KR100270181B1 - Method marking plastics and metal for reinforment - Google Patents

Abstract

The present invention relates to a method for producing plastic and steel network structures.

The conventional stretched structure is formed by stretching in the longitudinal direction and then stretching in the transverse direction. However, if the primary stretching in one direction and the secondary stretching in the other direction due to the plastic properties, even if the biaxially stretched structure is easily torn or broken due to the property that the stretching is not performed. In addition, since the plastic stretched structure was pre-punched and stretched during manufacture, a large amount of material was lost, resulting in a high production cost. In addition, in order to reduce the material cost, the material lost by drilling holes may be collected and used again. However, when the material is reused, the material may change in physical properties, resulting in a drop in strength of the stretched structure.

Plastic and steel network structure of the present invention, in order to solve such a conventional closed end, a plurality of cutout holes 12 are formed in a row in a plurality of rows at a predetermined length and interval in the plastic or steel plate 10, the plate ( Reinforcing plastics and steel network structures were obtained by the method of simultaneously stretching 12) in the transverse and longitudinal directions.

This stretching method has the effect of increasing the strength, such as tensile strength, and by forming a notch hole without re-punching when re-manufacturing, there is no waste of material at all can reduce the production cost.

Description

Manufacturing method of reinforcing plastic and steel mesh

The present invention increases the strength and tensile strength by stretching the plastic or steel plate longitudinally and horizontally, and in particular, to minimize the loss of material and the change in physical properties generated during the production, while reducing the production cost and high-strength plastic and steel network structure manufacturing method It is about.

In general, a reinforcing plastic structure formed by stretching plastic, that is, a stretched structure may be divided into a uniaxially stretched structure and a biaxially stretched structure.

Uniaxially oriented structures can be used as sunshades, grain shades, barriers, windbreaks, cladding materials, anti-dazzle screens, insect screens, ground supports or stabilizers.

And biaxially-stretched structures are used for stock fencing, circle, civil engineering, olive harvesting and reinforcement between laminates and to support or support any suitable type of particulate material such as soil, land, sand, mud or stone. It is used for stabilization or in any suitable location such as a bank, under a building or under a pier.

As such, the biaxially stretched structure is used more widely than the uniaxially stretched structure. The reason is that the biaxially stretched structure has a higher strength such as tensile force.

That is, since the plastic sheet is manufactured by extrusion, the molecular link ring has a strong connection force in the longitudinal column, which is the direction in which the molecular link is held in the direction in which the force is applied, depending on the melting point of the material. This is because the structurally weak junction structure. For example, even in the case of paper, iron plate, etc., made of connecting plates, the longitudinal rows are strongly connected and strong tensile force, but the transverse rows are easily torn or broken. Therefore, the reinforced stretched structure is preferably a biaxially stretched structure rather than a single axis.

Such biaxially stretched structures are described in patent 13516. Introduced content, in forming the stretched structure, a hole in the surface of the plastic sheet or the depression was formed by primary stretching in the longitudinal direction and then stretched in the transverse direction.

However, it is a sequential stretching method in which the transverse direction is stretched after the stretching is made in the longitudinal direction. Therefore, the first stretch in one direction and the second stretch in the other direction make the biaxially stretched structure easier because of the property of stretching. Torn or broken.

In order to prevent such a phenomenon, the disadvantage is solved through Patent Application No. 97-11442 filed by the present applicant.

The method of manufacturing a plastic sheet for reinforcement invented by the present applicant is to place the plastic sheet material between a pair of upper and lower concave-convex plates consisting of a protrusion and a recessed portion, and then press the plastic sheet material to be stretched in all directions.

Since the plastic sheet structure manufactured in this way has a high tensile strength in any direction because the stretching occurs at the same time in all directions, it is widely used in civil engineering, concrete structures, and especially for soft ground reinforcement.

However, there was a disadvantage in that the plastic surface was not formed horizontally by the protrusions and depressions of the upper and lower convex plates to form concavities and convexities.

