KR200417168Y1 - The reinforcement rib outside the plastics pipe it becomes accomplished with all and combination appratus - Google Patents

Abstract

The present invention is a synthetic resin tube,

Consisting of a circular tubular shape, the outer circumferential reinforcing ribs protrude in the circumferential direction, and are continuously formed at regular intervals along the longitudinal direction, and the circumferential reinforcing ribs are constituted by a pair of circumferential reinforcing ribs. Although the reinforcing ribs are perpendicular to the reinforcing ribs, i.e., the bending reinforcing ribs are formed integrally with the above components, in spite of their thin thickness and overall light weight (the material is greatly reduced), It is lighter in weight and superior in stiffness than double synthetic resin pipe, and it improves adhesion to backfilling soil and uses excavated soil as backfilling soil through on-site construction through the effect of material saving, convenience of construction and strengthening of structural rigidity. The synthetic resin pipe having the characteristics such that the pipe can be broken even if .

"형상을 띄고 있다.When the present invention is described roughly, the tubular shape is formed in a circular shape, one side of the wide tube-like sleeve structure (11, the sleeve) is configured integrally, so that the other tube 1 can be combined, the outer circumferential reinforcement Rib 20 is formed in a shape protruding in the circumferential direction in a continuous interval along the longitudinal direction, between the circumferential reinforcing ribs 20 is composed of a pair of circumferential auxiliary ribs 30, The reinforcing ribs 40 perpendicular to the circumferential reinforcing ribs 20, that is, along the longitudinal direction of the tubular body, are configured to be integral with the above-mentioned configurations,

"It's in shape.

Reinforcement ribs protruding in the shape of protrusions have rigidity in external pressure, but at construction sites, they increase the basic rigidity of the product, reduce weight and improve adhesion to the ground, and can be recycled on-site soil and recycled soil. There are features that can be done.

Tube, expansion sleeve sleeve, column reinforced rib, column auxiliary rib, bending reinforcement rib, main packing ring, water expansion packing ring, double synthetic resin pipe

Description

Reinforcement rib outside the plastics pipe it becomes accomplished with all and combination appratus}

1 is a perspective view of a synthetic resin tube having an external integral reinforcing rib according to the present invention

Figure 2 is a perspective view of the expandable sleeve structure of the present invention

3 is a partially enlarged perspective view of the present invention

Figure 4 is an illustration of a coupling device of the present invention

5 is a cross-sectional view of the coupling device of the present invention

Figure 6 is an enlarged cross-sectional view of a portion of the coupling device of the present invention

[Description of symbols on the main parts of the drawings]

1: tube 11: expansion sleeve structure 20: column reinforced rib

30: circumferential auxiliary rib 40: bending reinforcement rib 50: main packing ring

51: circumferential auxiliary rib groove 52: insertion groove 60: water expansion packing ring

The present invention relates to a synthetic resin pipe and a coupling device having an external integral reinforcing rib, consisting of a circular tube shape, the outer circumferential reinforcement ribs protrude in the circumferential direction and are continuously formed at regular intervals along the longitudinal direction thereof. A pair of circumferential auxiliary ribs is formed between the circumferential reinforcing ribs, and the thickness of the circumferential reinforcing ribs is perpendicular to the circumferential reinforcing ribs. Despite the thinness and overall weight (significantly reduced material), it is lighter in weight and superior in rigidity compared to the conventional double-synthetic resin pipe, and is buried in the field through the effect of material saving, convenience in construction and strengthening of structural rigidity. Improved adhesion with backfill soil and back excavated soil as backfill soil The present invention relates to a synthetic resin tube having a feature such that damage to the tube can be eliminated even when used.

Synthetic resin pipes have been used in various fields because of their high corrosion resistance and easy processing and construction, and recently, due to the above-mentioned advantages, they are rapidly replacing existing metallic pipes and concrete pipes.

Such synthetic resin pipes are mainly used as water pipes, gas pipes, sewage pipes, and the like.

