that maintains a constant gap to the rotating knife, and cuts and removes the extruding rubber of the tire In the factory trimming device, the fixed knife is installed and supported through the hinge shaft of the fixed bracket, and while the tip opposite to the cutting blade of the fixed knife is supported by a spring, one of both sides of the fixed knife is a fixed stopper, the other The side discloses a rubber trimming device for removing the extraction rubber of a finished tire by closely holding and holding each of them by support brackets acting by an actuator.

Patent Document 2 discloses a tire chucking unit that chucks and mounts a tire transported by a conveyor by elevating and lowering by an elevating cylinder, a cylinder that pulls or pushes the tire chucking unit, and an electromagnet connected between the cylinder and the tire chucking unit a running rail for guiding the movement of the tire chucking unit, a weight connected to a wire that pulls the tire chucking unit with a predetermined weight through a wire and contacts the cutting knife with a predetermined contact pressure, and a tire rotated by the tire chucking unit In the tire trimming equipment comprising a cutting knife for removing the extraction rubber from the surface of It consists of an elevating cylinder and a horizontal rack gear installed on a horizontal base where the latch gear engages and operates, and when removing the tire extraction rubber, the contact pressure between the tire and the cutting knife is stabilized to reduce equipment troubles and re-trimming. Disclosed is a device for stabilizing contact pressure between a tire and a cutting knife in a reduced tire trimming facility.

Patent Document 3 discloses a moving frame slidably coupled to a fixed frame, a frame moving device for advancing the moving frame toward or retracting from the tire, and a first gear unit rotatably coupled to the moving frame. A first link support, a first knife unit coupled to the first link support and having a knife for cutting out the rubber of the tire, and a second gear part rotatably coupled to the moving frame and gear-connected to the first gear part a second link support having a second link support, a second knife unit coupled to the second link support and having a knife, and a link support actuator for rotating the second link support, the first link support and the first link support by the link support actuator Disclosed is a tire extraction rubber removal device in which a distance between a first knife unit and a second knife unit is adjusted while the second link support is widened or narrowed.

Patent Document 1: KR10-2004-0072369 A Patent Document 2: KR10-0897568 B1 Patent Document 3: KR10-1384418 B1

In the present invention, a bimetal knife that bends to a vent hole part by thermal expansion is provided near the vent hole, and the bimetal knife automatically cuts the extraction rubber generated during vulcanization without providing a separate external force, and then blocks the vent hole. An object of the present invention is to provide a tire forming mold capable of automatic cutting of extruded rubber to improve quality.

In addition, according to the present invention, when the temperature drops after the vulcanization (vulcanization) process is completed and the finished tire is discharged, the bimetal knife returns to its initial position so that the residual air can be smoothly discharged at the beginning of the vulcanization process. An object of the present invention is to provide a tire forming mold capable of this.

The present invention for achieving the above object, in a tire forming mold used for tire vulcanization, is installed near the vent hole of the tire forming mold and is bent in the vent hole direction by thermal expansion during vulcanization to cut the extraction rubber coming out through the vent hole and a bimetal knife, wherein the bimetal knife is characterized in that a first metal plate having a relatively high coefficient of thermal expansion and a second metal plate having a relatively low coefficient of thermal expansion are overlapped.

In addition, according to the tire forming mold capable of automatically cutting the etched rubber of the present invention, the first metal plate is made of an alloy of nickel, manganese, and iron or an alloy of nickel, manganese, and copper, and the second metal plate is an alloy of nickel and iron It is characterized in that it consists of.

In addition, according to the tire forming mold capable of automatic cutting of the extraction rubber of the present invention, the second metal plate is characterized in that the front portion is sharply polished.

In addition, according to the tire forming mold capable of automatically cutting the extruded rubber of the present invention, the bimetal knife is disposed orthogonally to the tire forming mold and is welded and fixed to the tire forming mold.

The tire molding mold capable of automatically cutting the extraction rubber of the present invention uses a bimetal knife operated by thermal expansion to remove the extraction rubber and block the vent hole, thereby performing a separate trimming process or using a ventless plug. It is possible to reduce manufacturing time and cost by removing radish, as well as secure the size of the air exhaust space larger than before, so that the air is discharged smoothly and the surface quality of the finished tire is prevented by preventing the surface quality of the finished tire. has an improving effect.

1 is a perspective view showing a general tire forming mold;
2 is a perspective view showing a tire forming mold capable of automatically cutting the extraction rubber according to the present invention;
3 is an enlarged view showing the state before deformation of the bimetal knife in the tire forming mold capable of automatically cutting the extraction rubber according to the present invention.
Figure 4 is a perspective view showing a state after heating of the tire forming mold capable of automatically cutting the extraction rubber according to the present invention.
5 is an enlarged view showing the shape of the bimetal knife after deformation in the tire forming mold capable of automatically cutting the extraction rubber according to the present invention.

Hereinafter, based on the accompanying drawings, a tire forming mold capable of automatically cutting the extraction rubber according to an embodiment of the present invention will be described.