In addition, the plastic network structure invented by the present applicant, or the plastic stretched structure that has been manufactured before, has been previously punched and stretched during manufacture, resulting in a large amount of material loss, resulting in high production costs. In addition, in order to reduce the material cost, the material lost by drilling holes may be collected and used again. However, when the material is reused, the material may change in physical properties, resulting in a drop in strength of the stretched structure.

Therefore, the present invention has been devised to solve such disadvantages, and its object is to have a high tensile strength in any direction by simultaneously pulling the plastic sheeting material in all directions, and at the same time, the surface thereof is also horizontal without irregularities.

In addition, the present invention is to reduce the manufacturing cost by minimizing the loss of material by forming and extending the notched grooves without making holes when manufacturing the plastic and steel network structure, especially because it does not recycle the material lost by the punching process The purpose is to obtain a high-strength plastic and steel network structure.

1 is a first drawing process of the reinforcement plastic or steel sheet according to the present invention,

2 is a secondary drawing process of the reinforcing plastic or steel sheet according to the present invention,

Figure 3a, 3b is an exemplary shape showing a state in which a reinforcing plastic or steel sheet according to the present invention is stretched.

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

10-plastic and steel sheet 12-cut holes

20-reinforcing plastic and steel mesh 22a, 22b-drawing holes

In order to achieve the above object, the present invention provides a method for manufacturing a plastic and steel network structure by forming a plurality of cutout holes in a plurality of rows at regular lengths and intervals in a plastic and steel sheet, and simultaneously tensioning the sheet in the transverse and longitudinal directions. Is achieved.

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

1 is a first drawing process of the reinforcing plastic or steel sheet according to the invention, Figure 2 is a second drawing process of the reinforcing plastic or steel sheet according to the present invention.

As shown in the drawing, the notches 12 are formed on the surface of the plastic or steel sheet 10 at regular sizes and intervals. The cutout holes 12 are formed at appropriate intervals and lengths according to the size and strength after stretching of the plate 10 made of plastic or steel, and are preferably formed in multiple rows.

After forming the notch hole 12 as described above, both side ends and the left and right ends of the plate 10 made of plastic or steel are simultaneously stretched through a drawing machine not shown in the drawing. In this way, the respective portions of the plastic or steel sheet 10 are stretched, and the notched holes 12 extend in the shape of the stretched holes 22a and 22b as shown in FIGS. 3A and 3B.

That is, the notch hole 12 extended by extending | stretching may be an elliptical extending | stretching hole 22a like FIG. 3A, and may be shaped like a rectangular extending | stretching hole 22b like FIG. 3B.

Of course, the shape of the extending holes 22a and 22b after stretching is determined depending on how the shape of the notched holes 12 is formed during the primary stretching step.

When the plastic or steel plate 10 is stretched as described above, since the plastic molecular link rings are formed in vertical and horizontal rows, the strength such as tensile strength and shear strength becomes stronger.

On the other hand, this stretching method is only illustrative, and the scope of the claims can be applied to materials other than plastic or steel. Therefore, regardless of the material, it is known in advance that all of the methods of simultaneously stretching the present invention belong to the rights of the present invention.

As described above, in the present invention, when the reinforcing plastic and the steel sheet are stretched at the same time in all directions, the strength is increased, that is, the strength, such as tensile strength and shear strength, becomes stronger, and not cut during drilling. As the hole is formed and stretched, there is no waste of material, and since the material lost is not reused as in the past, the strength is not decreased due to the change in physical properties, thereby reducing the production cost and at the same time reinforcing high strength. Plastic and steel mesh structures can be obtained.

Claims (1)

Reinforcement plastics, characterized in that the plurality of cut holes 12 are formed in a row in the plastic or steel plate 10 in a constant length and intervals, and the plate 12 is simultaneously tensioned in the transverse and longitudinal directions; Steel network structure manufacturing method.