Synthetic resin pipes used for double tap water and gas pipes are mainly manufactured in the form of rigid pipes using polyethylene (Poly-Ethylene) as a raw material. That is, an extrusion process for supplying a resin, melting it, and supplying it to a molding part, a molding process for manufacturing the supplied molten resin into a tubular shape having a desired diameter and thickness, and a synthetic resin molded through contact with cooling water or air. It is manufactured through the cooling molding process, the take-up and cutting process to solidify and stabilize the tube.

In addition, there is also a method of manufacturing a synthetic resin tube in the form of a double-walled tube, which is produced by first extruding a circular or rectangular small tube with an empty inside, and wound the small tube on a drum, between the wound small tube It is manufactured by supplying molten resin and bonding in between.

Synthetic resin pipes manufactured as described above have increased in use due to the aforementioned advantages, but have limitations in strength and cost. That is, synthetic resin pipes have a disadvantage in that the strength is lower than that of metallic pipes, and when the thickness is increased to overcome this problem, the manufacturing cost increases, and there is a problem in that it cannot be competitive.

In addition, since these products are all produced through extrusion or injection, the surfaces are all smooth. Therefore, when the site is buried, the surface of the pipe contacted with sharp rock in the backfill soil is included. Is broken easily, and as the continuous upper earth pressure is applied to the damaged part, the pipe is distorted and compressed, which causes the buried pipe to lose its original function.

In addition, since the surface has a smooth smooth surface, the adhesion to the surrounding soil is inferior, and when it is excreted on the slope of the steep slope, the phenomenon that the glass is pushed out and flows down is derived.

As such, there is a need for synthetic resin pipes to increase the basic rigidity of the product, reduce weight, and improve adhesion to magnetic surfaces.However, high quality synthetic resin pipes are not yet available to satisfy the consumer's needs. It is.

In order to solve the above problems, the present invention has a circular tubular shape, and the outer circumferential reinforcement ribs protrude in the circumferential direction and are continuously formed at regular intervals along the longitudinal direction, and the circumferential reinforcement ribs are formed between the circumferential reinforcement ribs. It is composed of a pair, and the synthetic resin having a feature that is lighter than the double pipe and excellent in strength compared to the double pipe by configuring the bending reinforcement ribs are perpendicular to the circumferential reinforcement ribs, that is, to be integral with the configuration along the longitudinal direction of the tube The purpose is to make the tube.

In addition, in the construction site by the reinforcing ribs protruding into the projection shape, increase the basic rigidity and light weight of the product and improve the adhesion to the ground, to prevent the breakage of the tubular body from the sharp rock of the field soil, Another purpose is to be recyclable and environmentally friendly.

The present invention is a synthetic resin tube,

Consisting of a circular tubular shape, the outer circumferential reinforcing ribs protrude in the circumferential direction, and are continuously formed at regular intervals along the longitudinal direction, and the circumferential reinforcing ribs are constituted by a pair of circumferential reinforcing ribs. Although the reinforcing ribs are perpendicular to the reinforcing ribs, i.e., the bending reinforcing ribs are formed integrally with the above components, in spite of their thin thickness and overall light weight (the material is greatly reduced), It is lighter in weight and superior in stiffness than double synthetic resin pipe, and it improves adhesion to backfilling soil and uses excavated soil as backfilling soil through on-site construction through the effect of material saving, convenience of construction and strengthening of structural rigidity. The synthetic resin pipe having the characteristics such that the pipe can be broken even if .

"형상을 띄고 있다.When the present invention is described roughly, the tubular shape is formed in a circular shape, one side of the wide tube-like sleeve structure (11, the sleeve) is configured integrally, so that the other tube 1 can be combined, the outer circumferential reinforcement Rib 20 is formed in a shape protruding in the circumferential direction in a continuous interval along the longitudinal direction, between the circumferential reinforcing ribs 20 is composed of a pair of circumferential auxiliary ribs 30, The reinforcing rib 40 is perpendicular to the circumferential reinforcing rib 20, that is, along the longitudinal direction of the tube, so as to be integral with the above configurations,

"It's in shape.

