KR101680231B1 - Plastic pipe and manufacturing method thereof - Google Patents

Abstract

The present invention discloses an improved synthetic resin pipe which is improved in strength by applying a white reinforcing member to an inner surface of a pipe, and can repair the inside of the pipe easily when the inside of the pipe is photographed by a CCTV for maintenance through an accurate diagnosis. The synthetic resin tube according to the present invention has a three-step structure, in a cross section view, having a rectangular profile, an inner circumferential cladding layer, and a reinforcing member layer.

Description

Technical Field [0001] The present invention relates to a plastic pipe and a manufacturing method thereof,

The present invention relates to a synthetic resin pipe, and more particularly, to a method for improving the strength by applying a white reinforcing member to the inner surface of a pipe, And a method of manufacturing the same.

Generally, synthetic pipes embedded in the basement to guide waterworks, sewage, and sewage are composed of joint members connecting square profiles with square hollow profiles with multiple hollows.

However, in the process of pressing the synthetic resin tube using the rollers at the connection part between the profile supplied with the inner diameter in a spiral shape and the joint part supplied between the profile, fine lines are formed as fine irregularities are formed at regular intervals in a spiral shape, There is a problem that sand or foreign matters are caught by such a line, which interferes with the flow of the fluid.

In addition, the synthetic resin pipe is buried in the ground, and it is used for CCTV to repair the inside diameter and repair the inside diameter. However, since the inside diameter is mostly black, the CCTV has fine wear And it is difficult to confirm whether or not it is clogged. Therefore, there is a problem that a lot of time and difficulty occurs in the inspection.

Therefore, it is necessary to improve the inside of the synthetic resin pipe so as not to obstruct the flow of the fluid,

To this end, Korean Patent Registration No. 10-0721938, filed and filed by the present applicant, discloses a structure in which an inner diameter covering portion is formed on the inner diameter of a synthetic resin pipe through a joint member provided between square profiles.

However, in the conventional synthetic resin pipe disclosed in the above patent, since the joint members supplied between the square profiles are connected to each other and the inner diameter covering portion is formed on the inner diameter of the synthetic resin pipe, it is difficult to accurately work, There is a problem. In addition, although the inner diameter cross section of the synthetic resin pipe is composed of a two-step structure having a square profile and an inner diameter covering part, when the fluid flows for a long period of time, the bottom of the pipe sinks or breaks and cracks occur. Therefore, it is necessary to further strengthen the strength. Also, it is necessary to improve the inside view when CCTV is taken to repair the buried synthetic resin pipe.

1) Korea Patent No. 10-0721938 (Registered Date: May 18, 2007), entitled "Connection pipe of synthetic resin pipe using double wall sewer pipe and method of manufacturing the same" 2) Korean Patent No. 10-1493430 (Registered on Feb. 09, 2015), entitled "Synthetic Pipe for Reducing Friction Coefficient and Inner Diameter Reinforcement and Method for Manufacturing the Same & 3) Korean Patent No. 10-1548508 (filed on Aug. 25, 2015), entitled " Method for manufacturing a double wall sewage pipe for reducing friction coefficient of concave- 4) Korean Registered Patent No. 10-1413037 (Registered on June 23, 2014), entitled "Polyethylene Sewer for Combined Internal Safety"

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the problems described above, and its object is to provide a synthetic resin tube having a structure in which a square profile is connected by a joint member and an inner dermal abdomen layer is formed on an inner diameter, The reinforcement member layer is further formed to improve the strength and the reinforcing member layer is formed so as to prevent the occurrence of the engaging line of the connecting portion so as to have a good water flow function and to form the reinforcement member layer in white, The present invention is to provide a synthetic resin pipe and a method of manufacturing the same, which can improve maintenance by correct diagnosis by making the inside visible when taking a picture by CCTV.

