KR101748636B1 - Uneven wall-attached triple sewer method for improving the strength and cohesion - Google Patents

Abstract

The present invention relates to a method of manufacturing a triple-walled sewer pipe having a concave-convex connection structure for improving rigidity and bonding force. More particularly, the present invention relates to a method of manufacturing a triple- A reinforcing connecting member provided with a concave-convex coupling protrusion at a predetermined interval by the profile and the outer diameter of the connecting member is provided so as to enclose the connecting member so that the two reinforcing connecting members and the profile are connected to each other in a concave- And to improve the rigidity and the bonding force so as to improve the rigidity of the triple wall sewage pipe.
In the second extruding device, the second extruding device for extruding the extruded product so as to have a hollow having the cross crucible formed thereon is conveyed to the cooling device so as to be cooled and then supplied spirally to the outside of the guide roller of the pipe manufacturing device A profile extrusion step; A connecting member is supplied from an extrusion nozzle of a third extruder between the profiles supplied to the pipe manufacturing apparatus so as to be integrated with the side surfaces between the profiles; A profile combining step of supplying a reinforcing connecting member to the upper side of the profile to be spirally supplied to the outside of the pipe manufacturing apparatus and coupling the reinforcing connecting member; The method for manufacturing a triple wall sewage pipe according to claim 1,
In the profile extruding step, the engaging protrusions formed on both sides of the outer diameter of the profile are formed in a shape of a quadrangle, a semicircle, a triangle, or a rhombus, and the engaging protrusions protruding at a predetermined distance from the lower side of the reinforcing connecting member, , Triangle, and rhombic, and engaging the engaging recessed groove and the engaging projection in a concavo-convex shape,
And a connecting member molding apparatus in which a coupling projection is formed on both sides of the inner surface portion between the joint member extrusion step and the profile coupling step and a reinforcing connecting member for forming a side projection on the lower side of the coupling projection is extruded, A reinforcing connecting member spirally supplying an outer diameter of the connecting member and the pro-panel supplied to the manufacturing apparatus; , ≪ / RTI >
Wherein the coupling step is performed such that the coupling protrusions are supplied and coupled to the lower side of the reinforcing connecting member in the coupling concave and convex groove formed on both outer diameters of the profile spirally supplied to the outside of the tube manufacturing apparatus; The reinforcing connecting member is spirally supplied to one of the engaging projections so as to engage with one of the engaging recessed grooves of the profile to be supplied subsequently to the engaging recessed grooves so that the engaging recessed groove is formed in the outer diameter of the profile and two reinforcing connecting members And to be combined with the formed coupling protrusions.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a triple wall sewage pipe,

The present invention relates to a method of manufacturing a triple-walled sewer pipe having a concave-convex connection structure for improving rigidity and bonding force. More particularly, the present invention relates to a method of manufacturing a triple- A reinforcing connecting member provided with a concave-convex coupling protrusion at a predetermined interval by the profile and the outer diameter of the connecting member is provided so as to enclose the connecting member so that the two reinforcing connecting members and the profile are connected to each other in a concave- And to improve the rigidity and the bonding force so as to improve the rigidity of the triple wall sewage pipe.

The conventional triple wall sewage pipe is formed by extruding a profile 21 having a hollow 22 having a rectangular cross bar 22a formed therein and having a rectangular shape or a rounded corner and cooling it in the cooling device 29, The molten resin is supplied from the extrusion nozzle 31 between the profiles 21 to form the triple-walled water pipe 35. The molten resin is supplied to the three- do.

However, when the spiral profile is cooled while passing through the cooling device, the molten resin is supplied to connect the profiles between the connection members 32.

The triple-walled sewage pipe formed in this way is buried in the basement and is the same material when an impact is applied from the outside, but the bonding force between the connected profile and the connecting member 32, A breaking phenomenon occurs in which the connecting portion is separated.

That is, since the profile and the connecting member are connected in a state in which the raw material of the connecting member is melted, the first and second connecting members maintain a connected state with a certain degree of bonding force. However, the thermal expansion due to the ground- As a result, the connecting portion between the profile and the connecting member can not withstand the fatigue load, and the breaking phenomenon occurs.

In order to prevent such a drawback, there is a case where a molten resin is supplied to the upper side of the connecting member 32 so that the connecting member is integrally formed to cover the upper part of the profile on the upper side of the connecting member, In the inner diameter, since the profile is tightly supplied to the outside of the guide roller and is wound, the performance of connecting the profiles is not improved.

