KR100886755B1 - Apparatures for manufacturing geogrid - Google Patents

Abstract

An apparatus for manufacturing geogrid is provided to offer the geogrid having an improved coating function to spread a coating solution on the both side of the geogrid. An apparatus for manufacturing geogrid comprises the followings: a supplying unit(100) supplying synthetic fiber to a warp thread direction and a weft thread direction; a weaving unit(200) manufacturing or knitting fabric of a lattice type by using supplied synthetic fiber; a coating unit(300) coating a coating solution on the geogrid to improve stability, durability etc; a drying unit(400) including a heater inside; a rolling unit(500) maintaining tension while rotating the roller to a zig-zag type; and a winding unit(600) winding the completed geogrid into a roll type.

Description

Geogrid manufacturing equipment with improved coating capabilities {APPARATURES FOR MANUFACTURING GEOGRID}

The present invention relates to a geogrid manufacturing apparatus with improved coating function, and more particularly, to provide a geogrid manufacturing apparatus used as a reinforcing agent in construction and civil engineering, while supplying fiber-> weaving-> coating-> drying-> rolling- > Provides a geogrid manufacturing apparatus in which a series of processes leading to winding are continuously performed, and in addition, in a coating process for forming a synthetic resin coating layer, the geogrid has an improved coating function so that the coating solution can be evenly applied to both surfaces of the geogrid. It is related with the structure of a manufacturing apparatus.

Efforts have been made to use textile materials for various civil works for a long time. In order to obtain more economical and effective materials, Geosynthetics, a polymer synthetic resin product, has been developed and based on excellent construction, applicability, and economic feasibility. It is widely used for reinforcement, drainage, separation, containment and erosion prevention in structures.

Geosynthetics is developing and commercializing permeable geotextiles, abundant geomembrane, high-strength geogrids, geonets and geocomposites.

In the early 1970s, when geosynthetics was used in earnest, it was mainly used for the prevention and filtration of earth and sand, and then widely used for the separation, reinforcement, or drainage of soil. It is also used for the purpose of structure protection and shock absorption.

Geogrid is a material with a lattice of approximately 5 to 100mm between each rib in the theodolite direction and can vary the composition, cross-connection or joining method of the ribs and is used as structural reinforcement for the direction of load. .

Geogrids are made of plastic (rigid, sheet) geogrids and textile (soft, woven) geogrids, and plastic geogrids are manufactured by uniaxially or biaxially stretching holes through high-density polyethylene or polypropylene sheets obtained through extruders (GB2266540, USP4374798). , EP0374365A, GB2256164A), textile geogrids are manufactured by laminating or weaving synthetic fibers in lattice form and coating resins such as polyvinyl chloride, acrylic, latex, rubber, and bitumen (USP 5091247, Japanese Patent Laid-Open No. 9-100527, Japan). Reality Equity 2-17030, Japanese Reality Review 2-125038).

The geogrid manufacturing process, as is known, is produced through the process of fiber supply-> weaving-> coating-> winding, each process is carried out individually or continuously, but in the manufacturing by a continuous process In the prior art, there have been inadequate parts of the composition combination of a series of processes.

In addition, the coating process is to coat the synthetic resin coating layer on the surface of the woven geogrid, as shown in Figure 1, the conventional coating unit 30, the supplied geogrid 10 is a bath filled with a coating solution The coating solution is immersed in the (31), guided upward from the guide roller 32 provided in the water tank 31, and the geogrid 10 passes between the compression rollers 33 stacked up and down. It consisted of a process and a device that are evenly applied to the surface of the.

However, according to the prior art, the coating solution should be evenly applied to the surface of the geogrid 10 during the coating process, but problems in the process of entering the geogrid 10 into the compression roller 33 and the compression roller 33 are formed. Due to the material problem, there was a problem that the coating solution was not evenly applied to the surface of the geogrid 10.

