KR100423785B1 - A sizing and cooling apparatus of flexible screen door of two way extracting device and therefore method - Google Patents

Abstract

The present invention is an air cooling means installed in the lower outside of the double extrusion T-die, a cooling mold means installed in the cooling water tank and the bellows screen to be double-extruded and formed with a cooling water circulation passage therein, and a cooling mold The upper air cooling means installed along the direction of the bellows screen in the upper direction of the means and the cutting means just outside the cooling water tank, while extruding the fastening part of the grid and both sides with a hard resin of different physical properties in the same extrusion T-die, Between the rigid grid and the fastening part, the extruded flexible thin film type soft resin is double extruded so that the connection part is squeezed to form a bellows screen, and then the different hard and soft properties extruded from the extruded T-die. The bellows screen of the double extrusion molding having a primary air cooled by air spraying, the bottom side is rapidly cooled and it is cooled inside again. Rapid cooling of the bellows screen by allowing the bottom part of the bellows screen to rest in contact with the bottom of the bellows screen in a stable form. At the same time, the upper part is sprayed with air in the longitudinal direction, cooled and dried to prevent the shape change of the grid of the bellows screen and the relaxation or deformation of the joints between the grids, thereby extruding the bending state of the soft joints required by the bellows screen. The double-extrusion structure allows continuous mass production of high-quality bellows screens with a uniform and good molding state by uniformly maintaining a predetermined elongation at the soft connection part while maintaining the shape of the shape extruded from the T-die perfectly. A bellows screen sizing cooling method and apparatus of the present invention.

Description

A sizing and cooling apparatus of flexible screen door of two way extracting device and therefore method}

The present invention relates to a method and apparatus for bellows screen sizing cooling of a double extrusion structure used in air conditioners, furniture, and the like. Particularly, the present invention relates to a fastening part of a grid and both sides with a hard resin having different physical properties in the same extrusion T-die. While extruding, the bellows screen is formed by double extrusion molding the connection part with a flexible thin film type flexible resin having high elongation between the rigid grid and the fastening part, and then hard and soft extruding from the extrusion T-die. The double extruded bellows screen with different physical properties is rapidly cooled at the bottom side by air-cooling method by air spraying, and the upper part is opened in the same shape with the cooling water circulating therein. The bottom part of the bellows screen is placed in a stable shape by the cooling mold. By rapidly cooling the bellows screen again and spraying the air through the upper part in the longitudinal direction, cooling it and drying it to prevent the shape change of the grid of the bellows screen and the loosening or deformation of the connection between the grids. By maintaining the bending state of the soft connection part completely as it is extruded from the extruded T-die and performing the cold molding, the soft connection part is continuously mass-produced with a high quality shape bellows screen with a uniform elongation at a predetermined bending rate. The present invention relates to a bellows screen sizing cooling method and apparatus having a double extrusion structure.

In general, the bellows screen 100, which is a synthetic resin extrusion molded product as shown in FIG. 5, is commonly used for doors or shields such as air conditioners or small furniture, cabinets or cabinets, and in the bellows screen 100, The plurality of synthetic resin grids 101 having hard physical properties that are extruded in a thick state and hard fastening portions 102 and 103 at both ends of the grids 101 are extruded in the longitudinal direction and at the same time therebetween. It has a bellows structure by double extrusion molding in which the soft connecting part 104 made of a relatively thin and good elongation rate soft synthetic resin is integrally engaged and combined. The bellows screen 100 is double-extruded and cooled. In the conventional method of setting the sizing in the molding state, a bellows screen 10 extruded from an extrusion T-die for a double extrusion is generally employed. Cooling to set the flexion state of the soft connection part 104 by sizing as it is formed by the extrusion T-die by using an air cooling method for cooling by air or a water cooling method for cooling by passing through a cooling water tank separately. It is common to use the method.

