KR102230730B1 - Waste synthetic resin support - Google Patents

Abstract

An object of the present invention is to provide a support made of waste synthetic resin used when accumulating for transport and storage of a columnar concrete pile used as a structure support or a telephone pole in a soft ground.
The present invention is a waste synthetic resin support that is interposed so that adjacent piles are spaced apart from each other so that they do not collide with each other when accumulating for transportation and storage of column-shaped concrete piles, and a composite waste synthetic resin of waste thermoplastic resin and waste thermosetting resin Includes a prismatic body made of a structure, glass fiber-reinforced plastic reinforcements arranged in the full length in the longitudinal direction within the body, and glass fiber-reinforced plastic binders that increase the cohesiveness of the composite waste synthetic resin by disposing the reinforcements away from the entire length in the longitudinal direction in the body. Thus, it is excellent in durability and can be distributed at a relatively low price by reducing the manufacturing cost to a minimum.

Description

Waste synthetic resin support

The present invention relates to a support made of waste synthetic resin used for accumulation for transport and storage of pillar-shaped concrete piles used as structure support or telephone poles in soft ground, etc.

Column-shaped concrete piles used as structure support or telephone poles in soft ground are heavy objects, and the circumference of concrete piles is circumferential, so that individual concrete piles flow to the inclined side when the flatness of the floor of the transport or storage place cannot be maintained. This is what is happening.

The flow phenomenon of such heavy objects in concrete piles is a major factor in safety accidents leading to fatal personal injury at industrial sites.

Concrete piles are stacked in a multi-layered manner in order to increase space utilization and load when transporting, but in a manufacturing plant or construction site, concrete piles are stacked up and down. In order to prevent the impact or flow of, a prismatic support installed in an insertion method is essentially used.

These concrete pile supports have been developed and used in various ways until now, and such supports are largely classified into wooden and synthetic resin products.

The electronic wooden base has excellent impact absorption and relatively light weight, so it is easy to integrate work. However, the service life is not long due to damage due to a heavy concrete pile load or corrosion due to moisture and low durability. There is a problem in maintenance due to the replacement cost that has to be replaced with a new wooden base.

Since the latter synthetic resin support can be used semi-permanently by solving the problem of damage and corrosion in the wooden support and increasing the durability, various synthetic resin supports have been used in recent years.

One of the synthetic resin supports has a predetermined length and has a row of grooves at equal intervals that prevent the concrete pile from moving around the body that is formed in a prismatic shape, and at the same time, the groove is spaced apart from the adjacent side. Each concrete pile is aligned with the adjacent side by using stoppers inserted into the holes provided on the upper surface of the body of the prism.

The synthetic resin bearings constituted in this way are mainly made of new materials and are manufactured through a predetermined injection process.At this time, the synthetic resin bearings are prismatic and have a thicker thickness than general injection products, which requires a lot of cooling time, resulting in low productivity. Is following.

In addition, the support made of synthetic resin has poor resilience and has a problem of deformation such as warpage, and thus product properties are degraded.

In addition, synthetic resin bases for new materials are not widely distributed due to the high supply price due to the high cost of supply, that is, the cost of new materials and expensive injection molds, and the economical burden when purchasing them from consumers.

Therefore, in recent years, waste synthetic resins that are a composite of waste thermoplastics and waste thermosetting resins, which are relatively inexpensive waste synthetic resin recycled raw materials, are simply molded by casting method, and waste synthetic resins that can be distributed at low prices and protecting the natural environment by recycling wastes. There is an urgent need for the development of my support.

Korean Patent Registration 10-1193254 Korean Patent Registration 10-1938843

The present invention has been made in consideration of the above circumstances, and its object is to manufacture a base by a casting method using a recycled composite waste synthetic resin of a waste thermoplastic resin and a waste thermosetting resin series as the main raw material, and the production of raw materials and mold costs, etc. It is to provide a support made of waste synthetic resin that can be supplied at an inexpensive price by reducing the unit price to a minimum.

Another object of the present invention is to have a glass fiber reinforced plastic binder and a reinforcing material built into the base to solve the brittleness problem or weak cohesiveness problem in the recycled composite waste synthetic resin, so that it has excellent durability and a waste synthetic resin base that can increase product properties. In providing.

