KR200195549Y1 - Manufacturing device for midsole of running shoes - Google Patents

Abstract

The present invention relates to a manufacturing apparatus of a midsole for sneakers, wherein the heating part 2 and the cooling part 3 are configured to be separated, but the mold fixing part 1 and the product drawing part 8 on one side of the heating part 2. A heating transfer part (4) using a conveyor between the mold fixing part (1) and the heating part (2), and a cooling transfer part (5) between the heating part (2) and the cooling part (3). And a mold transfer part (6) between the cooling part (3), the product takeout part (8), and the product takeout part (8) and the mold fixing part (6), so that the mold is circulated. Since the midsole is manufactured while rotating a large number of cycles, it is possible to manufacture a large amount in a short time, and since the heating part and the cooling part are separated, it is a useful design that can maximize the waste of energy.

Description

Midsole manufacturing apparatus for sneakers {MANUFACTURING DEVICE FOR MIDSOLE OF RUNNING SHOES}

The present invention relates to a manufacturing apparatus of a midsole for sneakers, and has a purpose to automatically mass production of sneakers midsole in a short time by heating and cooling by forming a plurality of molds for manufacturing the midsole in a circulating type.

In general, the bottom surface of the sneakers are configured by combining the insole, the midsole and the outsole, and in particular, the manufacturing method for the midsole is as follows.

In the first step, the shoe type is made bigger than the size of the sneakers and cut into the byron fabric

Go through the bobing process to form the bottom of the disc cut in two steps,

Put the disc in the mold in 3 steps,

Pressed in four stages and then heated

It was a method of manufacturing the midsole by cooling the mold heated in five steps.

However, the above method has a disadvantage in that it takes a long time by heating and cooling the mold because one of the molds inserts the raw material and then heats and cools to manufacture the midsole, and also heats the mold to the inside of the mold. There was a problem in that the resin inserted in the foam molding and cooling again, and by repeatedly repeating such a process, waste of unnecessary energy.

In other words, the conventional method is to install a mold in a press and then insert the fabric resin into the mold and apply heat to repeat the process of molding the resin and cooling again after molding. It became a problem to be reduced.

In addition, the mold for manufacturing the midsole that has been used in the prior art has a heavy disadvantage because the thickness is thick in order to prevent the torsion generated in the mold, and this has a disadvantage of a long manufacturing period and a high production cost, and because of the deep depth of the mold Of the patterns formed on the side of the midsole is a complicated one that can not be produced.

In addition, due to the thick thickness of the mold itself, the heat transfer is slow and takes a long time.In addition, the mold itself is directly heated by heating the mold directly through a press and then cooled by water, which wastes unnecessary work time. It became a factor to be degraded.

In other words, the mold used in the prior art is a structure in which the mold is fastened to the inside of the metal lump, which is thick and heavy, and the mold itself is hot, which wastes energy because it takes a long time to heat or cool by transferring heat. There was a problem.

On the other hand, since the heating or cooling is carried out in a state in which a high-loaded mold with a built-in disk is pressed by a press, heating and cooling are simultaneously performed in one mold, which is complicated and difficult, and the press must be pressed until the mold is cooled. The work took a long time and had a hard problem.

Applicants to separate the mold in three stages to solve the above problems, but to separate each mold in the lateral direction to form a complex pattern on the side of the midsole, while fixing using a separate fixing device to the mold A patent (Patent Application No. 17176, 2000) was filed for a mold for manufacturing a sneaker midsole.

The present invention is to solve the above problems and to be able to manufacture a large number of sneakers for the midsole using a pre-applied mold, using a conveyor belt using a plurality of molds having a separate fixing means To be purified, but the heating unit is installed on one side of the fabric supply unit so that the molds are supplied in a multi-stage order, and a cooling unit is installed at the lower end thereof to cool the mold heated in the heating unit. When described in detail as follows.

1 is a schematic plan view showing the entire manufacturing apparatus of the present invention

** Description of symbols for the main parts of the drawing **

1. Mold fixing part 2. Heating part 3. Cooling part

4. Heat transfer part 5. Cooling transfer part 6. Mold transfer part

7. Cylinder 8. Product outlet

The heating part 2 and the cooling part 3 are separated, and the mold fixing part 1 and the product drawing part 8 are installed on one side of the heating part 2, and the mold fixing part 1 and the heating part are installed. A heating transfer part 4 using a conveyor is installed between the two parts, and a cooling transfer part 5 is provided between the heating part 2 and the cooling part 3, and the cooling part 3 and the product take-out part. (8) and between the product take-out part 8 and the mold fixing part 6, a mold transfer part 6 is provided to allow the mold to be circulated.

In the heat transfer part 4 provided in the front of the said heating part 2, the cylinder 7 which supplies a metal mold | die to the inside of the heating part 2 is provided.

Referring to the operation of the present invention made as described above are as follows.

After opening and closing the mold in the mold fixing part (1), the resin is inserted into the inside of the mold. In this state, the mold is closed and pressed to process the resin by pressing, and then the mold is pressed and fixed on both sides of the mold by using a fixing device.

When the mold is pressed and fixed by the fixing device in the above state, the mold is transferred to the heating unit 2 by the heat transfer unit 4, and the mold transferred to the heating unit 2 is the heat transfer unit 4. It is inserted into the inside of the heating part 2 by the cylinder 7 which is installed in front of the.

At this time, in the mold fixing part which is putting the resin into the mold and fixing the mold by using the fixing device, the resin is continuously inserted into another mold, and then the mold is closed and fixed to be sent to the heating part.

The mold inserted into the heating unit 2 is heated to a constant temperature and is transferred to one side by a transfer device installed at the lower end, and at the same time, the resin in the mold is heated to have a constant shape. The mold separated from the mold is transferred to the cooling unit 3 by the cooling transfer unit 5 installed at one side thereof.

As described above, the mold transferred to the cooling unit 3 cools the mold heated to a high temperature by the cooling unit, and at the same time, the resin inside the mold swells and cools as the mold is cooled. As the resin is cooled in a constant mold, a constant shape can be maintained.

On the other hand, the mold passing through the cooling unit 3 is transferred to the product take-out unit 8 by the mold transfer unit 6, where the fixing device holding the mold is separated, and then the midsole inserted into the mold. In this state, the mold is moved back to the mold fixing part 1, and the unmolded resin is inserted into the mold again, and then pressed with a press, and the mold is fixed and fixed again by using a fixing device. Will be sent back to the heating unit.

As described above, the present invention is purified by using a conveyor belt using a plurality of molds having separate fixing means, but a heating part is installed on one side of the fabric supply part so that the molds are supplied in sequence, and a cooling part is installed at the lower end thereof. It is designed to cool the mold heated in the heating part, and because the midsole is manufactured while rotating a large number of molds in a circular manner, it is possible to manufacture a large amount in a short time, and also because the heating part and the cooling part are separated, It is a useful design that can save the maximum waste.

Claims (2)

The heating part 2 and the cooling part 3 are separated, and the mold fixing part 1 and the product drawing part 8 are installed on one side of the heating part 2, and the mold fixing part 1 and the heating part are installed. A heating transfer part 4 using a conveyor is installed between the two parts, and a cooling transfer part 5 is provided between the heating part 2 and the cooling part 3, and the cooling part 3 and the product take-out part. (8) and the midsole manufacturing apparatus for sneakers, characterized in that the mold transfer unit 6 is installed between the product takeout part 8 and the mold fixing part 6 so that the mold is circulated. The midsole manufacturing apparatus for sneakers according to claim 1, wherein a heat transfer part (4) is provided with a cylinder (7) for supplying a mold into the heating part (2).