However, in the conventional case of using the air-cooling or water-cooling method alone as described above, in the case of using only the air-cooling method, the cooling time is considerably required and gradually cools, so that the bellows screen 100 of the double extrusion molding in the cooling process is performed. Due to the cooling characteristic deviation between the soft connecting piece 104 and the hard fastening pieces 101 and 103 and the grid 101 of the configuration, the shape of the bellows screen 100 is distorted and the soft connecting part 104 is relaxed. As the bending state is deformed, the flexural ratio of the soft connecting part 104 is not uniform, the extension and restoring force is weakened, the quality of the bellows screen 100 is deteriorated, and the durability life is short, and the water cooling method is used. In case of cooling by cooling, rapid cooling and deformation prevention can be compensated to some extent, but due to the product characteristics of bellows screen, As a result, it needs to be cooled while proceeding in a straight direction, requiring a cool water tank having a gentle gradient and a considerably long length, which is complicated by facilities such as a cool water tank, requiring a large installation place and requiring a lot of equipment cost. In the air-cooling and water-cooling method alone, there is a significant problem in mass production of bellows screens with good elongation and good shape, resulting in low productivity and high defect rate, requiring high production and equipment costs. A defect was shown.

Therefore, the present invention was devised to solve the above-mentioned defects, and the present invention can reduce the installation place and the equipment cost by making the equipment and apparatus compact by using the air cooling method by air and the cooling method by water cooling. It is an object of the present invention to provide a method and an apparatus which can be used, and the present invention also provides a rapid cooling by air cooling and water cooling in a predetermined state extruded from a double extrusion T-die, thereby shortening the cooling time, Perfectly prevents deformation of the bellows screen of double-extruded structure with different physical properties or deformation or loosening of soft curved joints, eliminates the cause of defects and exerts the required flexing effect. Another purpose is to make large-scale production and provision of bellows screens at a low cost, thereby significantly reducing production costs. Will.

In order to achieve the above object, the present invention provides an air cooling unit installed at the lower side of the double extrusion T-die, and a bellows screen installed in the cooling water tank and double extruded, and having a cooling water circulation passage formed therein. An upper air cooling means installed along the direction of the bellows screen on the upper side of the cooling mold means and a cutting means on the outer side of the cooling water tank, and a bellows screen drawn from the double extrusion T-die under the air cooling means. First, air-cooled and quenched secondly by water cooling by means of cooling mold and by air cooling means on the upper side to quench the bellows screen, which is a double-extrusion molding having hard and soft double physical properties, to deform or soften the connection part. To prevent loosening and to perform double extrusion work, rapid cooling work and cutting work at the same time. More specifically described with reference to the drawings as follows.

1 is a schematic diagram of an overall apparatus for practicing the present invention,

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a perspective view of the cooling die forming the main part of the present invention,

Figure 4 is a cross-sectional view showing the internal cooling water passage in the cooling die means forming the main part of the present invention,

5 is a perspective view of a bellows screen provided by the present invention;

* Explanation of symbols for the main parts of the drawings

1: Extrusion means 2: Extrusion means 3: Two-extrusion T-die 4: Two-extrusion equipment 5: Air sprayer

6: Air cooling means 7: Cooling water tank 8: Cooling water 9: Settle groove 10: Insertion groove 11. Bulkhead

12: cooling water passage 13: inlet pipe 14: outlet pipe 15: cooling die means 16: cutting means

17: Air cooling means 100: Jabara screen 101: Hard grid

102, 103: Hard fastener 104: Soft connection

1 is a schematic view of the entire apparatus for carrying out the present invention, FIG. 2 is a cross-sectional view taken along the line AA of FIG. 1, FIG. 3 is a perspective view of a cooling die constituting a main part of the present invention, and FIG. 4 is a main part of the present invention. Cross-sectional view showing the internal cooling water passage in the cooling mold means forming a.

As shown in FIG. 1, the present invention includes an extrusion means 1 for melting and supplying a soft synthetic resin and an extrusion means 2 for melting and supplying a hard synthetic resin. A double extrusion facility 4 having the same structure as that of 3) is provided.