The above-described object is achieved by a synthetic resin tube having a structure in which a square profile having a hollow is connected by a joint member and an inner dermal abdomen layer is formed on the inner diameter, wherein a reinforcing member layer is further formed on the inner surface of the above- And a reinforcing member layer, wherein the reinforcing member layer is made of white, and the interior of the reinforcing member layer is made visible when the inside is photographed by CCTV. .

When the rectangular profile is guided to the winding device and the square profile is drawn out while winding in a spiral shape at a predetermined interval through the winding device, the coupling members are supplied from outside to the square profiles so that the rectangular profiles are connected to each other to form a pipe When the tube is drawn out by further supplying the reinforcing member to the inner dermal abdomen layer from inside the winding device so that the joint member flows into the inside of the square profile and the inner dermal abdomen layer is formed inside the tube, And a reinforcing member layer is formed on the inner surface of the inner dermal abdomen layer so that its cross section has a three-tiered structure composed of a square profile, a dermal percutaneous abdominal layer and a reinforcing member layer.

The reinforcing member layer is formed by mixing 4-8 parts by weight of ethylene glycol monomethyl ether, 1-2 parts by weight of polyoxyethylene, 1 part by weight of propionic acid 1 2 to 4 parts by weight of methylenebisstearylamide, and 10 to 15 parts by weight of kaolin was applied and dried to prepare a reinforcing member composition .

The above-mentioned object is also achieved by an extrusion molding method comprising: an extrusion step of melting a synthetic resin in an extruder to extrude a rectangular profile; A cooling step of cooling the extruded square profile to maintain the molding state as it is; Feeding the square profile to a winding device, winding the product in a spiral shape at a predetermined interval in a winding device, and drawing the product in a tubular shape; Supplying a coupling member between the square profiles outside the winding device to form a tube while the square profiles are connected to each other; Further providing the coupling member such that the coupling member flows into the inside of the square profile to form an inner dermal abdomen layer inside the tube; And a step of supplying a reinforcement member to the inner dermal abdomen layer in the winding device to form a reinforcement member layer in the inner dermal abdomen layer when the tube is withdrawn. Is achieved by a manufacturing method.

Since the synthetic resin tube according to the present invention has a three-tiered structure having a square profile, an inner percutaneous abdomen layer and a reinforcing member layer, it is possible to produce a superior product by improving the strength, Because it is a continuous application method, it has excellent water-supply function. Since the reinforcing member layer is formed in white, it is possible to repair the inside of the synthetic resin pipe by CCTV when the inside is visible. have.

1 is a cross-sectional view illustrating a structure of a synthetic resin tube according to the present invention,
2 is a view showing the construction of a winding apparatus for manufacturing a synthetic resin pipe according to the present invention,
FIG. 3 is a block diagram sequentially showing a method of manufacturing a synthetic resin tube according to the present invention,
4 is a cross-sectional view showing another embodiment of a synthetic resin pipe according to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 and 2, a synthetic resin tube according to the present invention is formed such that a square profile 100 having a hollow is connected to a joint member 200 to have a cylindrical tube shape, And a reinforcing member layer 300 are formed on the upper surface of the base member 200 so that the cross section has a three-stage structure including a square profile 100, a durability layer 210 and a reinforcing member layer 300.

The rectangular profile 100 is produced by extruding the supplied synthetic resin in the extruder 10. When the extruded rectangular profile 100 is supplied to the winding device 20, The joining member 200 is wound around the square profile 100 by feeding the joining member 200 from the outside to the outside of the rectangular profile 100 when the rectangular profile 100 is wound, A tube is formed in such a manner that the tubes are connected to each other while filling the gap between the tubes.

And the dermal abdomen layer 210 is supplied with an amount greater than the amount used when connecting the square profile 100 when externally supplying the connecting member 200 connecting the square profile 100 to the connecting member 200 Is flowed into the square profile 100 to form the inner dermal abdomen layer 210 inside the tube.

