KR0132348Y1 - Bordering panel of foundation pits - Google Patents

Abstract

The present invention relates to various construction materials for construction, reinforcing member (10) of the metal material; A resin member 20 surrounding the reinforcing member 10; The reinforcing member from the inner surface of the mold (1) when the resin member 20 is molded in a state that is fixed to a plurality of surfaces in each direction to the outside of the reinforcing member (10) and positioned inside the mold (1) It is composed of a gap holding member 30 to maintain the predetermined distance (10), the resin member 20 is molded to a certain thickness, and can mass-produce a product in a short time, and the transportation and installation due to light weight It is easy and convenient and economical.

In addition, it is excellent in strength, so that it is not damaged during transportation or installation work, and it is sufficiently resistant to earth pressure, thus providing a long service life.

In addition, it is a very useful design such as economical and environmental protection mainly by utilizing waste synthetic resin material.

Description

Construction member for civil engineering

1 is a front view showing the installation state of the retaining wall.

2 is a front view showing the installation state of the retaining wall.

Figure 3 is a perspective view showing the inside of the construction member of the present invention.

Figure 4 is a longitudinal cross-sectional view showing a state in which the present invention is molded in the mold.

5 is a front view of FIG.

Figure 6 is a longitudinal cross-sectional view showing another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: reinforcing member 11: reinforcing plate

12: shaped steel 20: resin member

30: gap holding member

The present invention relates to a construction member mainly used for civil engineering.

The construction member includes various shafts, retaining walls, and fences, and the unit members are prefabricated, and strength and aesthetics are important.

Conventionally, the above-mentioned construction members are generally molded of concrete.

Therefore, not only a large amount of time is required due to the need for curing period and the like in the molding process, but also the weight is heavy and the strength is weak.

This is not only inconvenient to mold, but also requires a great deal of care in transporting to a work position, and in particular, it is often experienced to be easily broken by slight carelessness in the transportation process and installation work.

In addition, after the installation, the earth pressure has been damaged, and regular inspections have led to the closure of this new one.

Considering such a waste, it is possible to think of a method using a synthetic resin material that is light and easy to handle and that can be mass-produced by a mold, etc., but this also is not suitable for demanding precision.

The reason for this is that the flat surface cannot be obtained due to shrinkage that occurs when the synthetic resin material is melted and then molded according to a predetermined shape and solidified. As a result, torsion is caused overall, and it is impossible to maintain a flat surface.

That is, in the process of melting the resin at a high temperature between 180-250 ° C. to form a predetermined shape, the resin state immediately after the molding is maintained at a temperature of 90-100 ° C., when curing in the air, the temperature of the air is 25 ° C. Even in the case of room temperature inside and outside as an example, the temperature difference will have a relatively large temperature difference of about 60 °.

Therefore, in the process of curing after molding, the hardening phenomenon appears by sequentially cooling from the outermost surface to the inner surface in contact with the atmosphere, and the surface hardening phenomenon is generated due to the rapid cooling because the temperature difference is most severe on the surface.

In addition, as the temperature is cooled toward the center of which the temperature is highest, a boundary is formed with respect to the layer that is hardened at the instant when the uncured layer is cured due to the temperature difference, causing irregular deformation, that is, torsion due to shrinkage.

This phenomenon is not only the distortion caused by the temperature difference at different positions in the vertical direction of the vertical direction, but also in the same layer, the same conditions as the center distance at each position is different, the temperature of each part is different, The torsion caused by this will appear.

As a result, when molded to have a predetermined thickness and area by using a synthetic resin material, the tension and compression force, and the combined force of the tensile and compression forces are applied at different positions by being contracted in irregular directions of up and down and left and right sides in each part. Since deformation occurs three-dimensionally, it was not used as a formwork because a flat plane state was not obtained.

It is an object of the present invention to provide a construction member for construction that can be processed flatly without distortion of resin, which is particularly inexpensive and recycled as waste resin among synthetic resin materials.

Another object of the present invention is to provide a construction member for construction that can be economically profitable by prolonging its lifespan because it is excellent in strength and can withstand shock or strong earth pressure.

Still another object of the present invention is to provide a construction member for construction, which is light and easy to handle, and can be mass-produced by a mechanical process so that a worker can be quickly and conveniently installed and transported.

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

The present invention and the reinforcing member 10 of the metal material;

A resin member 20 surrounding the reinforcing member 10;

The reinforcing member from the inner surface of the mold (1) when the resin member 20 is molded in a state that is fixed to a plurality of surfaces in each direction to the outside of the reinforcing member (10) and positioned inside the mold (1) It is characterized in that the gap holding member 30 is configured to maintain the predetermined distance so that the resin member 20 is molded to a predetermined thickness.

The reinforcing member 10 is a structure which is installed inside the synthetic resin construction construction member completed by the configuration of the present invention to reinforce the strength and prevent deformation.

The material of the reinforcing member 10 is a material that is not melted when the molten resin material is coated, and is sufficiently resistant to external pressure, impact, earth pressure, and the like, and is selected as a steel plate or a section steel having a relatively low value.

Then, the shape is a shape of a desired object so that a resin material is uniformly coated on the outside thereof to form a building construction member for construction.

3 to 6 show the configuration of the reinforcing member 10 as an example.

In the figure, the shape steel 12 is reinforced for greater strength toward the rear side of the plate-shaped reinforcing plate 11.

However, depending on the application, only a plate-shaped reinforcement plate 11 may be provided when very large strength reinforcement is not required.

In addition, forming only the shaped steel 12 along the shape of the construction member for construction can also have a reinforcing effect.