The lower part just outside the double extrusion T-die 3 of the double extrusion apparatus 4 is equipped with the air cooling means 6 which arranged the air injection hole 5 in the longitudinal direction, and the cooling water in the outside right side thereof is provided. A tub 7 is provided, and the recessed grooves 9 having the same irregularities as those of the curved shape of the bellows screen 100 are double-extruded on the water surface of the cooling water 8 circulating in the cooling water tank 7. It is provided on the upper surface, and the insertion grooves 10a and 10b in which the hard fastening portions 102 and 103 of the bellows screen 100 are inserted on both sides of the settling groove 9 are formed long in the advancing direction, respectively. And a cooling mold means (15) in which a cooling water passage (12) formed in a zigzag shape and a cooling water oil / exit pipe (13) (14) are divided into a plurality of partitions (11) inside. On the outer side of the side is provided cutting means 16 for cutting the cooled bellows screen 100 to a predetermined length.

In installing the cooling mold means 15 in the cooling water tank 7, the recessed grooves 9 and the bellows screen 100 formed in a concave-convex shape with the bellows screen 100 on the upper surface of the cooling mold means 15. Insertion grooves 10a and 10b into which the hard fastening portions 102 and 103 are inserted are formed at the upper positions floating on the surface of the cooling water, and the hard fastening portions on both sides of the double extruded bellows screen 100 are installed. (102) (103) and the hard grid 101 and the soft connecting portion 104 is in close contact with the surface of the recessed groove (9) and the insertion groove (10) in the uneven state of the upper surface of the cooling die means 15 The bellows screen 100 to be cooled proceeds rapidly without contact with the cooling water circulating in the cooling water tank 7, and immediately separates from the cooling water tank 7 to cut off the cooling means 15. ) To be cut into a predetermined length, and the advancing chamber of the bellows screen 100 above the cooling water tank 7. And it shall be side by side and provided with air cooling means (17) cooled in the upper part.

The cooling water passage 12 installed in the cooling mold means 15 may be divided into a plurality of partitions 11 and installed in a zigzag shape. The cooling water passage 12 may be formed by forming a single chamber inside. It is also good, it is formed on both sides of the settle groove (9) of the upper surface to cool the bellows screen 100, the insertion groove 10a for guiding, inserting the hard fastening portion (102) 103 of the bellows screen (100) 10b is formed on both sides of the settling groove 9 so that the rigid fastening portions 102 and 103 on both sides of the bellows screen 100 are firmly inserted into the top surface of the cooling die means 15 by the bellows screen 100. Fixing on the settling groove (9) is most preferred, but not limited to this, formed on either one of the two sides of the settling groove (9) of the hard fastening portion (102) (103) of both sides of the bellows screen (100) Inserting only one of the one side fastening portion 102, 103, the bellows screen 100 is placed on the upper surface of the cooling die means 15 It may be fixed on the groove 9, which obviously belongs to the same technical category.

The present invention is characterized in that the synthetic resin having different physical properties by the extrusion means (1) for melt-extrusion of the soft synthetic resin and the compression means (2) for melt-extrusion of the hard synthetic resin through a double extrusion T-die (3) Heavy-duty extrusion molding of the bellows screen 100 having a rigid grid 101 and a rigid fastening portion 102, 103 and a soft connection portion 104 therebetween are formed on both sides as shown in FIG. The end of the molded bellows screen 100 is placed in the upper settling groove 9 of the cooling mold means 15 installed in the cooling water tank 7 and the hard fastening portion 102 at both ends of the bellows screen 100. (103) is inserted into the insertion groove (10a) (10b) and placed in a stable fixed state, and then the extrusion means (1) (2) are operated simultaneously to perform a double extrusion molding bellows screen (100) ), The bottom portion of the bellows screen 100 extruded from the double extrusion T-die (3) is air By the cooling air injected from the air injection hole 5 of each means 6 is first cooled and proceeds to a state of being slightly hardened to protrude on the water surface of the cooling water (8) of the cooling water tank (7) The hard fastening portion, which is a component of the bellows screen 100, is brought into close contact with the cooling mold means 15 by the upper settled groove 9 and the insertion grooves 10a and 10b of the cooling mold means 15. (102) (103), the grid 101 and the soft connecting portion 104 is cooled, wherein both sides of the rigid fastening portion (102) (103) of the bellows screen (100) of the cooling mold means (15) Since the bellows screen 100 is supported in a stable state in which the bellows screen 100 is maintained as it is, while being inserted into and fixed in the insertion grooves 10a and 10b, the upper settled groove of the cooling die means 15 ( 9) Sliding in contact with the upper surface in a cool state and at the same time cooling mold means (15) itself The lower part is submerged in the cooling water 8 of the cooling water tank 7 so that the cooling mold means 15 itself is cooled, and a separate portion is provided on the internal cooling water passage 12 of the cooling mold means 15. Cooling water circulates to cool both the settling groove 9 and the inserting grooves 10a and 10b in the upper surface, so that the bellows screen 100 slides along the cooling mold means 15 having a lengthwise running direction. It is rapidly cooled while maintaining the shape of the extruded state, so that the rigid grid 101 and the fastening portions 102 and 103 of the bellows screen 100 are soft as well as other physical properties connecting them. The connecting part 104 also maintains the curved shape by designing the elongation at the double extrusion T-die 3, such as the bending of the rigid grid 101 or the fastening part 102 and 103 of the bellows screen 100. Shape deformation is prevented and the actual elongation and resilience It is possible to obtain a high quality bellows screen 100 by preventing the phenomenon such as loosening of the soft connecting portion 104 has a precisely designed elongation.