More specifically, the conventional compression roller 33 has a configuration in which a rubber layer is formed around the rotation axis, and when the geogrid 10 passes between the compression rollers 33 stacked up and down, the geogrid corresponding to the traveling direction is formed. Since the surface of the pressing roller 33 does not touch the upper end of the weft yarn woven at a lower position than the inclined plate of (10), there is a problem in that the coating solution is not evenly applied and the coating solution is formed like water droplets. That is, the surface height of the inclined and weft yarns according to the weaving state of the geogrid 10 is not constant, but problems caused by the configuration of the pressing roller 33 that does not consider the configuration features of the geogrid 10 as described above. This was

In addition, in the process of entering the geogrid 10 into the compression roller 33 of the vertically stacked form, the contact area between the compression roller 33 and the geogrid 10 located at the bottom is wide, the coating on the bottom surface of the geogrid 10 Rather than being evenly applied, the solution was removed excessively to form an inappropriate coating state.

And, while maintaining the weaving speed and the coating speed of the geogrid 10 to maintain a constant tension and ratio should be followed by a process of winding it up, in the prior art, technical problems that must be supplemented by the winding process immediately after the drying process remained. .

Accordingly, the present invention has been made to solve the above-described problems of the prior art, and provides a geogrid manufacturing apparatus in which a series of processes are continuously performed, the coating function is so that the coating solution can be evenly applied to both surfaces of the geogrid It is an object of the present invention to provide an improved geogrid manufacturing apparatus.

As a technical means for achieving the above object, the present invention provides a supply unit for supplying synthetic fibers corresponding to the raw material of the geogrid in the oblique direction and weft direction; A weaving unit for weaving or knitting a lattice type fabric using synthetic fibers supplied from the supply unit; A coating part for applying a coating solution for improving stability, durability, and weather resistance to a geogrid woven and woven in a lattice form through the weaving part; A drying unit for drying and heat-treating the coating solution applied to the surface of the geogrid through the coating unit; A rolling part composed of a plurality of rollers to uniform winding tension of the geogrid dried and heat-treated through the drying part; The winding unit for winding the geogrid passed through the rolling unit; characterized in that configured to operate in a series of processes.

In addition, the coating unit, a coating tank containing a coating solution, a guide roller for immersing the geogrid entered by rotating inside the coating bath in the coating solution and then turns upward, and a pair of pressing rollers in front It is composed of an inlet roller which is located in the guiding roller to guide the horizontal direction between the pressing roller, and a pair of pressing rollers to evenly apply the coating solution while removing excess coating solution on the surface of the geogrid. It is characterized by.

In addition, the pressing roller is a pair of upper and lower laminated forms are configured, each of the pressing roller is formed in the inner center of the rotating shaft to rotate, a rubber layer formed of a rubber material of a predetermined thickness around the rotating shaft, and around the rubber layer The nonwoven fabric layer formed of a nonwoven fabric having a predetermined thickness is further included to improve the surface elasticity of the compression roller.

The geogrid manufacturing apparatus with improved coating function according to the present invention has the following effects.

First, there is an effect of improving the productivity of the geogrid because a series of processes in the manufacturing of the geogrid is made continuously.

Second, the geogrid manufacturing apparatus with improved coating function reduces the incidence of defects in the geogrid, improves the reliability of the coating process, and improves the stability, durability, and weather resistance of the geogrid as the coating solution is reliably applied to the surface of the geogrid. There is also.

Third, the rolling part is added to maintain the weaving speed and coating speed of the geogrid at a constant tension and ratio, which also has the effect of maintaining a constant winding tension.

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

2 is an overall conceptual diagram of a geogrid manufacturing apparatus according to an embodiment of the present invention.

As shown in FIG. 2, the geogrid manufacturing apparatus according to the present invention includes a supply part 100, a weaving part 200, a coating part 300, a drying part 400, a rolling part 500, Including the winding unit 600, the geogrid 10 is a finished product is formed through the devices sequentially.

