KR101413037B1 - Polyethylene pipes - Google Patents

Abstract

The present invention relates to a polyethylene pipe for safely coupling the inner circumference. More specifically, by injecting confluent resin, it is possible to differentiate the shape of protrusions on the protruding part of extruded profiles for a dual- or triple-layer pipe, so the profiles can be coupled in a spiral shape using the shape of the protrusions and the protrusions can be coupled to each other. In the remaining spaces, melted resin is filled as a connection agent. By doing so, the polyethylene pipes for safely coupling the inner circumference can significantly improve the coupling force. According to the present invention, the profiles in which a hollow is formed on the inner circumference or in which a plurality of hollows are formed on the inner circumference using a cross-shaped reinforcing band are arranged in a spiral shape, and by putting the connection agent between the profiles, a pipe is formed. On the groove part formed in the lower part of a profile, coupling grooves are formed at regular intervals. Above the groove part, an upper space is formed. On the protruding part formed in the lower part, opposite to the side at which the groove part is formed, of the profile, fixing protrusions corresponding to the coupling grooves are formed. Above the protruding part, another upper space is formed. To the upper spaces, the connection agent is injected to connect the profiles. The coupling grooves and the fixing protrusions have an S-shape and are combined to each other.

Description

{Polyethylene pipes}

More particularly, the present invention relates to a polyethylene sewer pipe for inner safety connection, and more particularly, to a method of manufacturing a polyethylene sewer pipe for coupling an inner diameter safety member, which comprises the steps of supplying a fused synthetic resin to form a concave- The present invention relates to a polyethylene sewer pipe for coupling an inner diameter safety coupling, which is capable of greatly increasing a coupling force due to a strong coupling force of a molten resin being supplied to a connecting member and joining together the concave-

Sewer pipes, pipes used for drainage pipes and pipes are manufactured with a relatively large diameter. Therefore, when manufactured from cement or metal, the weight is too heavy and the manufacturing cost is high, and most of them are manufactured using synthetic resin.

However, the synthetic resin pipe is generally low in strength as compared with a pipe made of cement or metal, and is easily damaged by earth pressure or external load after being buried underground.

In particular, the double-walled sewage pipe is formed into a smooth tube while being extruded into a rectangular profile and supplied in a spiral form. However, in order to solve the drawback that the strength is low and easily damaged, the first extruder 100, (11) formed in the mold (11a) is cooled and cooled, and the cooled profile (11) is spirally supplied to the winding device while passing through the connecting member (12) supplied between the profiles The double wall sewage pipe 10 is formed.

As shown in FIG. 2, the triple-walled (or double-walled) sewage pipe is formed by extruding a profile 21 having a plurality of hollows 21b formed through a cross bar 22 in a metal mold connected to the first extruder 100 (About 6 meters) by molding the triple-wall sewage pipe 20 through the connecting member 22 supplied between the profiles 21 while supplying the cooled profile 21 spirally to the winding device, As shown in FIG.

Since the double wall sewage pipe 10 and the triple wall sewage pipe 20 have a structure in which molten polyethylene resin is filled in all portions except for the hollow portion, the raw material is consumed so much that the rigidity is not relatively high relative to the consumption ratio of the raw material So that the cost is increased unnecessarily.

In addition, since the connecting member is supplied in a straight shape between the profiles, the coupling force between the connecting member and the profile is weak, so that a phenomenon occurs in which the temperature and the temperature difference according to the season are severe, It becomes impossible to use the above-mentioned method.

Particularly, after the profiles 11 and 21 are extruded and cooled to some extent through a cooling process, molten synthetic resin is supplied to the connecting members 12 and 22 between the profiles 11 and 21 while being helically fed Since the bonding force is provided between the profiles 11 and 21, the bonding force due to the supply of the new molten synthetic resin to the cooled portion is weakened, which causes a drawback that the bonding force of the double wall sewer pipe or the triple wall sewer pipe is weakened.

Document 1. Patent Registration No. 0508097 (registered on Aug. 04, 2005) Document 2. Patent Registration No. 0929939 (Registered on November 26, 2009) Literature 3. Patent Registration No. 1023768 (registered on Mar. 14, 2011) Document 4. Patent Registration No. 1023770 (registered on Mar. 14, 2011)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems in the prior art, and it is an object of the present invention to provide a method and a device for forming a concave- So that the coupling force between the profiles can be greatly improved.