And the connecting member is supplied to the molten state at the side surface 24 of the profile to provide mutual bonding force. However, only the bonding force provided to the connecting member normally adapts to the thermal expansion coefficient caused by external load, impact, And there is a drawback that separation phenomenon occurs on the side of the connecting part which is the connecting part between the connecting member and the profile. Therefore, it is very weak to the load and impact, which causes the defect of not providing the quality stability of the product.

Document 1. Patent Registration No. 0718695 (Registered on May 09, 2007) Document 2. Patent Registration No. 0465981 (Registered on Mar. 2005 03) Literature 3. Patent Registration No. 0740651 (Registered on July 07, 2007) Literature 4. Patent Registration No. 0989416 (registered on October 15, 2010)

SUMMARY OF THE INVENTION The present invention has been conceived to overcome the drawbacks of the prior art, and it is an object of the present invention to provide a spiral profile for forming a concavo-convex groove on the upper side and supplying and connecting a connecting member between the profiles, And the reinforcing connecting member in which the projections are formed is supplied so that the engaging recessed groove of the profile and the engaging projections of the reinforcing connecting member are engaged with each other in a concave-convex shape so that the profile and the reinforcing connecting member are stably engaged.

Another object of the present invention is to provide a method of manufacturing a steel sheet, in which each of the reinforcing connecting members is joined to each of the reinforcing connecting members in a concavo-convex shape and a joining member is provided between the profiles to greatly improve the bonding force of the profile by melting, And it is intended to greatly improve the rigidity through the reinforcing connecting member located in the inner diameter.

In the second extruding apparatus, a second extruding device for extruding the extruded product so as to have a hollow having a cross crucible formed thereon is cooled by being transferred to a cooling device, and then the product is spirally supplied to the outside of the guide rollers An extrusion step; A connecting member is supplied from an extrusion nozzle of a third extruder between the profiles supplied to the pipe manufacturing apparatus so as to be integrated with the side surfaces between the profiles; A profile combining step of supplying a reinforcing connecting member to the upper side of the profile to be spirally supplied to the outside of the pipe manufacturing apparatus and coupling the reinforcing connecting member; The method for manufacturing a triple wall sewage pipe according to claim 1,
In the profile extruding step, the engaging protrusions formed on both sides of the outer diameter of the profile are formed in a shape of a quadrangle, a semicircle, a triangle, or a rhombus, and the engaging protrusions protruding at a predetermined distance from the lower side of the reinforcing connecting member, , Triangle, and rhombic, and engaging the engaging recessed groove and the engaging projection in a concavo-convex shape,
And a connecting member molding apparatus in which a coupling projection is formed on both sides of the inner surface portion between the joint member extrusion step and the profile coupling step and a reinforcing connecting member for forming a side projection on the lower side of the coupling projection is extruded, A reinforcing connecting member spirally supplying an outer diameter of the connecting member and the pro-panel supplied to the manufacturing apparatus; , ≪ / RTI >
Wherein the coupling step is performed such that the coupling protrusions are supplied and coupled to the lower side of the reinforcing connecting member in the coupling concave and convex groove formed on both outer diameters of the profile spirally supplied to the outside of the tube manufacturing apparatus; The reinforcing connecting member is spirally supplied to one of the engaging projections so as to engage with one of the engaging recessed grooves of the profile to be supplied subsequently to the engaging recessed grooves so that the engaging recessed groove is formed in the outer diameter of the profile and two reinforcing connecting members And to be combined with the formed coupling protrusions.

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The present invention relates to a method of manufacturing a connector, comprising the steps of feeding a profile forming a coupling recessed groove at a predetermined interval in a spiral shape on an upper side thereof, feeding and connecting a connecting member between the profiles, And the reinforcing connecting member is joined to the coupling engaging groove of the one of the reinforcing connecting members so that the profile and the reinforcing connecting member are stably engaged with each other.

The present invention is characterized in that the respective profiles are coupled to each other in a concavo-convex shape on both sides of one reinforcing connecting member and a connecting member is provided in the inside of the reinforcing connecting member between the profiles so that the bonding force by melting greatly improves the bonding force of the profile, It is possible to provide a very stable sewage pipe by significantly improving the rigidity through the reinforcing connecting member located in the inner diameter.