The tire forming mold 20 capable of automatically cutting the extruded rubber according to the present invention is used during tire vulcanization, and is divided into a plurality of pieces and continuously arranged along the outer circumferential surface of the tire, and then the tire is heat-molded. As shown in FIGS. 2 to 5 , each of the tire forming molds 20 is formed by overlapping a first metal plate 11 having a relatively high coefficient of thermal expansion and a second metal plate 12 having a relatively low coefficient of thermal expansion. It is installed near the vent hole 25 of the tire forming mold 20 and is bent in the vent hole 25 direction due to thermal expansion during vulcanization and cuts the extraction rubber exiting through the vent hole 25. be prepared

Accordingly, when heat is not applied to the tire forming mold 20 , as shown in FIGS. 2 and 3 , the bimetal knife 10 maintains a non-bent state, and heat is applied to the tire forming mold 20 . When applied, the bimetal knife 10 is bent in the direction of the vent hole 25 to cover the vent hole 25 as shown in FIGS. 4 and 5 . In this process, as the extraction rubber exiting through the vent hole 25 is cut by the bimetal knife 10 and the vent hole 25 is blocked by the bimetal knife 10, no more rubber is produced in the vent hole 25 ) does not escape, so the leaching rubber does not occur. Therefore, the extruded rubber is not left in the finished tire after vulcanization, and the appearance quality of the finished tire is improved.

Here, the first metal plate 11 and the second metal plate 12 forming the bimetal knife 10 are preferably formed of a material having excellent durability and corrosion resistance. For example, the first metal plate 11 is made of an alloy of nickel (Ni), manganese (Mn), and iron (Fe) or an alloy of nickel (Ni), manganese (Mn), and copper (Cu), and the second The metal plate 12 may be formed of an alloy of nickel (Ni) and iron (Fe). However, the first metal plate and the second metal plate do not necessarily have to be formed of the above material, and if there is a difference in the coefficient of thermal expansion so as to perform the function of the bimetal knife 10 , the first metal plate 11 and the second metal plate 12 ), any type of metal can be used.

And it is preferable that the front portion of the second metal plate 12 facing the vent hole 25 is sharply polished. This is to allow the extraction rubber of the vent hole 25 to be easily cut by the second metal plate 12 when the bimetal knife 10 is bent by heat.

In addition, the bimetal knife 10 is preferably disposed orthogonally to the tire building mold 20 , and the lower end thereof is preferably welded and fixed to the tire building mold 20 rather than being fixed by screws or the like. Accordingly, the bimetal knife 10 is firmly fixed to the tire forming mold 20 , and the surface damage of the finished tire due to the detachment of the bimetal knife 10 does not occur.

The operation of the tire forming mold capable of automatically cutting the injection rubber of the present invention configured as described above will be described as follows.

When the production of the green case is completed, the green case is seated inside the vulcanization mold made of a plurality of tire forming molds 20, and then the bladder is coupled to the inside of the green case. Next, by applying heat and pressure to the inside of the bladder, a vulcanization process is performed so that a tread pattern is formed on the outer surface of the green case while the green case is expanded outward by the expanded bladder.

Residual air remaining between the green case and the tire forming mold 20 is discharged to the outside through the vent hole 25 of the tire forming mold 20 at the beginning of the vulcanization process, and after the air is completely discharged, the rubber of the green case As it exits through the vent hole 25, it forms an etched rubber. At this time, the bimetal knife 10 expanded by the heat of the heated tire forming mold 20 is bent in the direction of the vent hole 25 to cut the extraction rubber and block the vent hole 25 at the same time. Accordingly, the rubber of the green case does not further escape through the vent hole 25 and the etched rubber does not occur.

Although embodiments illustrating the technical spirit of the present invention have been described above, the present invention is not limited to the configuration and operation as described, and the present invention is not limited to the scope of the technical idea described in the description and claims of the present invention. Those skilled in the art will appreciate that many changes and modifications are possible. Accordingly, all such suitable alterations and modifications and equivalents are to be considered as falling within the scope of the present invention.

10… bimetal knife
11… 1st metal plate 12... second metal plate
20… tire forming mold
25… vent hall

Claims (4)

A tire forming mold used for tire vulcanization, comprising:
It is installed near the vent hole of the tire forming mold and is provided with a bimetal knife for cutting the extraction rubber that is bent in the vent hole direction due to thermal expansion during vulcanization and exits through the vent hole,
The bimetal knife is a tire forming mold capable of automatic cutting of extruded rubber, characterized in that a first metal plate having a relatively high coefficient of thermal expansion and a second metal plate having a relatively low coefficient of thermal expansion are overlapped. The method according to claim 1,
The first metal plate is made of an alloy of nickel, manganese and iron or an alloy of nickel, manganese and copper,
The second metal plate is a tire forming mold capable of automatic cutting of extruded rubber, characterized in that it is made of an alloy of nickel and iron. The method according to claim 1,
A tire forming mold capable of automatic cutting of extruded rubber, characterized in that the front part of the second metal plate is sharply polished. 4. The method according to any one of claims 1 to 3,
A tire forming mold capable of automatic cutting of extruded rubber, characterized in that the bimetal knife is disposed orthogonally to the tire forming mold and fixed by welding to the tire forming mold.

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