KR100522891B1 - Method for manufacturing phylon midsole use microwave - Google Patents

Abstract

The present invention relates to a method for producing pyron midsole using microwave, and more particularly, to a method of manufacturing a pylon midsole by remolding a plate-shaped YB sponge firstly molded into a mold. It is a method of manufacturing pylon midsole by adopting microwave heating process instead of heat press process, which is a process of pressurizing and heating, and it can shorten the manufacturing process to reduce labor cost, increase production, and increase the competitiveness of price and quality. The present invention provides a method for preparing pylon midsole using microwaves.

Description

Method for manufacturing pylon midsole using microwaves {Method for manufacturing phylon midsole use microwave}

The present invention relates to a method for producing pyron midsole using microwave, and more particularly, to a method of manufacturing a pylon midsole by remolding a plate-shaped YB sponge firstly molded into a mold. The present invention relates to a method for producing pylon midsole by adopting a heating step using microwaves instead of a hot pressing step, which is a step of pressing and heating.

In general, the midsole has a structure in which a synthetic resin material of various materials is foam-molded to absorb shocks, and in particular, the midsole made of YB-based materials is light and excellent in absorbing shock.

The production method of pylon midsole made of Yves is mainly made by pressing. 1 is a manufacturing process diagram of a pylon midsole by a conventional press, and in detail, YB and additives {(Filler: MgCO₃ magnesium carbonate), ZNO (zinc oxide), ST / AC arte as shown in FIG. Arine acid), TIO₂ (titanium oxide) and LUX (fluorescent brightener)} are combined and firstly foamed to make YV sponge.

Thereafter, the primary foamed YB sponge is subjected to a skiving and cutting process that is slightly larger than the size of the pylon midsole of the desired product to make a semi-finished midsole.

Since the semi-finished midsole thus cut is slightly larger than the finished pylon midsole, it is difficult to insert directly into the mold as it is. Therefore, the grinding process of processing and trimming the circumference of the semi-finished midsole is necessary before the heat press process. Do.

After inserting the semi-finished midsole after the grinding process into a mold, it is subjected to a hot press process for pressurizing and heating in a hot press, and a cold press process for transferring the heated mold to a cooling press under pressure. After demolding, the pylon midsole of the finished product is produced.

However, the manufacturing method of the pylon midsole by the conventional press method as mentioned above had the following problems.

First, as described above, the work process is complicated and not only requires a lot of work equipment and work manpower, but also consumes a lot of work time, thereby lowering productivity.

In particular, there is a problem that takes a long time for heating and cooling the semi-finished midsole. In the heat press process, the semi-finished midsole is put into the mold and heated outside, and the semi-finished midsole takes about 10 to 12 minutes to heat up, and the cooling time is also reduced by bringing the heated mold into the cooling press and cooling it with coolant. It takes a minute to 17 minutes to produce less than a limited time there was a problem that productivity is low.

On the other hand, when the semi-finished midsole is inserted into the mold in the heat press process, the semi-finished midsole is larger in size and harder than the mold, which makes it difficult to insert it. There was a problem that work is very cumbersome, such as need to be inserted.

The present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to heat the semi-finished midsole by using a microwave (Micro wave) in the conventional pylon midsole manufacturing process without going through the grinding process and the heat press process Later, by pressing and cooling to form a pylon midsole to shorten the manufacturing process to provide a method for manufacturing pylon midsole using microwave that can reduce labor costs, increase production and increase the competitiveness of price and quality.

In addition, the purpose is to provide the convenience of the operation to insert the semi-finished midsole that has undergone grinding process into the mold immediately without being hit by a hammer to insert it into the mold, that is, heated by microwave, that is, soft and soft. There is this.