1 is a plan view of a sewage pipe forming apparatus according to a preferred embodiment of the present invention.
2 is a front view of the sewage pipe forming apparatus according to the present invention.
3 is a front view of a molding apparatus for extruding the reinforcing connecting member of the present invention
4 is a front view of an extruded state of the reinforcing connecting member of the present invention
5 is a front view of a molding apparatus for extruding the profile of the present invention
6 is a front view of the extrusion state for the profile of the present invention
7A is a front sectional view of a state in which the profile of the present invention is supplied
Fig. 7B is a front sectional view of the state in which the connecting member is supplied between the profiles of the present invention
7C is a front sectional view of the state where the reinforcing connecting member is supplied to the profile of the present invention and the outer diameter of the connecting member
8 is a cross-sectional perspective view of a main portion of the triple-wall sewage pipe of the present invention
9 is a cross-sectional view of another embodiment of the reinforcing connecting member and profile of the present invention
10 is a cross-sectional view of another embodiment of the reinforcing connecting member and profile of the present invention
11 is a cross-sectional view of another embodiment of a reinforcing connecting member and a profile of the present invention
12 is a cross-sectional view of another embodiment of a reinforcing connecting member and a profile of the present invention
13 is a cross-sectional view of another embodiment of a reinforcing connecting member and a profile of the present invention
Figure 14 is a cross-sectional view of another embodiment of the reinforcing connecting member and profile of the present invention
15 is a cross-sectional view of another embodiment of a reinforcing connecting member and a profile of the present invention

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects,

FIG. 1 is a plan view of a sewage pipe forming apparatus showing a preferred embodiment of the present invention, and FIG. 2 is a front view of the sewage pipe forming apparatus of the present invention.

The raw material is supplied to the second extruder 20 and the profile 21 having the hollow 22 is extruded and cooled in the cooling device 29 at the front, .

The molten resin in the third extruder 30 is supplied to the connecting member 32 through the extrusion nozzle 31 and the roller 23 is pressed from the outside to form a part of the profile 21 So as to be integrally formed with the profile 21.

A profile 21 for supplying melted resin by supplying synthetic resin to the first extruder 11 and heating the same and spirally supplying the reinforcing connecting member 13 to the outside of the guide roller 25 of the pipe manufacturing apparatus 10, Of the outer diameter of the cylinder; The fragile reinforcing connecting member 13 is formed in a shape of a concavo-convex shape with the profile 21 to form the triple-wall sewage pipe 35.

A plurality of guide rollers 25 are installed at regular intervals in the circumferential direction of the drum and are rotated independently of each other, and the second extruder 20 The third extruder 30 and the connecting member 32 supplied from the extrusion nozzle 31 are fed to the space formed between the profiles 21 while the profile 21 is fed and spirally wound and the first extruder 11, the reinforcing connecting member 13 feeds in the spiral direction to the outer diameter of the profile 21 to form the triple wall sewage pipe 35.

FIG. 3 is a front view of a molding apparatus for extruding the reinforcing connecting member of the present invention, and FIG. 4 is a front view of the reinforcing connecting member of the present invention in an extruded state.

The reinforcing connecting member 13 is formed in the form of a thin sheet and has engaging protrusions 14 formed on both sides of the lower central inner surface portion 15 and forming lateral protrusions 16 outside the engaging protrusions 14 .

The connecting member molding apparatus 50 for extruding the reinforcing connecting member 13 is extrusion-molded through a connecting member extruding groove 41 formed in the extrusion molding stand 51, Protruding extrusion grooves 53 are formed from both sides to form the engaging projections 14.

The coupling protrusions 14 of the reinforcing connecting member 13 are formed to protrude in a quadrangular shape at regular intervals.

Fig. 5 is a front view of a molding apparatus for extruding the profile of the present invention, and Fig. 6 is a front view of the extrusion state of the profile of the present invention.

The profile 21 is formed with a hollow 22 having a thermo cross bar 22a in its inner diameter and has an outer diameter and both lateral sides 24 and an outer diameter 28 and an inner diameter 26 ).

The coupling recessed and recessed recesses 27 are formed in a square shape with a predetermined interval being formed on both sides of the outer diameter 28. The coupling recessed and recessed recesses 27 are formed in different reinforcing connection And engages with the engaging projection (14) of the member (13) in a concave and convex form.