The reinforcing member layer 300 may further include a reinforcing member layer 210 on the inner surface of the inner transdermal layer 210 when the tube is formed by further supplying a reinforcing member to the inner transdermal layer 210 from the inside of the winding device 20, 300 are formed together.

According to the present invention, it is preferable that the reinforcing member layer 300 is made of white so that the inside of the reinforcing member layer 300 can be seen clearly when the inside is photographed by CCTV. At this time, the reinforcing member is made of the following composition, and when white pigment is mixed into the composition, it may appear as white when solidified. Of course, since this composition contains a substance that increases the whiteness, the white coloring property is excellent.

The reinforcing member layer 300 is formed by mixing 4-8 parts by weight of ethylene glycol monomethyl ether, 1-2 parts by weight of polyoxyethylene, propionic acid (propionic acid) with 100 parts by weight of methylpentene polymer resin, ), 1 to 10 parts by weight of wollastonite, 1 to 2 parts by weight of acrylonitrile, 2 to 4 parts by weight of methylenebistearylamide and 10 to 15 parts by weight of kaolin, Coating and drying.

At this time, the methylpentene polymer resin is a resin material having a low viscosity and good fluidity and being easy to mold. Especially, it has a very high melting point of 235 DEG C and a mechanical strength at a high temperature superior to PP or PC, excellent heat stability, It is utilized as the base resin of the reinforcing member layer 300 in the present invention.

The above-mentioned ethylene glycol monomethyl ether is added to enhance the adhesiveness, and it contributes to enhancement of durability by strengthening the adhesion force, and it is excellent in stretch deformation property and has the feature of suppressing the peeling property even when it is bent.

In addition, the polyoxyethylene is added so as to maintain the antistatic property by using a surfactant function.

In addition, the propionic acid is added to increase the coating layer retention and increase the resistance to salt attack.

Further, the wollastonite is low in hygroscopicity and excellent in dimensional stability because there is no crystal number, thereby inducing stabilization after molding of a resin product, and particularly improving whiteness.

Further, the acrylonitrile is added to accelerate curing, and when it is added in an excessive amount, the curing takes place, and when added in a small amount, uncrystallization occurs.

Further, the methylene bisstearyl amide is added in order to control the viscosity of the coating solution for enhancing lubricity and to improve the coating property.

The kaolin has kaolinite and halysanite as its main components, and when it has moisture, it has a characteristic that it has a softness due to the generation of a point of view and a hardness when it is dried, thereby improving the whiteness and mechanical strength.

Now, a method of manufacturing a synthetic resin pipe according to the present invention will be described with reference to FIGS. 2 and 3. FIG.

The synthetic resin pipe according to the present invention first supplies the synthetic resin to the extruder 10, melts the synthetic resin in the extruder 10, and extrudes the rectangular profile 100. At this time, since the extruder 10 is a known technology, detailed description is omitted.

Next, the rectangular profile 100 extruded from the extruder 10 is cooled by a water cooling or air cooling method through a normal cooling device so that the molded state is maintained as it is, and then guided to the winding device 20. At this time, since the cooling device is a known technology, a detailed description is omitted.

Next, the rectangular profile 100 supplied from the winding apparatus 20 is drawn out in a tubular shape while being wound in a spiral shape at a predetermined interval, and at the same time, So that the rectangular profiles 100 are connected to each other to form a tube.

Next, an amount greater than the amount used to connect the square profile 100 when supplying the coupling member 200 is supplied so that the coupling member 200 flows into the inside of the square profile 100, Thereby allowing the percutaneous abdomen layer 210 to be formed.

Next, a reinforcement member composition is additionally supplied to the inner dermal abdomen layer 210 inside the winding device 20 when the dermal dripper layer 210 is formed, so that the inner dermal abdomen layer 210, when the tube is manufactured, So that the reinforcing member layer 300 is formed.