Referring to Figures 2 and 3 with respect to the circumferential reinforcement ribs applied to the present invention in detail, protruding in the circumferential direction is formed continuously in a predetermined interval along the longitudinal direction of the tubular body (1) It is composed integrally with the outside, and the degree of protruding is determined at a constant ratio according to the diameter of the tube 1, and a length corresponding to 6% is appropriate, and thus the outer pressure is formed on the tube 1 by the outer circumference. It has the effect of disperse | distributing to a processus | protrusion and the tubular body 1, and it has a characteristic which can maintain strong rigidity according to external pressure.

Referring to Figure 3 with respect to the circumferential auxiliary rib 30 applied to the present invention, it is composed of a pair of integrally in the circumferential direction between the circumferential reinforcement ribs 20, the protrusion length is suitable 3mm, Since it is repeatedly configured along the longitudinal direction of the tube 1, it is used as a measurement standard without the need for a separate measuring tool, and the function of dispersing the external pressure like the circumferential reinforcing rib 20 as well as other adjacent bodies afterwards. (1) can be fitted and fixed with the lower part of the main packing ring (50) used in the combined construction, the site soil and reclaimed soil contacted when buried underground contact the projections, not directly in contact with the outer periphery (1) It is possible to use on-site soil and reclaimed soil as it is in the future, so the efficiency of regeneration process is maximized.

The bending reinforcing rib 40 to be applied to the present invention will be described in detail with reference to FIGS. 2 and 3, and is configured in the longitudinal direction of the tubular body 1 at regular intervals with the outer periphery of the tubular body 1. Consists of the reinforcing rib 20 and the columnary auxiliary ribs 30, and has the same degree of protrusion as the columnar auxiliary ribs 30, the number is composed of four when viewed from the cross section of the tubular body (1) Since they are arranged at intervals of 90 ° to each other, the circumferential reinforcement rib 20 and the circumferential auxiliary rib 30 are configured in the same circumferential direction, while the bent reinforcement rib 40 is configured in the longitudinal direction perpendicular thereto. Like the circumferential reinforcing rib 20 and the circumferential auxiliary rib 30, the external pressure in the circumferential direction of the tubular body 1 is not dispersed, but plays a role in the external pressure dispersion function in the longitudinal direction of the tubular body 1.

5 and 6 as an embodiment of the coupling device between the adjacent adjacent tubular body (1) using the present invention, a main pipe ring 50 and a water-expandable packing ring 60 is provided with an expandable sleeve It is inserted between the circumferential reinforcing ribs 20 on one side of the tubular body 1 inserted into the structure 11, and the water-expandable packing ring 60 is inserted into the main packing ring 50 and then inserted. By fitting one side of the tubular body 1 into the inside of the expandable sleeve structure 11, the coupling between adjacent tubular bodies 1 is made.

In addition, in the case of the main packing ring 50 is generally a ring-shaped, made of a material having a water-tightness, such as rubber and synthetic resin, the lower portion is formed in a shape corresponding to the circumferential reinforcement rib 20, the circumferential auxiliary rib groove portion ( 51 is formed, the upper portion is formed with a symmetrical projection around the insertion groove portion 52 into which the water-expandable packing ring 60 can be inserted, thereby inserting the water-expandable packing ring 60 into the insertion groove portion 52. When the construction of the coupling device as described above, the projections of the main packing ring 50 is located between the tube (1) is responsible for the primary watertight function.

In addition, the water-expandable packing ring 60 plays a role of assisting the watertight function together with the main packing ring 50, and when the water is in contact with the water, the volume thereof expands to completely contact the upper part of the main packing ring 50.