Another object of the present invention is to provide a support made of waste synthetic resin capable of increasing productivity by diversifying the molding process and shortening the cooling time by manufacturing the support in a batch or divided casting method.

The object of the present invention is achieved by providing a support made of waste synthetic resin used for accumulation for transportation and storage of pillar-shaped concrete piles used as structure support or telephone poles in soft ground.

The present invention is a waste synthetic resin support that is interposed so that adjacent piles are spaced apart from each other so that they do not collide with each other when accumulating for transportation and storage of columnar concrete piles, and a composite waste synthetic resin of waste thermoplastic resin and waste thermosetting resin Includes a prismatic body made of, glass fiber-reinforced plastic reinforcements that are reinforced in its longitudinal full length in the body, and glass fiber-reinforced plastic binders that increase the cohesion of the composite waste synthetic resin by disposing the reinforcements away from the reinforcement in the full length in the longitudinal direction. Thus, it is excellent in durability and can be distributed at a relatively low price by reducing the manufacturing cost to a minimum.

According to the waste synthetic resin support according to the present invention, there is an economic effect by reducing the manufacturing cost to the minimum possible and supplying it at an inexpensive price.

In addition, the present invention has a glass fiber reinforced plastic binder and a reinforcing material are embedded in the base to solve the problem of brittleness or weak cohesiveness in the recycled composite waste synthetic resin, thereby improving product properties with excellent resilience and durability.

In addition, by making the base of the present invention manufactured in a batch or divided casting method, there is also an effect of increasing productivity by diversifying the molding process and shortening the cooling time.

1 is a perspective view showing the present invention waste synthetic resin support.
Figure 2 is a front view showing the present invention waste synthetic resin support.
3 is an enlarged cross-sectional view of FIG. 2 by cutting along the line AA.
Figure 4 (a) (b) (c) is a cross-sectional view showing an example of a binder embedded in the present invention waste synthetic resin support,
(a) is the appearance of the coil-type binder embedded,
(b) shows the built-in "I"-shaped binder,
(c) shows the embedded mesh.
Figure 5 (a) (b) is a cross-sectional view showing an example of casting a waste synthetic resin support according to the present invention,
(a) is the appearance of batch casting,
(b) is a divided structure.
Figure 6 (a) (b) (c) (d) (e) is an explanatory diagram showing the casting molding process of the present invention waste synthetic resin support,
(a) shows the separated lower mold waiting for the injection of liquid recycled waste synthetic resin.
(b) shows the interiors of the reinforcing material and the bonding material are arranged on the separated lower mold by using support elements.
(c) shows the liquid composite waste synthetic resin in which the separated lower mold was primarily divided and injected.
(d) shows the liquid composite waste synthetic resin dividedly injected into the separated lower mold.
(e) shows the upper mold being closed after the injection of liquid composite waste synthetic resin into the lower mold was completed.

Next, an embodiment of the present invention will be described. 1 to FIG. 1 are shown in detail the waste synthetic resin support according to the present invention.

The present invention is a waste synthetic resin support used when accumulating for transport and storage of pillar-shaped concrete piles used as structure support or telephone poles in soft ground, that is, piles stacked up and down or horizontally arranged horizontally and collide with each other. It will provide a footing to prevent breakage due to the flow or collision of concrete piles by maintaining the gap so that it does not occur.

In the drawing, 10 is the body of the support made of waste synthetic resin. The body 10 is molded by a casting method using recycled composite waste synthetic resins of waste thermoplastic resin and waste thermosetting resin series as main raw materials.

The fuselage 10 has a prismatic shape, more specifically a square column shape, and the upper surface thereof is used as a support surface on which a concrete pile is placed, and chocks may be additionally provided to prevent the left and right flow of the concrete pile.

In the body 10, individual reinforcements 12 in the shape of reinforcing bars made of glass fiber reinforced plastic material that increase the elastic modulus of the body 10 with its lengthwise overall length to improve resilience are arranged in a column shape or in various other forms. .