At this time, the reinforcing member composition was prepared by mixing 4 parts by weight of ethylene glycol monomethyl ether, 1 part by weight of polyoxyethylene, 1 part by weight of propionic acid, and 1 part by weight of wollastonite with respect to 100 parts by weight of methylpentene polymer resin 8 parts by weight of acrylonitrile, 2 parts by weight of acrylonitrile, 3 parts by weight of methylenebisstearylamide and 12 parts by weight of kaolin.

The durability and whiteness characteristics of the reinforcing member layer 300 formed by coating the reinforcing member composition were tested as follows.

First, the durability was tested by confirming the peelability and adhesion. To confirm whether or not the peelability was deter- mined, the reinforcing member composition was coated on an acrylic plate having a thickness of 1 cm, and then dried for one day.

The bending test was carried out at a facility capable of being twisted 25 times per minute using an eccentric shaft and a speed reducer. Therefore, it has been confirmed that it is durable.

In order to test the adhesion, the specimen was peeled off at an angle of 90 °, and the strength was measured. As a result, it was found that the adhesive strength was 0.11 N / mm 2 when measured at 0.24 N / And it was confirmed that there is almost no possibility of peeling off.

In addition, the whiteness was visually confirmed, and the whiteness was confirmed to be excellent.

The synthetic tube according to the present invention, which is manufactured through such a step and has been subjected to the characteristic test of the reinforcing member layer 300, has a cross section of a square profile 100, an inner transdermal layer 210 and a reinforcing member layer 300 And the synthetic resin pipe is cut to an arbitrary length and stored and used through a normal finishing process.

The winding apparatus used in the present invention will be described in more detail to facilitate understanding of the method of manufacturing a synthetic resin tube according to the present invention.

The winding device 20 used in the present invention is configured such that a plurality of inner diameter forming rollers 30 are arranged in a circular shape at a predetermined interval with respect to the center at a portion where the rectangular profile 100 to be extruded by the extruder 10 is fed do. The transmission sprockets 44 are connected to the roller shafts 32 of the plurality of inner diameter forming rollers 30 so as to rotate together with each other and the transmission sprockets 44 provided on the respective roller shafts 32 are configured to transmit circular power transmission When one of the transmission sprockets 44 is connected through the chain 45 and all the transmission sprockets 44 are rotated, the inner forming roller 30 rotates in one direction. A driven sprocket 42 is rotatably provided on any one of the roller shafts 32. A driving motor 40 is installed on a part of the winding device 20 and a driving sprocket 41 are connected, and the drive sprocket 41 and the driven sprocket 42 are connected to the chain 43. The power of the drive motor 40 is transmitted through the drive sprocket 41 and the chain 43 and the driven sprocket 42 to rotate any one of the roller shafts 32. Therefore, when the rectangular profile 100 is supplied to the outside of the inner diameter forming roller 30 in a state where the inner diameter forming roller 30 rotates, the rectangular profile 100 is guided by the inner diameter forming roller 30, .

The upper part of the winding apparatus 20 is provided with a coupling member feeder 50 so as to supply the coupling member 200 between the rectangular profiles 100 when the rectangular profile 100 is wound from the outside. The joint member feeder 50 feeds the joint member 200 to be guided at a predetermined speed and amount, and is provided in front of the outer diameter forming roller 60 to be described later.

When the joint member 200 is supplied to the square profile 100 from the joint member feeder 50, the joint member 200 filled with the rectangular profile 100 is pressed squarely so that it can not be protruded upward, The outer diameter forming roller 60 is provided in close contact with the upper surface of the profile 100 and rotated. The outer diameter forming roller 60 is in close contact with the rectangular profile 100 and is automatically rotated by the force to which the rectangular profile 100 is fed. The outer diameter forming roller 60 is in close contact with the square profile 100, And the joint member 200 is pressed so that the square profile 100 and the joint member 200 maintain the same height as shown in FIG.