In the case of a retaining wall or the like requiring a large surface pressure, the strength may be further increased by molding the bead groove 15 to be bent to one side as shown in FIG.

The resin member 20 is a coating member which is uniformly coated on the surface of the reinforcing member 10 so that its external shape forms a construction member for civil engineering.

The resin member 20 is made of synthetic resin material, which does not form a grain in a specific direction like wood, and has a specific gravity less than that of metal material, thereby allowing light weight and mass production. In particular, a resin material of polyethylene (PE) series is selected. It is efficient in terms of economics.

Polyethylene resin is processed by recycling waste resin that has already been commercialized, so it is very inexpensive and economically effective, and the greater effect is also useful for protecting the environment by eliminating waste vinyl or resin that is discarded as it is. Will be done.

However, it is difficult to obtain a desired shape, especially flat straightness, using these resins, especially polyethylene.

The reason for this is that, after applying heat in a liquid or gel state, in the process of forming through a mold or a forming roller, when it is contacted with the air and cooled as described above, shrinkage and heat imbalance cause a torsion phenomenon.

Therefore, the reinforcing member 10 located inside the resin member 20 serves to prevent shrinkage and torsion, so that the precision of the finished product is excellent and particularly the strength is excellent.

In addition, the reinforcing member 10 may be considered to position only the flat metal plate into the inside of the resin member 20, but it is not possible to obtain a flat plane because of low resistance to torsion in the perpendicular direction of the thickness. In addition, the rigidity is less easily bent in the vertical external force on the reinforcing member 10, and because it has a simple cross-sectional shape, the cross-sectional coefficient is less effective.

In addition, it may be considered to fill a very thick iron plate in order to have a large reinforcing effect, but the cost is greatly increased, of course, is very heavy and is not suitable in terms of handling.

In the case where a thin metal plate is provided, the thickness of the resin material becomes relatively thick, so that the shrinkage rate generated at this thick thickness becomes large and thus cannot be used as a result of the surface twisting.

That is, by processing the bead groove 15 to squeeze the protrusion and the concave-convex portion in a zigzag manner so that the stress is not concentrated in any particular direction of the reinforcing plate 11 of a certain thickness, the cross-sectional coefficient is increased to increase the rigidity, The adverse effect of shrinkage and torsional stress is to block the action of up and down, left and right.

In addition, as shown in FIG. 6, if a plurality of passage holes 13 are repeatedly drilled in the reinforcing plate 11, the resin may be formed from the resin material on both sides of the reinforcing plate 11 through the passage holes 13. By connecting integrally, the resin member 20 and the reinforcing member 10 can be combined to obtain the effect of integrally combined is more preferable.

The gap holding member 30 is a structure that allows the resin member 20 to be molded to a predetermined thickness when the resin member 20 is coated with the surface of the reinforcing member 10.

That is, the gap holding member 30 is attached to each surface position of the reinforcing member 10 so that when the resin member 20 is molded in the mold 1, the gap between the mold 1 and the reinforcing member 10 is formed. By maintaining the constant gap by the gap holding member 30, the resin material filled with the gap is uniformly coated.

Therefore, the reinforcing member 10 can be prevented from being formed as a whole by being biased or biased in any position to form an irregular resin thickness.

The gap retaining member 30 is selected as a steel material that is easily attached to the reinforcing member 10 from a material that is not likely to melt together when the resin is molded in a molten state, and is mainly attached by a predetermined interval by welding.

And the shape of the gap holding member 30 is preferably in the shape of a rod as illustrated in the figure.

Therefore, the diameter determines the gap between the reinforcing member 10 and the mold 1, and the length extending to both sides of the reinforcing member 10 also separates the mold 1 and the reinforcing member 10 and the resin therebetween. Will determine the amount of space to be filled.

Therefore, excellent shrinkage rate and strength of the product can be obtained.

FIG. 1 shows that the construction material for civil construction having the structure of the present invention is used as the retaining wall as an example, wherein the unit panel-shaped retaining wall members A are fitted into the assembling posts 16 and installed in a prefabricated manner.

2 shows an example in which the unit rod-shaped fence members B are vertically and horizontally arranged and joined at their intersections to be used as fences.

The present invention of the structure as described above can be mass-produced products in a short time, it is convenient and economical because it is easy to transport and install due to light weight.

In addition, it is excellent in strength, so that it is not damaged during transportation or installation work, and it is sufficiently resistant to earth pressure, thus providing a long service life.

In addition, it is a very useful design such as economical and environmental protection mainly by utilizing waste synthetic resin material.

Claims (6)

A reinforcing member 10 made of metal; A resin member 20 surrounding the reinforcing member 10; The reinforcing member from the inner surface of the mold (1) when the resin member 20 is molded in a state that is fixed to a plurality of surfaces in each direction to the outside of the reinforcing member (10) is located inside the mold (1) A construction member for civil construction comprising a gap holding member (30) for maintaining a predetermined distance (10) so that the resin member (20) is molded to a predetermined thickness. According to claim 1, wherein the reinforcing member 10 is a construction for civil construction, characterized in that the plate-shaped steel reinforcement plate (11). According to claim 1, wherein the reinforcing member 10 is a construction member for civil construction, characterized in that the steel section steel (12). According to claim 1, wherein the gap retaining member 30 is a construction member for civil engineering, characterized in that the rod-shaped steel. The construction member according to any one of claims 1 to 3, wherein the reinforcing member (10) has a through hole (13). The construction member according to any one of claims 1 to 3, wherein the reinforcing member (10) is formed with a bead groove (15).