The extrusion molding apparatus 40 for extruding the profile 21 is provided with a molding groove 42 in the hollow molding table 41 and a molding groove 42 is formed in the upper side of the molding groove 42, (43) is formed.

Fig. 7A is a front sectional view of the state in which the profile of the present invention is fed, Fig. 7B is a front sectional view of the state in which the connecting member is supplied between the profiles of the present invention, Is a front cross-sectional view showing a state in which a gas is supplied.

The engaging recessed grooves 27 are formed on both sides of the outer diameter 28 of the profile 21 and extruded to feed the profile 21 in a spiral shape.

The connecting member 32 is supplied between the side surfaces 24 of the profile 21 so that the side surface 24 and the connecting member 32 are integrally joined.

The reinforcing connecting member 13 forming the engaging projections 14 on both sides of the inner surface portion 15 and forming the side projecting portions 16 on the outer side of the profile 21 and the connecting member 32 is extruded And is coupled to the profile 21 in a concavo-convex form in a process of being supplied in a spiral shape.

One of the engaging and recessing grooves 27 of the profile 21 engages with the reinforcing connecting member 13 when the reinforcing connecting member 13 supplied to the outer diameter of the profile 21 and the connecting member 32 is concave- And the other engaging recessed groove 27 is engaged with the engaging projection 14 of the connecting member 13 supplied next to the next compartment so that the engaging recessed groove 27 is engaged with the engaging protrusion 14, So that the engaging projections 14 of the different reinforcing connecting members 13 are engaged with each other.

A roller (23) is provided on the outer diameter of the reinforcing connecting member (13), and is smoothly formed on the outer diameter of the triple wall sewage pipe (35) smoothly.

Fig. 9 is a sectional view of another embodiment of the reinforcing connecting member and the profile of the present invention, Fig. 10 is a sectional view of another embodiment of the reinforcing connecting member and the profile of the present invention, Fig. Fig. 12 is a sectional view of another embodiment of the reinforcing connecting member and the profile of the present invention, Fig. 13 is a sectional view of still another embodiment of the reinforcing connecting member and the profile of the present invention, Fig. 14 is a cross- 15 is a cross-sectional view of yet another embodiment of a reinforced connecting member and a profile of the present invention.

As shown in Fig. 9, semicircular coupling recessed grooves 27a are formed on both outer diameters of the profile 21, and the coupling protrusions 14a of the reinforcing connecting member 13a, to which the coupling recessed grooves 27a are engaged, Is projected in a semicircular shape.

As shown in Fig. 10, a triangular concave-convex groove 27b is formed on both sides of the outer diameter of the profile 21, and the coupling protrusion 14b of the reinforcing connecting member 13b, Is projected as a triangle.

As shown in Fig. 11, diamond engaging recessed grooves 27c are formed on both sides of the outer diameter of the profile 21, and the engaging protrusions 14c of the reinforcing connecting member 13c, to which the engaging recessed grooves 27c are engaged, Is projected in a diamond shape.

A rectangular engaging protrusion 27d is formed on both sides of the outer diameter of the profile 21 and the engaging recess 14d of the reinforcing connecting member 13d to which the engaging protrusion 27d is engaged, This is a protruding square.

As shown in Fig. 13, semi-circular engaging protrusions 27e are formed on both outer diameters of the profile 21 and engaging grooves 14e of the reinforcing connecting member 13e, to which the engaging protrusions 27e are engaged, Which is projected in a semicircular shape.

As shown in Fig. 14, a triangular concave / convex protrusion 27f is formed on both sides of the outer diameter of the profile 21, and the engaging groove 14f of the reinforcing connecting member 13f to which the concave / convex protrusion 27f is engaged, This is a triangle.

As shown in Fig. 15, diamond engaging protrusions 27g are formed on both sides of the outer diameter of the profile 21 and engaging grooves 14g of the reinforcing connecting member 13g, to which the engaging protrusions 27g are engaged, Which is projected in a rhombic shape.

The groove forming protrusions 43 formed in the molding groove 42 of the extrusion molding apparatus 40 are formed so as to form the engaging recessed grooves 27a, 27b and 27c and the engaging and protruding projections 27d, 27e, 27f and 27g, The protrusion extrusion grooves 53 formed in the connecting member extrusion grooves 52 of the connecting member molding apparatus 50 are formed by the engaging recessed grooves 14a, 14b and 14c and the engaging protrusions 14d, 14e, 14f and 14g, As shown in Fig.