According to the present invention, a hollow profile is formed in the inner diameter or a profile in which a plurality of hollows are formed on the inner diameter by a cruciform barrel spirally, and a connecting member is supplied between the profiles to form a sewer pipe; Wherein a groove is formed at a predetermined interval in the recessed member formed on the lower side of the profile and an upper space is formed on the upper side of the recessed member and the concave and convex member formed on the lower side of the profile formed on the opposite side of the recessed member, Wherein the upper space is formed with an upper portion of the concavo-convex member, and a connecting member is provided in the upper space to connect the profiles to each other,
The coupling groove and the fixing concavity and convexity are formed in an "S" shape and are coupled to each other.

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In the present invention, grooves and irregularities are formed at regular intervals so as to coincide with grooves projecting from the lower side (inner diameter) of the profile and the concave-convex member, and the profile is spirally supplied to the winding device, So that the bonding force between the profiles can be greatly improved. In addition, the molten synthetic resin is supplied to the remaining space on the upper side to increase the coupling force between the profiles, so that the profile and the connecting member are separated by the thermal expansion coefficient and the pressure So that it is possible to prevent the phenomenon.

1 is a cross-sectional view of a conventional double-
2 is a cross-sectional view of a conventional triple wall sewage pipe
3 is a perspective view of the double wall sewage pipe of the present invention.
4 is a cross-sectional view of the double wall sewage pipe according to the present invention
Fig. 5 is a sectional view of the double-wall sewage pipe according to the present invention
6 is a profile perspective view of the double wall sewage pipe of the present invention
7 is a top plan view of the double wall sewer pipe of the present invention
8 is a perspective view of the triple-wall sewage pipe of the present invention
9 is a cross-sectional view of a profile for a triple-walled sewer of the present invention
Figure 10 is a cross-sectional view of the triple-
11 is a profile perspective view of the triple-wall sewage pipe of the present invention
12A is a profile plan view for the triple-walled sewer of the present invention
12B is an enlarged plan view showing the connection state of the profile of the present invention
13 is a top view of an S-shaped embodiment of a profile for a sewer pipe of the present invention
Figure 14 is a top view of a Y-shaped embodiment of a profile for a sewer pipe of the present invention.
15 is a top view of a Z-shaped embodiment of a profile for a sewer pipe of the present invention
Figure 16 is a top view of a T-shaped embodiment of a profile for a sewer pipe of the present invention.
Fig. 17 is a plan view of an Ω-type embodiment of a profile for a sewer pipe of the present invention
18 is a view showing an installation state of the sewage pipe forming apparatus according to the present invention
19 is a block diagram showing the sewage pipe forming step of the present invention

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

FIG. 3 is a perspective view of a double wall sewage pipe according to the present invention, FIG. 4 is a sectional view of the double wall sewage pipe of the present invention, FIG. 5 is a sectional view of the double wall sewer pipe according to the present invention, Profile perspective view, and Figure 7 shows a profile plan view of the double wall sewer pipe of the present invention.

A polyethylene resin is supplied and melted and then a profile 11 in which a hollow 11a is formed is supplied by extrusion, and while the profile 11 is molded, a concave member 13 is formed on the lower side (inner diameter) And the concave and convex member 15 is formed on the other side opposite to the groove member 13. As shown in Fig.

The concave-convex member 15 is formed by a method of punching a coupling groove 14 in a "gap" at a predetermined interval in the groove member 13, and only the fixed concave and convex portions 16 are " So that the remaining portion is punched out.

An upper space 17 is formed on the upper side of the groove member 13 and an upper space 18 is formed on the upper side of the concave and convex member 15 so that the connecting member 13 is supplied.

The molten polyethylene resin is melted and supplied to the upper spaces 17 and 18 so that the molten polyethylene is melted and the molten polyethylene is melted and supplied to the upper spaces 17 and 18, (13) join the profiles (11) to form the double wall sewer pipe (10).

A space 19 may be formed when the fixing concavity 16 is coupled to the coupling groove 14 by the coupling of the groove member 13 and the concave and convex member 15. In the space 19, And is filled with the connecting member 13 along the entire surface.