The supply unit 100 supplies synthetic fibers corresponding to the raw materials of the geogrid 10 in the inclined direction and the weft direction. The synthetic fibers used for the geogrid 10 include polyester fibers, aramid fibers, glass fibers, and polyvinyl alcohol. Fibers and the like, and generally polyester fibers having excellent physical properties are used.

The weaving part 200 is to weave or knit the lattice fabric using the synthetic fibers supplied from the supply part 100, wherein the ribs forming the lattice (Rib) is made of a plurality of inclined and weft yarns For example, the size and shape of the grid, the thickness and quantity of the warp and weft copies can be used in various designs.

The coating part 300 is coated with a coating solution to impart stability, durability, and weather resistance to the geogrid 10 woven and woven in a lattice form through the weaving part 200. The coating solution may be immersed or sprayed. It is to coat the fabric using.
As the coating solution is already known, various types of coating solutions, which are mainly composed of polyvinyl chloride, acrylic, latex, and bituminous materials, are used for each purpose. Generally, the reinforcing geogrid is mainly polychlorinated. Coating solutions based on vinyl resins are used. In addition, the composition forming the coating solution corresponds to the technical scope already known and carried out, and will not be included in the following detailed description because it is not included in the structural features of the present invention.

3 is a conceptual diagram illustrating a coating part of the geogrid manufacturing apparatus according to an embodiment of the present invention, Figure 4 is a perspective view showing the main portion of the coating of the geogrid manufacturing apparatus.

As shown in Figure 3 and 4, the coating portion 300 of the geogrid manufacturing apparatus according to the present invention is that the woven geogrid 10 is immersed in the coating solution and then evenly applied by a pressing roller, the coating solution The accommodated coating bath 310 and the geogrid 10 entered into the coating bath 310 are immersed in the coating solution, and then the direction of travel of the geogrid 10 is switched toward the upper compression roller 340. A guide roller 320 that rotates and a pull roller 330 positioned in front of the pair of rollers 340 to guide the geogrid 10 horizontally between the compression rollers 340, The geogrid 10 includes a pair of pressing rollers 340 for evenly applying the coating solution while removing excess coating solution on the surface.

The pressing roller 340 is formed in a pair of vertically stacked form, each of the pressing roller 340 is formed in the inner center and rotates the rotating shaft 341, and the predetermined thickness around the rotating shaft 341 The rubber layer 342 formed of a rubber material, and the nonwoven fabric layer 343 formed of a nonwoven fabric having a predetermined thickness around the rubber layer 340.

In the configuration of the coating unit 300 as described above, the inlet roller 330 is to induce the direction so that the geogrid 10 can enter horizontally between the pair of compression roller 340, which is the geogrid 10 The upper and lower surfaces of the pressing point and the contact area of the pressing roller 340 may be formed up and down to form a coating state of an even distribution.

That is, in the conventional configuration without the inlet roller 330, the contact area between the compression roller and the geogrid 10 located on the lower side is wide, so that an inappropriate coating state is formed on the lower side of the geogrid 10 as the coating solution is excessively removed. The problem can be eliminated.

In addition, the configuration in which the nonwoven fabric layer 343 is further formed in the construction of the compression roller 340 is used to uniformly compress the elastic fabric of the nonwoven fabric layer 343 with respect to the warp and weft copies of the geogrid 10 whose surface height is not constant. It can be carried out, it is possible to apply evenly spread evenly while removing the excess coating solution coated on the warp and weft copy of the geogrid 10.

That is, the nonwoven fabric layer 343 is provided to improve the surface elasticity of the compression roller 340, and the surface height is lower than that of the inclined bone in the configuration of the conventional compression roller 340 formed only of the rubber layer 342. The problem that the coating solution on the copy side cannot be evenly applied is solved.

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The drying unit 400 is a drying and heat treatment of the coating solution applied to the geogrid 10 through the coating unit 300, the surface coating solution while the geogrid 10 passes through the drying unit 400 with a heater The drying and heat treatment process is performed.