The present invention having such a configuration is characterized in that a profile 21 having a hollow 22 formed with a thermo cross bar 22a and having a coupling recessed groove 27 formed at an outer diameter 28 at a constant interval is extruded, The molten resin is supplied from the extrusion nozzle 31 to the space between the side surfaces 24 to form the connection member 32. In this case, So that the profile 21 is integrally connected to the connecting member 32 and the side surface 24.

In the outer diameter of the profile 21 and the connecting member 32, a reinforcing connecting member 13 having a thin sheet shape and formed with coupling protrusions 14 at regular intervals downward is extruded and supplied continuously in a spiral shape, When either one of the engaging recessed grooves 27 formed on the outer diameter 28 of the profile 21 is supplied to engage with the engaging protrusion 14 The side protrusions 16 are continuously connected to each other around the outer diameter 28 so that the profile 21 is continuously supplied at a predetermined distance from the inner surface 15.

The coupling protrusions 14 of the reinforcing connecting member 13 engage with the coupling protrusions 14 of the profile 21 in a concave and convex manner and the outside diameter 28 of the profile 21 is surrounded by the side protrusions 16, The profile 21 is formed in the inner surface portion 15 so that the profile 21 performs the function of connecting the reinforcing connecting member 13 without supplying the resin for connecting the profile 21, (13) is supplied in a wide shape so that the outer diameter of the triple wall sewage pipe (35) is smoothly formed, thereby greatly improving the quality of the product.

Since the profile 21 is spirally formed on the inside of the reinforcing connecting member 13 and the connecting member 32 is formed between the side surfaces 24 on the inside of the inside surface portion 15 between the profiles 21, And the sewage pipe 35 is formed.

The triple wall sewage pipe 35 formed in this manner has weak points in the connecting portion between the profile 21 and the connecting member 32 because the connecting member 32 connects the profile 21. However, And the reinforcing connecting member 13 located on the upper side of the connecting member 32 is not located at the interface with the profile 21 and is located at the center of the profile 21 So that the connection between the profiles 21 is improved so that the shrinkage and expansion due to the thermal expansion coefficient can be firmly ensured so that separation phenomenon does not occur.

The reinforcing connecting member 13 of the sewage pipe 35 of the present invention has one reinforcing connecting member 13 because the engaging protrusion 14 of the reinforcing connecting member 13 and the engaging recessed groove 27 of the profile 21 are formed in a concave- The two profiles 21 are connected to each other to stably maintain the fixed state, so that the coupling force of the profile 21 is greatly improved to improve the rigidity that can withstand the load and impact.

On the other hand, the present invention is characterized in that the engaging recessed grooves 27a, 27b, 27c and the engaging protruding projections 27d, 27e, 27f, 27g of the profile 21 are formed in any one of a quadrangular, semicircular, triangular, The engaging projections 14a, 14b and 14c of the member 13 and the engaging grooves 14d, 14e, 14f and 14g of the member 13 are formed so that one of the quadrangular, semicircular, triangular, Greatly enhancing the bonding force and improving the rigidity.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

end. Profile extrusion step

A second extruding device 20 for forming a thermocross-shaped reinforcing bar 22a on the inner diameter and extruding the extruded molded product to form an engaging recessed groove 27 having a hollow 22 and an outer diameter 28 on both sides Cooled by the cooling device 29, and then spirally supplied to the outside of the guide rollers 25 of the pipe manufacturing apparatus 10.

I. The joint member extrusion step

The connecting member 32 is supplied from the extrusion nozzle 31 of the third extruder 30 between the profiles 21 supplied to the pipe manufacturing apparatus 10, .

All. Stiffening connection member extrusion step

A connecting member molding apparatus 50 in which an engaging projection 14 is formed on both sides of the inner surface portion 15 and a reinforcing connecting member 13 forming a side projecting portion 16 is formed below the engaging projection 14, To the outer diameter of the profile (21) and the connecting member (32) supplied to the pipe manufacturing apparatus (10) from the first extruder (11).

la. Profile Joining Step

The engaging projection 14 is supplied to the lower side of the reinforcing connecting member 13 in the engaging recessed groove 27 formed in the outer diameter 28 of the profile 21 spirally supplied to the outside of the pipe manufacturing apparatus 10 Combine; One of the engaging projections 14 supplied to the upper side of the profile 21 is spirally fed to engage with one of the engaging recessed grooves 27 of the profile to be fed, (14) formed on the two reinforcing connecting members (13) at the outer diameter of the connecting groove (27) and the connecting member (32).