In order to solve the above technical problem, the present invention, in the production of a pylon midsole by remolding a primary foamed plate-shaped YB sponge, the shape of the pylon midsole desired for the primary foamed plate-like YB sponge Skying and cutting process to cut semi-finished midsole to make a semi-finished midsole, and put semi-finished midsole after skiving and cutting process into microwave transmission container containing water, and apply semi-finished midsole in water by applying microwave for a certain time. It is characterized in that the pylon midsole manufacturing method using a microwave made of a heating press, and a cold press process for taking out the heated midsole of the semi-finished product in water and putting it in a mold under pressure to form a pylon midsole of the finished product.

In addition, the microwave in the heating step is preferably using a microwave oven.

On the other hand, it is preferable to heat the semi-finished midsole for 4 to 5 minutes by microwave in the heating step.

Hereinafter, a manufacturing method of the present invention will be described with reference to the accompanying drawings. Referring to Figure 2, a process diagram of a pylon midsole using a microwave according to the present invention is shown.

In the method for preparing pylon midsole using microwaves according to the present invention, in the preparation of a pylon midsole by remolding a primary foamed plate-shaped YB sponge, as shown in FIG. The skiving and cutting process of cutting the sponge to make the semi-finished midsole, the heating process for putting the semi-finished midsole into a microwave transmission container containing water, and then applying the microwaves to heat the semi-finished midsole in the water, and the mid-sol of the heated semi-finished product. It consists of a cold press process, which is put into a mold and cooled under pressure to be molded into a finished pylon midsole.

The present invention eliminates the grinding process and the heat press process in the conventional process of producing a foamed plate-shaped YB sponge with a pylon midsole, and after the heating process for heat-expanding the semi-finished midsole using microwaves, a cold press process It is characterized by shortening the manufacturing process of the pylon midsole to continue, so the prior step of the heating step by microwave corresponding to known facts, so the specific description will be omitted, hereinafter, by the microwave which is a feature of the present invention It demonstrates centering on a heating process.

First, the semi-finished midsole, which has undergone skiving and cutting, is introduced into a heating process by microwaves without grinding.

The microwave heating step is a step of heating and expanding the semi-finished midsole by adding the microwave about 4 to 5 minutes after placing the semi-finished midsole in a container containing water. In this case, a microwave oven can be used without a separate device to apply microwaves to the semi-finished midsole.

In addition, the container containing the water should be made of a material that transmits microwaves, the container made of such materials may be of various kinds, such as pottery, porcelain, pyrex, heat-resistant plastic (heat resistance temperature above 120 ℃), but light and fragile heat-resistant Most preferably, plastic is used.

In addition, when the semi-finished midsole itself is put into a microwave oven and heated with microwaves, the semi-finished midsole is heated and melted above the melting point of the semi-finished midsole. In order to solve this problem, the semi-finished midsole is placed in a microwave permeable vessel containing water and heated using microwaves.

Since the boiling point of water is 100 ℃, even if the water in the microwave transmission vessel boils, it does not rise above 100 ℃. So, if the semi-finished midsole is put in water and heated, the water does not rise above the melting point of the semi-finished midsole due to water. By maintaining the temperature between the softening point and the melting point, the semifinished midsole becomes soft without melting.

In addition, although the microwave is limited to the semi-finished midsole as a heating means by microwaves, if there is another means for generating microwaves in addition to the microwave, this may be applied.

Meanwhile, when the semi-finished midsole is heated by microwaves in the microwave in detail, the microwave emits a radio wave at a heart called a magnetron, and the microwave is vibrated at 2,450 MHz. to be.

When the microwave is applied to the subject, the subject absorbs it, and the absorbed microwave is converted into heat in the subject. Therefore, when the semi-finished midsole is placed in a microwave transmission vessel containing water, the semi-finished midsole and water are absorbed and heated by microwaves, so that the semi-finished midsole is heated by applying heat from the outside of the mold in a conventional heat press process. The heating time is shorter than the method, and the thermal efficiency is improved.

At this time, it is preferable to put the semi-finished midsole in the microwave and heat it for about 4 to 5 minutes.

The semi-finished midsole, which has undergone the heating process by microwaves, is immediately put into a cold press process and formed into a desired pylon midsole. The heated semi-finished midsole is heated and is soft and soft, so when it is put into a mold, the grinding process or It can be easily inserted without using a hammer.