Fig. 9 is a perspective view of the triple-walled sewage pipe of the present invention, Fig. 9 is a sectional view of the triple-walled sewage pipe of the present invention, Fig. FIG. 12A is a plan view of a profile for a triple-wall sewage pipe of the present invention, and FIG. 12B is an enlarged plan view of a main portion showing a connection state of the profile of the present invention.

A polyethylene resin is supplied and melted and then a profile 21 in which a plurality of hollows 21b are formed is supplied through a cruciform bar 21a by extrusion to form a lower side (inner diameter) And a concave / convex member 25 is formed on the other side of the concave member 23 opposite to the concave / convex member 23.

The concave and convex member 25 is formed by a method of punching a coupling groove 24 at a predetermined interval in the concave member 23 so that only the fixed convex and concave 26 remains in the concave and convex member 25, So that the remaining portion is punched out.

An upper space 27 is formed on the upper side of the groove member 23 and an upper space 28 is formed on the upper side of the concave and convex member 25 so that the connecting member 23 is supplied.

And the molten polyethylene resin is melted and supplied to the upper spaces 27 and 28. The molten polyethylene resin is melted and supplied to the upper spaces 27 and 28, (23) join the profiles (21) to form a triple-wall sewage pipe (20).

A space 29 may be formed when the fixing protrusion 26 is coupled to the coupling groove 24 by the engagement of the groove member 23 and the protrusion member 25, And is filled with the connecting member 23 on the entire surface.

13 is a plan view of an S-shaped embodiment of a profile for a sewer pipe of the present invention. The profile 11 of the double wall sewer pipe 10 and the profile 21 of the triple wall sewer pipe 20 The concave and convex members 15 and 25 formed on the opposite sides of the concave members 13 and 23 are formed with concave members 14 and 24 in the concave members 13 and 23, (16, 26) engaging with the projections (13, 23) are protruded.

14 is a plan view of a Y-shaped embodiment of a profile for a sewer pipe according to the present invention. The profile 11 of the double wall sewer pipe 10 and the profile 21 of the triple wall sewer pipe 20 The concave and convex members 15 and 25 formed on the opposite sides of the concave members 13 and 23 are formed with concave members 14 and 24 so that the concave members 13 and 23 have a Y- (16, 26) engaging with the projections (13, 23) are protruded.

15 is a plan view of a Z-shaped embodiment of a profile for a sewer pipe according to the present invention. The profile 11 forming the double wall sewer pipe 10 and the profile 21 forming the triple wall sewer pipe 20 are protruded The concave and convex members 15 and 25 formed on the opposite sides of the concave members 13 and 23 are formed with concave members 14 and 24 so that the concave members 13 and 23 have a Z- (16, 26) engaging with the projections (13, 23) are protruded.

16 is a plan view of a T-shaped embodiment of a profile for a sewer pipe according to the present invention, in which a profile 11 of a double wall sewer pipe 10 and a profile 21 of a triple wall sewer pipe 20, And the concave and convex members 15 and 25 formed on the opposite sides of the concave members 13 and 23 are formed with concave members 14 and 24 in the concave members 13 and 23, (16, 26) engaging with the projections (13, 23) are protruded.

17 is a plan view of an Ω-shaped embodiment of a profile for a sewer pipe according to the present invention. The profile 11 forming the double wall sewer pipe 10 and the profile 21 constituting the triple wall sewer pipe 20 are protruded And the concave and convex members 15 and 25 formed on the opposite sides of the concave members 13 and 23 are formed with concave and convex members 14 and 24 on the concave members 13 and 23, (16, 26) engaging with the projections (13, 23) are protruded.

18 shows a state in which the sewer pipe forming apparatus according to the present invention is installed. When the polyethylene resin is supplied and melted to form the recessed members 13 and 23 and the concave-convex members 15 and 25 integrally on the lower side The first extruder 100 for extruding the profiles 11 and 21 is provided.

The profiles 11 and 21 are cooled by the cooling water in the cooling device 110 and then cooled by the cooling water to be supplied to the cooling device 110 through the convex forming device 120 which is a molding device using a press, The engaging grooves 14 and 24 and the fixed engravings 16 and 26 are formed on both sides of the winding device 120 to form a spiral shape And is spirally wound on the outer diameter of the winding device 120. [

The upper spaces 17 and 27 of the groove members 13 and 23 of the profiles 11 and 21 supplied to the winding device 120 and the upper spaces 18 and 28 of the concave and convex members 15 and 25 And a second extruder 140 to be supplied to the connecting members 12 and 22 after the polyethylene resin is supplied and melted.