The present invention adopts a cooling method using a combination of air cooling means and a cooling mold means by a water cooling method on the outside of the double extrusion T-die to compact the facilities and devices of the bellows screen and install easily without being bound to the installation place. The equipment cost can be greatly reduced, and the double extrusion extruded from the T-die can be rapidly cooled by air cooling and water cooling in a predetermined state, thereby reducing the cooling time and providing a double extrusion structure having different soft and hard properties. It completely prevents the deformation of the bellows screen of the bellows screen and the soft bent joints, and eliminates the cause of defects and exerts the required flexing effect. It can be produced and provided, which can greatly reduce production costs.

Claims (6)

Air cooling means installed in the lower outside of the double-extrusion T-die, cooling mold means in which the bellows screen is installed in the cooling water tank and double extrusion is formed, and the cooling water circulation passage is formed therein, and the upper portion of the cooling mold means. A bellows screen sizing chiller having a double extrusion structure, characterized in that the upper air cooling means is installed along the direction of the bellows screen and the cutting means is directly outside the cooling water tank. The method of claim 1, The cooling mold means 15 includes the settled groove 9 and the settled groove in the same uneven state as the curved shape of the bellows screen 100 which is double-extruded on the water surface of the cooling water 8 circulating in the cooling water tank 7. (9) Insertion groove into which hard fastening portions 102 and 103 of bellows screen 100 are inserted on both sides (10a) (10b) is formed in the upper surface in the elongated direction, respectively, and the inside is divided into a plurality of partitions (11) to form a coolant passage 12 and the coolant oil flow, access pipes 13, 14 formed in a zigzag Bellows screen sizing chiller having a double extrusion structure characterized in that forming. The method according to claim 1 or 2, Cooling water passage (12) installed in the cooling die means 15 is a bellows screen sizing cooling device of the double extrusion structure, characterized in that installed by dividing the zigzag into a plurality of partitions (11). The method according to claim 1 or 2, Bellows screen sizing cooling device of the double extrusion structure characterized in that the cooling mold means (15) formed in a single chamber to form a cooling water passage (12) in a single structure. The method of claim 1, A bellows screen sizing chiller having a double extrusion structure characterized in that the air cooling means (6) and the cooling mold means (15) by water cooling are sequentially installed outside the double extrusion T-die (3). In the same extruded T-die, the joints of both sides of the grid and the sides are extruded with hard resins having different physical properties, while the joints are doubled to be made of flexible thin film flexible resin having high elongation between the hard grids and the fastening portions. After molding the bellows screen by extrusion, the bottom side of the bellows screen is extruded from the extruded T-die. The bottom part of the bellows screen is placed in a stable shape by the cooling mold, and the bottom of the bellows screen is held in contact with the cooling mold having the same shape as the cooling water circulating again. The bellows screen sizing cooling method of the double extrusion structure characterized in that the rapid cooling again.