The present invention relates to a method for manufacturing a reinforced connecting member, the method comprising: joining the coupling protrusions of the reinforcing connecting member and the coupling concavo-convex grooves of the profile in a concave-convex shape to greatly improve the coupling force of the sewer pipe by the mutual coupling force, The present invention provides a very useful invention that is not affected by the above-mentioned problems.

10: pipe manufacturing apparatus 11: first extruder
13: reinforcing connecting member 14, 14a, 14b, 14c:
14d, 14e, 14f, 14g: coupling groove 15: inner surface portion
16: side projecting portion 20: second extruder
21: profile 22: hollow
23: Roller 24: Side
25: guide roller 26: inner diameter
27, 27a, 27b, 27c:
27d, 27e, 27f, and 27g:
28: OD 30: Third extruder
31: extrusion nozzle 35: triple wall sewage pipe
40: Extrusion molding device 41:
42: forming groove 43: groove forming projection
50: connecting member forming device 51: extrusion molding stand
52: connection member extrusion groove 53: projection extrusion groove

Claims (4)

The second extruding device 20 is provided with a hollow 22 formed with a cross bar 22a so as to be conveyed and cooled by the cooling device 29 from the second extruding device 20 which is extruded into the extrusion molding device 40 , And then spirally supplying the solution to the outside of the guide roller (25) of the pipe manufacturing apparatus (10); The connecting member 32 is supplied from the extrusion nozzle 31 of the third extruder 30 between the profiles 21 to be supplied to the pipe manufacturing apparatus 10 so that the side surfaces 24, A joint member extruding step for molding the joint member to be integrated; Supplying a reinforcing connecting member (13) to an upper side of a profile (21) to be spirally supplied to the outside of the pipe manufacturing apparatus (10) and joining the same; The method for manufacturing a triple wall sewage pipe according to claim 1,
In the profile extrusion step, the engaging recessed grooves 27 formed on both sides of the outer diameter 28 of the profile 21 are formed in the shape of a quadrangle, a semicircle, a triangle, or a rhombus, The engaging projection 14 protruding at a predetermined interval is formed in a shape of a quadrangle, a semicircle, a triangle, or a rhombus so that the engaging recessed groove 27 and the engaging projection 14 are coupled to each other in a concave-
A reinforcing connecting member (14) is formed on both sides of the inner surface portion (15) between the joint member extruding step and the profile engaging step and a side surface projecting portion (16) is formed on the lower side of the engaging projection A reinforcing connection is provided spirally to the outer diameter of the proxies 21 and the connecting member 32 supplied to the pipe manufacturing apparatus 10 from the first extruder 11 having the connecting member forming apparatus 50 in which the connecting members 32, Member extrusion step; , ≪ / RTI >
The profile joining step is performed by joining the joining protrusions 27 formed on both sides of the outer diameter 28 of the profile 21 supplied spirally to the outside of the pipe manufacturing apparatus 10 with the coupling protrusions 14 are supplied and coupled; One of the engaging projections 14 is supplied spirally so as to engage with one of the engaging recessed grooves of the profile 21 to be supplied subsequently to the engaging recessed grooves 27 so that the outer diameter of the profile 21 28 and the coupling protrusions 14 formed on the two reinforcing connecting members 13 at the outer diameters of the coupling protrusions 27 and the connecting members 32. In order to improve the rigidity and the coupling force, A method of manufacturing a connected triple wall sewer.
The method according to claim 1,
The reinforcing connecting member 13 of the reinforcing connecting member extruding step has engaging protrusions 14 protruding downward and engaging concave and convex grooves 27 at both outer diameters of different profiles 21, 16) is positioned on the upper side of the outer diameter (28).
delete The method according to claim 1,
The engaging protrusions 27d, 27e, 27f, and 27g formed on both sides of the outer diameter 28 of the profile 21 of the profile extrusion step are formed in a shape of a quadrangle, a semicircle, a triangle, or a rhombus, The engaging recesses 14d, 4e, 14f and 14g projecting to the lower side of the engaging protrusions 13 are formed in a shape of a quadrangle, a semicircle, a triangle or a diamond, Wherein the reinforcing member is fixedly connected to the concave and convex shape of the triple wall sewage pipe.

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