The double wall sewage pipe 10 and the triple wall sewage pipe 20 formed in the winding device 120 are cut in a length of about 6 meters from the cutting device 150 after being cooled in the process of being supplied.

The present invention having such a configuration is characterized in that a profile 21 having a plurality of hollows 21b through a profile 11 having a hollow 11a and a cross bar 21a is made of a polyethylene resin supplied to the first extruder 100 Melted and extruded and supplied according to the shape of the mold.

The profiles 11 and 21 supplied from the first extruder 100 are supplied integrally with the recessed members 13 and 23 and the concave and convex members 15 and 25 protruded downward (inner diameters) Cooled by the water cooling method and supplied.

In the process of supplying the profiles 11 and 21, the grooves 13 and 23 are formed with engagement grooves 14 and 24 in the shape of "┓ " through presses of the irregular molding device 120 at regular intervals, Fixed irregularities 16 and 26 are formed in the concave-convex members 15 and 25 so as to be coincident with the coupling grooves 14 and 24 at regular intervals and supplied to the winding device 120.

The profiles 11 and 21 are cooled and supplied spirally to the winding apparatus 120 so that the concave and convex members 15 and 25 are overlapped with the coupling grooves 14 and 24 formed in the concave members 13 and 23, 16, 26) are combined into a "┓" type.

The polyethylene resin is melted in the second extruder 140 in the course of supplying the fixing grooves 16 and 26 to the coupling grooves 14 and 24 and forming the inner diameters while the grooves are interposed between the profiles 11 and 21 27 to the upper spaces 18, 28 formed on the upper side (outer diameter) of the fixed irregularities 16, 26 and the upper spaces 17, 27 formed on the upper sides (outer diameters) So that the profiles 11 and 21 are connected to each other at an upper side (outer diameter) to be integrally connected.

The profiles 11 and 21 are spirally fed from the winding device 120 and are fed through the connecting members 21 and 22 fed between the profiles 11 and 21 so that the smooth double wall sewage pipe 10 and the triple- And the formed double wall sewage pipe 10 and the triple wall sewage pipe 20 are cut at a length of about 6 meters by the cutting device 130 and supplied.

Particularly, the engagement grooves 14 and 24 formed in the recessed members 13 and 23 protruding from both sides of the profiles 11 and 21 and the fixing protrusions 16 and 26 formed on the recessed / Quot ;, and are helically fed to one another to integrally bond to each other, thereby greatly increasing the bonding force between the adjacent profiles 11 and 21. Thus, the profiles 11 and 21 are separated from each other by the thermal expansion coefficient and the compressive strength according to the change in temperature. Can be prevented.

Particularly, the joining recesses 14 and 24 and the fixing irregularities 16 and 26 are combined with each other in a cooled state and are melted in the upper spaces 17, 18, 27 and 28, It is possible to prevent the separation by a large amount, and the bonding force can be greatly improved.

The present invention is characterized in that the recessed members 13 and 23 protruding from one side of the profile 21 constituting the double wall sewage pipe 10 and the profile 21 constituting the triple wall sewage pipe 20 are provided with an engagement groove (16, 26) engaging with the recessed members (13, 23) are formed on the concave-convex members (15, 25) formed on the opposite sides of the concave members (13, 23) So that the bonding force by mutual bonding can be improved.

The present invention is characterized in that the groove 11 and the groove 21 protruding from one side of the profile 11 constituting the double wall sewage pipe 10 and the profile 21 constituting the triple wall sewer pipe 20 are provided with a coupling groove (16, 26) engaging with the recessed members (13, 23) are formed on the concave-convex members (15, 25) formed on the opposite sides of the concave members (13, 23) So that the bonding force by mutual bonding can be improved.

The present invention is characterized in that the recessed members 13 and 23 protruding from one side of the profile 21 constituting the double wall sewage pipe 10 and the profile 21 constituting the triple wall sewage pipe 20 are provided with a coupling groove (16, 26) engaging with the recessed members (13, 23) are formed on the concave-convex members (15, 25) formed on the opposite sides of the concave members (13, 23) So that the bonding force by mutual bonding can be improved.

