KR200327571Y1 - Adiabatic pipe - Google Patents

Abstract

The present invention relates to a heat insulating pipe made of glass fiber, to have a coupling protrusion (2) and a coupling groove (4) on both sides to be connected by a male and female coupling, the cutting surface (6) for the half-minute (6) ( 8) is formed to be angled or bent to prevent heat loss by delaying the flow of hot or cold air through the connecting portion of the pipe (A) or the cutting surface (6) (8) after construction.

Description

Insulation pipes {Adiabatic pipe}

The present invention relates to a pipe used for the insulation of various pipes, and in particular, to maximize the insulation effect.

As for the pipes used for insulation such as gas pipes, rectifier pipes, power plant pipes, and industrial steam pipes, the applicant has already provided patent No. 274314.

This is to apply a binder on one side of the needle-punched glass fiber mat to be wound on the molding roller and press-molded, it has the advantages of being high density, solid and excellent thermal insulation and can obtain a standard product.

However, when constructing, simply cut both ends in a straight line in a long pipe so that the cut surface is in close contact with each other, and even if the pipe is to be constructed after construction or pipe work, it is also simply in a horizontal direction. As it is cut by the construction, hot and cold air passes through the gap between the cut surfaces after construction without any interruption, resulting in lower insulation and secondary degradation due to condensation. That is,

The present invention is to provide a heat insulating pipe that can minimize the heat loss through the connection portion or the cutting surface of the pipe in order to solve the above-mentioned problems.

In order to achieve the above object, the present invention allows several pipes to be connected by male and female coupling, and the cutting surface is angled or bent during cutting in the transverse direction for construction after construction of the previously constructed pipe or plumbing work. It is characterized by being configured to minimize heat loss by disturbing the flow.

1: perspective view of the present invention

2 is a cross-sectional view of the subject innovation

3 is a longitudinal cross-sectional view of the subject innovation

4: longitudinal cross-sectional view of the present invention in a state of open

5 is a longitudinal cross-sectional view of another embodiment of the present invention

<Description of Symbols for Main Parts of Drawings>

(A)-Insulation pipe (2)-Joint protrusion

(4)-engagement groove (6) (8)-cut surface

(10)-vapor barrier

(12)-Extension (14)-Constitution

Figure 1 is a perspective view of the present invention, the present invention is composed of a cylindrical shape using glass fibers, protruding to form a circular coupling protrusion (2) occupying about half of the total thickness from the inner side at one end, the inner side at the other end Insulating pipes, which occupy about half of the total thickness from the concave length of the coupling protrusions 2 or the same as the protruding length of the coupling protrusions, are recessed, and are bisected in the longitudinal direction to have cutting surfaces 6 and 8. It constitutes (A).

The present invention forms a cylindrical shape by pressure molding through a pressure roller while winding a molding roller in a state where a binder is applied to one surface of a needle-punched glass fiber mat, and a coupling protrusion (2) and a coupling groove (4) on both sides after pressure molding. Is formed, and it is cut laterally and is bisected by the cutting surface 6 (8).

However, in constructing the present invention, it is not limited to being molded in a cylindrical shape using a needle-punched glass fiber mat, all of them belong to the same technical category because it is applicable to all insulating pipes are formed in a cylindrical shape using glass fiber. something to do.

On the other hand, the coupling protrusion (2) having one side of the insulation pipe (A) is a diameter smaller than the outer diameter of the insulation pipe (A), protruding to a predetermined length, the coupling groove (4) having the other side is the coupling protrusion (2) The inner diameter of the pipe is smaller than the outer diameter so that the coupling protrusions of other pipes of the same type can be inserted closely.

In addition, the cutting surface (6) (8) for dividing the heat insulating pipe (A) may be formed in various shapes, such as "V" type, "N" type, "W" type, "S" type, etc., bent or curved. By cutting or bending the shape of the cutting blade used for cutting, the cutting surface 6 or 8 may be naturally bent or curved when cutting using the cutting blade. In order to delay the flow of hot or cold air, it may be formed in various shapes.

The present invention can form a vapor barrier (10) around the outer surface according to the characteristics of the fluid transported through the tube to increase the warming effect and to block the external moisture.

At this time, the vapor barrier (10) is generally composed of aluminum foil, glass cross and adhesive binder, peel off the release paper for protecting the binder and may be glued around the outer surface of the heat insulating pipe (A).

However, when the vapor barrier (10) is to be provided, the adhesive pipe is formed around one of the cutting surfaces (6) of the heat insulating pipe (A) to form an extension from any one of the cutting surfaces (6) while maintaining the connection state. It is preferable to have the extension portion 12 to maintain the connection state by the adhesion of the extension portion 12 during construction.

The present invention is bonded to the outer surface of the tubular body 14 by fully spreading through the cutting surfaces 6 and 8 as shown in FIG. 4, and bonded using the extension part 12 of the vapor barrier 10 that surrounds the outer surface. You can fix it.

In addition, when the length of the tubular body 14 is long and requires a plurality of insulation pipes A, the insulation is pre-installed in the coupling groove 4 of the other insulation pipe A installed by opening the insulation pipe A. The coupling protrusion 2 of the pipe A may be positioned so that the adhesive protrusion may be fixed by using the extension 12 of the vapor barrier 10, and the male and female coupling using the coupling protrusion 2 and the coupling groove 4 may be performed. This can be done naturally in the construction process, and if necessary, the rubber band on the outer surface to be completed to complete the construction.

After construction, the pipes for thermal insulation (A) are connected to each other by male and female coupling by the coupling protrusions 2 and the coupling grooves 4, so that the gaps between them are angled or curved to delay the flow of hot or cold air. The heat loss caused by the gap in the site can be minimized.

In addition, the cutting surface (6) (8) for the construction of the insulation pipe (A) is also angled or bent is formed so as to delay the flow of hot or cold air through the gap between the cutting surface (6) (8) It is possible to minimize the heat loss due to the gap between the).

In this way, the present invention is connected to the male and female coupling between the insulation pipe (A) by forming a cut or bent half (6) (8) of the half-minute for construction to prevent the flow of hot or cold air It is a useful design that can minimize the heat loss through the connection portion of the pipe (A) or the cut surface (6) (8).

Claims (1)

In the heat insulating pipe made of glass fiber, a coupling protrusion (2) and a coupling groove (4) for male and female coupling are formed at both ends, and when cut in half along the longitudinal direction, the cut surfaces (6) (8) are angled. Insulation pipe consisting of two or more sides.