If the amount of the blank 100 is greater than the amount used to connect the square profile 100 in the process of feeding the joint 200 in a state where the square profile 100 and the inner diameter forming roller 30 are slightly apart, The inner dermal abdomen layer 210 is formed in the inside of the tube while the member 200 flows into the inside of the square profile 100. Adjusting the outer diameter forming roller 60 to be positioned slightly higher than the square profile 100 and feeding the coupling member 200 further may cause the coupling member 200 to move between the square profiles 100 as well as between the square profiles 100, So as to form a layer on the outer surface of the rectangular profile 100 by covering the upper surface of the rectangular profile 100 as shown in FIG.

Subsequently, a reinforcing member feeder 70 is provided inside the winding device 20 so as to feed the reinforcing member with the inner dermal impregnation layer 210. Accordingly, when the inner dermabrasion layer 210 is formed, the reinforcing member is further supplied so that the reinforcing member layer 300 is formed inside the inner dermabrasion layer 210 when the tube is manufactured.

When the synthetic resin tube is manufactured by applying the winding device 20 constructed as described above, the inner durability layer 210 is formed on the inner diameter of the rectangular profile 100 and the reinforcing member layer 300 So that a synthetic resin pipe having a three-stage structure can be manufactured.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

10: extruder 20: winding device
30: inner diameter forming roller 40: drive motor
41: drive sprocket 42: driven sprocket
43: chain 44: transmission sprocket
45: power transmission chain 50: joint member feeder
60: outer diameter forming roller 70: reinforcing member feeder
100: square profile 200: joint member
210: inner dermal abdomen layer 300: reinforcing member layer

Claims (4)

A synthetic resin tube having a structure in which a square profile having a hollow is connected to a joint member and an inner dermal abdomen layer is formed on an inner diameter,
Wherein a reinforcement member layer is further formed on the inner surface of the inner dermis abdomen to have a three-tiered structure having a square profile, an inner percutaneous abdomen layer and a reinforcing member layer,
The reinforcing member layer is made of white so that the inside can be seen clearly when the inside is photographed by CCTV,
Wherein the reinforcing member layer comprises 4-8 parts by weight of ethylene glycol monomethyl ether, 1-2 parts by weight of polyoxyethylene, 1 part by weight of propionic acid 1- 2 to 4 parts by weight of methylenebisstearylamide, and 10 to 15 parts by weight of kaolin was applied and dried. .
The method according to claim 1,
When the square profile is guided to the winding device and the square profile is drawn out while winding in a spiral shape with a predetermined interval through the winding device, the joining members are supplied from outside to the square profiles so that the square profiles are connected to each other to form a tube And the inner circumferential layer is formed in the inside of the tube, and the reinforcing member is further supplied to the inner transdermal layer from the inside of the winding device, Wherein the reinforcing member layer is formed on the inner surface of the percutaneous abdominal layer so that the cross-sectional structure has a three-tier structure including a square profile, an inner percutaneous abdomen layer, and a reinforcing member layer.
delete An extruding step of extruding a square profile by melting synthetic resin in an extruder;
A cooling step of cooling the extruded square profile to maintain the molding state as it is;
Feeding the square profile to a winding device, winding the product in a spiral shape at a predetermined interval in a winding device, and drawing the product in a tubular shape;
Supplying a coupling member between the square profiles outside the winding device to form a tube while connecting square profiles to each other;
Further providing the coupling member such that the coupling member flows into the inside of the square profile to form an inner dermal abdomen layer inside the tube; And
Further comprising providing a reinforcement member to the inner dermal abdomen layer in the winding device to form a reinforcement member layer within the inner dermal abdomen layer when the tube is withdrawn;
, ≪ / RTI >
Wherein the reinforcing member layer comprises 4-8 parts by weight of ethylene glycol monomethyl ether, 1-2 parts by weight of polyoxyethylene, 1 part by weight of propionic acid 1- 2 to 4 parts by weight of methylenebisstearylamide, and 10 to 15 parts by weight of kaolin was applied and dried. .

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