In addition, the drying and heat treatment process is carried out at the same time, the temperature conditions for drying and heat treatment is preferably applied to the 140 ~ 150 ℃ range.

The rolling part 500 corresponds to a device for preventing the shrinkage of the geogrid 10 dried and heat treated through the drying part 400 and passing a plurality of rollers in a zigzag form for uniform winding tension, respectively. Geogrid 10 is rotated in a zigzag form a plurality of rollers formed at a distance separated from the lower to maintain the tension with the shrinkage.

The rolling unit 500 maintains the elongation of the product by maintaining the weaving speed and coating speed of the geogrid 10 at a constant tension and ratio, the required product elongation is preferably applied within a range of 13%.

Winding unit 600 is to wind the geogrid 10 passed through the rolling unit 500, one end of the rotating shaft 610 of the winding unit 600 is equipped with a reduction motor (not shown) to generate a rotational force The geogrid 10 completed by the rotation of the roll rotating shaft 610 may be wound in a roll form.

As described above, although the technical idea of the present invention has been described with reference to the preferred embodiments, those skilled in the art will be able to vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified and changed.

1 is a conceptual diagram showing a coating part of the geogrid manufacturing apparatus according to the prior art,

2 is an overall conceptual diagram of a geogrid manufacturing apparatus according to an embodiment of the present invention,

3 is a conceptual diagram illustrating a coating part of a geogrid manufacturing apparatus according to an embodiment of the present invention,

4 is a perspective view illustrating main parts of a coating part of a geogrid manufacturing apparatus according to an exemplary embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: geogrid 100: supply unit

200: weaving part 300: coating part

310: coating water tank 320: guide roller

330: inlet roller 340: compression roller

341: rotating shaft 342: rubber layer

343 nonwoven fabric layer 400: drying part

500: rolling part 600: winding part

610: roll rotating shaft

Claims (3)

In the geogrid manufacturing apparatus, A supply unit 100 for supplying synthetic fibers corresponding to the raw materials of the geogrid 10 in the warp direction and the weft direction; A weaving part 200 for weaving or knitting a lattice type fabric using synthetic fibers supplied from the supply part 100; A coating part 300 for applying a coating solution for improving stability, durability, and weather resistance to the geogrid 10 woven and woven in a lattice form through the weaving part 200; A drying unit 400 provided with a heater therein to dry and heat-treat the coating solution applied to the surface of the geogrid 10 through the coating unit 300; For uniformity of the winding tension of the geogrid 10 dried and heat-treated through the drying unit 400, a plurality of rollers are formed at a distance apart from the top and bottom, the geogrid 10 is zigzag each roller Rolling unit 500 to maintain the tension while turning in the form; By winding the geogrid 10 passed through the rolling part 500, a roll rotating shaft 610 is provided, and one end of the roll rotating shaft 610 is equipped with a reduction motor and is completed by the rotational force of the reduction motor. Winding unit 600 is wound in a roll form; is configured to operate in a series of processes, The coating part 300, the coating bath 310, the coating solution is accommodated, and the geogrid 10 entered by rotating in the coating bath 310 is immersed in the coating solution and then upward direction A guide roller 320 to be switched to, a pull roller 330 positioned in front of the pair of rollers 340 to guide the geogrid 10 horizontally between the compression rollers 340, In addition to removing the excess coating solution on the surface of the geogrid 10, and comprises a pair of pressing rollers 340 for evenly applying the coating solution, The pressing roller 340 is formed in a pair of vertically stacked form, each of the pressing roller 340 is formed in the inner center and rotates the rotating shaft 341, the rotary shaft 341 around the rubber of a certain thickness Rubber layer 342 formed of a material, and the coating function is improved around the rubber layer 342 further comprises a non-woven fabric layer 343 formed of a non-woven fabric having a predetermined thickness to improve the surface elasticity of the compression roller 340 Geogrid manufacturing equipment. delete delete

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