The mold in which the semi-finished midsole is inserted is cooled in a cooling press with cooling water for about 7 minutes to 10 minutes, and then pressurized to form a pylon midsole of the finished product.

The pylon midsole manufactured by the method for producing a pylon midsole using microwaves according to the present invention is capable of precisely molding a minute mold pattern by reforming the primary molded YB sponge by rapid heating and rapid cooling. It is advantageous for precision molding work, and prevents shrinkage and deformation of the product, thereby producing high quality products.

For reference, the following table shows a table comparing the conventional manufacturing method and the manufacturing method of the present invention based on one line.

(Comparison table based on one line)

Conventional manufacturing method Manufacturing method according to the present invention Remarks Required time / 1 mold hot (12 ~ 13 minutes) cool (15 ~ 16 minutes) preparation (2 ~ 3 minutes) = about 30 minutes required / 1 group * 2 groups production per hour hot (4 ~ 5 minutes) cool (7 ~ 10 minutes) preparation (1 ~ 2 minutes) = about 15 minutes / 1 group * 4 groups per hour production Reduced cooling time-mold always cooled Daily output per mold (standard-14 hours) (2 group / 1h) * 4 time = 28 families week -7 hours night time -7 hour (4 groups / 1h) × 4 hours = 28 families week-7 hoursnight-7 hours 2 times more output per day per mold Required molds per line 2,000 groups ÷ 28 groups = 71 2,000 groups ÷ 56 groups = 35 50% reduction in the number of molds required per line Number of workers / 1 line 71 planes ÷ 3 planes (one person mold) = 23 people 35 sides / 3 sides (single work mold) = 11 people -50% fewer people per line Production per person (based on 7 hours per day) Three sides X (group 2 / 1h) X time = group 42 Three sides X (4 groups / 1h) X time = 84 groups Double production per day per person

As described above, the method for producing pylon midsole using microwave according to the present invention is particularly complicated and labor-intensive production process of pyron midsole, that is, by reducing the grinding process and the heat press process, the number of people required per process (per line) 25 ~ 30 people) significantly reduced the productivity is effective.

In addition, since the semi-finished midsole, which is a molded product, is preheated by microwaves and directly put into the cold press process, the process of moving a heavy mold is omitted, thereby preventing a worker's work fatigue and safety accidents. There is an effect of increasing the convenience of the work process, such as reducing the risk of.

In addition, the number of molds required is reduced by half, thereby reducing the facility and reducing the fuel cost required to heat the heat press. Particularly, even if the pylon production method according to the present invention is adopted, the existing equipment is not replaced or disposed of. The cost of replacing the facility is inexpensive because it can be used without all.

What has been described above is just one embodiment for carrying out the method for producing pylon midsole using microwave according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims Without departing from the gist of the invention, anyone of ordinary skill in the art to which the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

1 is a conventional pylon midsole manufacturing process diagram.

Figure 2 is a pylon midsole manufacturing process according to the present invention.

Claims (3)

In the re-formation of the primary foam-formed Yves sponge to prepare a pylon midsole, The skiving and cutting process of cutting semi-finished midsole by cutting the primary foamed Yves sponge slightly larger than the desired pylon midsole shape, A heating step of heating the semi-finished midsole submerged in water by placing the semi-finished midsole passed through the skiving and cutting process into a microwave transmission container containing water for a predetermined time; and The pylon midsole manufacturing method using a microwave, characterized in that consisting of; a cold press process for removing the heated midsole of the semi-finished product in water and then put it in a mold under pressure cooling to form a pylon midsole of the finished product. The method of claim 1, Microwave is a pylon midsole manufacturing method using a microwave, characterized in that in the heating step using a microwave oven. The method according to claim 1 or 2, Method for producing a pylon midsole using a microwave, characterized in that for heating the semi-finished midsole with microwave in the heating step for 4 to 5 minutes.