In the present invention, the groove 11 and the groove 21 protruding from one side of the profile 11 constituting the double wall sewage pipe 10 and the profile 21 constituting the triple wall sewer pipe 20 are formed with a joint groove 13, (16, 26) engaging with the recessed members (13, 23) are formed on the concave-convex members (15, 25) formed on the opposite sides of the concave members (13, 23) So that the bonding force by mutual bonding can be improved.

In the meantime, the present invention is characterized in that the groove 11 protruding to one side of the profile 21 constituting the double wall sewage pipe 10 and the profile 21 constituting the triple wall sewer pipe 20 is provided with a coupling groove (16, 26) engaging with the recessed members (13, 23) are formed on the concave-convex members (15, 25) formed on the opposite sides of the concave members (13, 23) So that the bonding force by mutual bonding can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a computer system according to an embodiment of the present invention; FIG.

(One). The profile extrusion step (S1)

The profile 21 having the plurality of hollows 21b through the profile 11 having the hollow 11a and the cross bar 21a is melted by the melted polyethylene resin supplied to the first extruder 100, Extruded and supplied.

(2). The profile cooling step (S2)

The profiles 11 and 21 supplied from the first extruder 100 are supplied integrally with the recessed members 13 and 23 and the concave and convex members 15 and 25 protruded downward (inner diameters) Cooled by the water cooling method and supplied.

(3). The concavity and convexity forming step (S3)

In the process of supplying the profiles 11 and 21, the coupling grooves 14 and 24 are formed in the groove members 13 and 23 at a constant interval through the pressing of the concave-convex molding apparatus 120 in a " Fixing irregularities 16 and 26 are formed in the members 15 and 25 so as to coincide with the engaging grooves 14 and 24 at regular intervals and are supplied to the winding device 120.

(4). Winding step (S4)

As the profiles 11 and 21 are spirally fed to the winding apparatus 120 and the concave and convex members 15 and 25 overlap with the coupling grooves 14 and 24 formed in the concave members 13 and 23, And the concave and convex members 15 and 25 are formed at the same height in the inner diameter and are supplied.

(5). The connection member supply step (S5)

The polyethylene resin melts in the second extruder 140 in the course of supplying the fixing grooves 16 and 26 to the coupling grooves 14 and 24 so as to form the inner diameters while the grooves 13 And upper spaces 18 and 28 formed on the upper side (outer diameter) of the fixed irregularities 16 and 26 and the upper spaces 17 and 27 formed on the upper side (outer diameter) The profiles 11 and 21 are connected at the upper side (outer diameter) and integrally connected.

(6). Sewage pipe cooling step (S6)

The double wall sewer pipe 10 and the triple wall sewage pipe 20 supplied with the connecting members 12 and 22 between the profiles 11 and 12 are supplied with water and air to the inner and outer diameters, Cooling.

(7). Sewage pipe cutting step (S7)

The profiles 11 and 21 are spirally fed from the winding apparatus 120 and are fed through the connecting members 12 and 22 fed between the profiles 11 and 21 to form a smooth double wall sewer pipe 10 and a triple wall sewer pipe 20 are molded, the cutting device 130 is cut to a length of about 6 meters and supplied.

The present invention is characterized in that a profile is extruded and molded, a coupling groove is formed in a groove member, a fixing concave and a convex is formed on the concave and convex member, and the groove and the concavity and convexity are not separated while spirally feeding the winding device. So that the coupling force between the profiles is provided by the connecting member, thereby greatly enhancing the binding force of the profile.

10: double wall sewer pipe 11, 21: profile
11a, 21b: hollow 12, 22: connecting member
13, 23a: groove member 14, 24: coupling groove
15, 25: concave and convex members 16, 26: fixed concave and convex
17, 18, 27, 28: upper space 19: space
20: Triple wall sewage pipe 21a: Cross bar
100: first extruder 110: cooling device
120: concave-convex forming device 130: winding device
140: Second extruder 150: Cutting device