In the fuselage 10, the reinforcing materials 12 are arranged away from the reinforcing materials 12 in its longitudinal full length, and glass fiber-reinforced plastic binders to increase the brittleness problem or weak cohesiveness in the composite waste synthetic resin made of waste thermoplastic or waste thermosetting resin ( 14). At this time, the bonding material 14 will be disposed over and above in the longitudinal cross-section of the body 10 in the longitudinal direction.

The bonding material 14 is formed in various shapes as in (a) (b) (c) of Fig. 4, (a) is an example of a coil type, (b) is an example of an "I" shape, and (c) ) Shows an example of a mesh type, and the binder 14 may increase the brittleness or cohesion of the composite waste composite resin, thereby increasing the durability of the body 10.

In addition, recessed gripping holes 16 are provided on both sides of the bottom of both ends of the body 10 in the longitudinal direction so that the operator can firmly hold the body 10 during transport and work.

Figure 5 (a) (b) shows an example of the body 10 casting molding.

Figure 5 (a) is a case where the body 10 is molded by a batch casting method.

5(b) shows an example in which the body 10 is molded by a divided casting method at least one or more times, and the first cast layer 10a and the second cast layer 10b are located below and above the body 10. Has. At this time, the first and second casting layers 10a and 10b will be formed by injecting a filler material at an appropriate fusion temperature with a time difference.

Choosing the split casting molding of the body 10 is to increase productivity as a method of shortening the cooling time in the casting molding as much as possible in consideration of the thick body 10 thickness.

In addition, between the primary and secondary casting layers 10a and 10b of the body 10 may further have a male-and-male shape coupling structure 10c to increase bonding and a fusion area.

Figure 6 (a) (b) (c) (d) (e) is an explanatory view showing an example of a split casting molding instead of a batch casting molding in the casting molding process of the waste synthetic resin support of the present invention.

6A is a state in which the separated lower mold M1 is waiting for the injection of liquid recycled waste synthetic resin. At this time, block-shaped support elements M1-1 are provided at the bottom of the lower mold M1 for arranging the binder 14, which is one of the interiors of the body 10.

6(b) shows that a bonding material 14, which is one of the interiors, is disposed on the support element M1-1 of the separated lower mold M1, and the other reinforcement 12 is a plate-shaped support element M1- This is the appearance of being placed using 2).

Figure 6 (c) is a state of filling the first cast layer (10a) in which a liquid composite waste synthetic resin filler is first dividedly injected into the separated lower mold (M1). At this time, the filling will be injected by a casting method using gravity.

6(d) shows a state in which the filling, which is a liquid composite waste synthetic resin, is dividedly injected into the upper part of the first casting layer 10a, and the secondary casting layer 10b is superimposedly filled in the separated lower mold.

6(e) is a state in which the first and second injections of the liquid composite waste synthetic resin filling are completed in the lower mold and then closed by the coupling of the upper mold M2 to complete the casting molding.

In the present invention, the base is manufactured by a series of casting methods using a relatively inexpensive casting mold using a recycled composite waste synthetic resin of a waste thermoplastic resin and a waste thermosetting resin series as the main raw material, thereby reducing the manufacturing cost to the minimum possible at a low price. You will be able to spread it.

As described above, an embodiment of the present invention has been described, but the present invention is not limited thereto and may be changed within the scope described in the claims.

10: body 10a: primary casting layer
10b: secondary water tank layer 10c: male and female bond structure
12: reinforcement
14: binder
16: holding hole

Claims (7)

As a support made of waste synthetic resin, which is interposed so that adjacent piles do not collide with each other by being spaced apart during accumulation for transport and storage of pillar-shaped concrete piles,
A prismatic body made of a composite waste synthetic resin of waste thermoplastic resin and waste thermosetting resin;
Glass fiber-reinforced plastic reinforcements arranged in the body in the full length in the longitudinal direction;
Glass fiber-reinforced plastic binders arranged in one of a coil shape, an I-shape, or a mesh shape around the reinforcement by shifting the reinforcing materials in the full length in the longitudinal direction in the body and increasing the cohesive strength of the composite waste synthetic resin;
Gripping holes provided on both sides of the bottom of both ends of the body in the longitudinal direction; And
The body is divided into a first cast layer and a second cast layer by dividing at least one time, and the first and second cast layers are formed in a male and female shape-coupled structure.
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