As described above, the present invention prevents direct contact with the tubular body when the backfilling soil contains sharp rocks, etc., when the site is buried by reinforcing ribs protruding into a protrusion shape, and adheres to surrounding soil when buried due to the characteristics of the outer surface. Because of this, it is possible to prevent the phenomenon of being pushed out or dripping with the soil in advance.

Therefore, while having rigidity in external pressure, the construction site increases the basic rigidity of the product, light weight, and improves the adhesion to the place name, it is possible to use on-site soil and recycled soil as it is, there is a feature that can be environmentally friendly construction.

In addition, when the coupling between adjacent pipes provided with only a separate main packing ring and the water-expandable packing ring is mounted on the pipe to form a coupling between the pipe has a feature that is much easier than the conventional method using a screw thread.

As described above, the present invention has a circular tubular shape, and the outer circumferential reinforcing ribs protrude in the circumferential direction, and are continuously formed at regular intervals along the longitudinal direction, and the pair of circumferential reinforcing ribs is formed between the circumferential reinforcing ribs. And a synthetic resin pipe having a characteristic of being lighter in weight and superior in strength than the double pipe by being configured to be perpendicular to the circumferential reinforcing rib, that is, to have the bending reinforcing rib integral with the components along the longitudinal direction of the tube. There is an effect of increasing the stiffness to external pressure.

In addition, in the construction site by the reinforcing ribs protruding into the projection shape, increase the rigidity and light weight of the product and improve the adhesion to the ground, to prevent the damage of the tubular body from the sharp rock of the field soil, As it is used, there is an effect that can be environmentally friendly construction.

Claims (4)

In the synthetic resin tube made of a circular shape, A circumferential reinforcing rib 20 protruding along the circumference of the circumference and formed in plural along the longitudinal direction of the tubular body 1; A circumferential auxiliary rib 30 protruding in pairs along the circumference of the circumferential reinforcing rib 20; Protruding in the longitudinal direction of the tubular body (1), the degree of protrusion is the same as the circumferential auxiliary ribs 30, the bending reinforcing ribs (40);

And the external pressure-reinforced ribs, characterized in that the external pressure is dispersed and acted on by the above-described constitutions. According to claim 1, wherein the circumferential reinforcing rib 20 and the circumferential auxiliary ribs 30 and the bending reinforcing ribs 40 are integrally formed on the outside of one side of the tubular body 1, and the other adjacent tubular bodies 1 are coupled to each other. A synthetic resin pipe having an external integral reinforcing rib, characterized in that the wide-sleeved sleeve structure (11) having a wide diameter so as to be integrally formed. According to claim 1, In addition to using this as a measurement standard when cutting the pipe body 1 by the column auxiliary ribs 30 formed at regular intervals in the longitudinal direction of the tube body 1, a pair of column auxiliary ribs A synthetic resin pipe having an external integral reinforcing rib characterized in that cutting is easy by cutting along the lines (30). In the form of a circular tube, a plurality of circumferential reinforcing ribs 20 protruding in the circumferential direction are formed at regular intervals along the longitudinal direction thereof, and between the circumferential reinforcing ribs 20, the circumferential auxiliary ribs 30 are formed. And a tubular body (1) having an integrally expanded tubular sleeve structure (11) having a wide diameter so that another tubular body (1) can be joined at one end, The lower portion forms a circumferential auxiliary rib groove portion 51 having a shape fitted into the circumferential reinforcement rib 20, and the upper portion has a shape of a cross section in which the insertion groove portion 52 is integrally formed, and has a ring-shaped main packing ring 50. and, A ring-shaped water-expandable packing ring 60 is provided that increases in volume when contacted with water, thereby inserting the main packing ring 50 provided between the circumferential reinforcing ribs 20 and inserting the upper portion through the insertion groove 52. After inserting the water-expandable packing ring 60 in sequence, by fitting into the inside of the expansion sleeve structure 11 of one end of the tubular body 1 to be inserted, the outer water characterized in that the high watertight coupling is performed accordingly Joining device of synthetic resin pipe with integral reinforcing rib

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