Claims (7)

delete delete A profile 11 in which a hollow 11a is formed in an inner diameter or a profile 21 in which a plurality of hollows 21b are formed in an inner diameter by a cruciform bar 21a is spirally supplied, Supplying a connecting member to form a sewer pipe; (14, 24) are formed at regular intervals in the recessed members (13, 23) formed below the profiles (11, 21) and upper spaces (17, 27) are formed on the upper side of the recessed members And the fixing concave and convex portions 16 and 17 are formed on the concave and convex members 15 and 25 formed on the lower side of the profiles 11 and 21 on the opposite sides where the concave members 13 and 23 are formed, And upper spaces 18 and 28 are formed on the upper sides of the concave and convex members 15 and 25 and connecting members 12 and 22 are connected to the upper spaces 17 and 18, (11, 21) are connected to each other,
Wherein the engaging recesses (14, 24) and the fixed recesses (16, 26) are formed in an "S" shape and engage with each other.
A profile 11 in which a hollow 11a is formed in an inner diameter or a profile 21 in which a plurality of hollows 21b are formed in an inner diameter by a cruciform bar 21a is spirally supplied, Supplying a connecting member to form a sewer pipe; (14, 24) are formed at regular intervals in the recessed members (13, 23) formed below the profiles (11, 21) and upper spaces (17, 27) are formed on the upper side of the recessed members And the fixing concave and convex portions 16 and 17 are formed on the concave and convex members 15 and 25 formed on the lower side of the profiles 11 and 21 on the opposite sides where the concave members 13 and 23 are formed, And upper spaces 18 and 28 are formed on the upper sides of the concave and convex members 15 and 25 and connecting members 12 and 22 are connected to the upper spaces 17 and 18, (11, 21) are connected to each other,
Wherein the engaging grooves (14, 24) and the fixed engagements (16, 26) are formed in a "Y" shape and engage with each other.
A profile 11 in which a hollow 11a is formed in an inner diameter or a profile 21 in which a plurality of hollows 21b are formed in an inner diameter by a cruciform bar 21a is spirally supplied, Supplying a connecting member to form a sewer pipe; (14, 24) are formed at regular intervals in the recessed members (13, 23) formed below the profiles (11, 21) and upper spaces (17, 27) are formed on the upper side of the recessed members And the fixing concave and convex portions 16 and 17 are formed on the concave and convex members 15 and 25 formed on the lower side of the profiles 11 and 21 on the opposite sides where the concave members 13 and 23 are formed, And upper spaces 18 and 28 are formed on the upper sides of the concave and convex members 15 and 25 and connecting members 12 and 22 are connected to the upper spaces 17 and 18, (11, 21) are connected to each other,
Wherein the engaging recesses (14, 24) and the fixed recesses (16, 26) are formed in a "Z" shape and engage with each other.
A profile 11 in which a hollow 11a is formed in an inner diameter or a profile 21 in which a plurality of hollows 21b are formed in an inner diameter by a cruciform bar 21a is spirally supplied, Supplying a connecting member to form a sewer pipe; (14, 24) are formed at regular intervals in the recessed members (13, 23) formed below the profiles (11, 21) and upper spaces (17, 27) are formed on the upper side of the recessed members And the fixing concave and convex portions 16 and 17 are formed on the concave and convex members 15 and 25 formed on the lower side of the profiles 11 and 21 on the opposite sides where the concave members 13 and 23 are formed, And upper spaces 18 and 28 are formed on the upper sides of the concave and convex members 15 and 25 and connecting members 12 and 22 are connected to the upper spaces 17 and 18, (11, 21) are connected to each other,
Wherein the coupling grooves (14, 24) and the fixed concaves and convexes (16, 26) are formed in a "T" shape and joined to each other.
A profile 11 in which a hollow 11a is formed in an inner diameter or a profile 21 in which a plurality of hollows 21b are formed in an inner diameter by a cruciform bar 21a is spirally supplied, Supplying a connecting member to form a sewer pipe; (14, 24) are formed at regular intervals in the recessed members (13, 23) formed below the profiles (11, 21) and upper spaces (17, 27) are formed on the upper side of the recessed members And the fixing concave and convex portions 16 and 17 are formed on the concave and convex members 15 and 25 formed on the lower side of the profiles 11 and 21 on the opposite sides where the concave members 13 and 23 are formed, And upper spaces 18 and 28 are formed on the upper sides of the concave and convex members 15 and 25 and connecting members 12 and 22 are connected to the upper spaces 17 and 18, (11, 21) are connected to each other,
Characterized in that the coupling grooves (14, 24) and the fixed concaves and convexes (16, 26) are formed in a "?" Shape and joined to each other.

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