KR101355884B1 - Connection structure of waveform steel pipe - Google Patents

Abstract

The present invention relates to a connection structure of a corrugated steel pipe having a dual structure, and more preferably, to prevent deformation of the connecting portion of the corrugated steel pipe and at the same time to strengthen the adaptation force even if floating settlement occurs in the connecting portion. By integrally deforming, the corrugated steel pipe is prevented from being broken, and the corrugated steel pipe is connected twice to enhance watertightness.
Its configuration is to form a flat pipe (10) with a plastic inside, and the corrugated pipe (20) having a double structure by attaching a corrugated pipe (20) formed with a plurality of bones 21 on the outer peripheral surface of the flat pipe (10) formed of plastic. Connection band 40 connecting the end of the first to the first fastening bolt 50, and a flat pipe 10 formed of plastic formed at the end of the corrugated steel pipe 30 connected to the connection band 40 and a plurality of Semi-circular in the center part to connect the silicon 60 filled to seal the contact portion of the corrugated pipe 20 formed with two valleys 21 and the corrugated steel pipe 30 connected by the connecting band 40 to the center portion And forming a plurality of bones 72 so as to be inserted into the valleys 21 of the corrugated pipes 20 at both sides of the flat tube 71, and using the second fastening bolts 51 to form upper and lower portions. It characterized in that it comprises an enamel band 70 that can be fastened in.

Description

Connection structure of waveform steel pipe with double structure

The present invention relates to a connection structure of a corrugated steel pipe having a double structure, and more preferably to prevent deformation of the connection portion of the corrugated steel pipe and at the same time to strengthen the adaptability to the ground even if floating settlement occurs in the connection portion integral with the ground It is to prevent the breakage of the corrugated steel pipe by making it deform, and to strengthen the watertightness by connecting the corrugated steel pipe in a double manner.

Conventionally, in order to use as corrugated steel pipe as sewage or wastewater pipe, the connection part of the corrugated pipe is put on the connection band and bound as a bolt. At this time, when the diameter is small and light, the construction can be simplified, but the large diameter pipe is large. In the case of corrugated steel pipe, large and heavy weight is inconvenient to move the location. There was a lot of hassle in the work.

In addition, when the flange is connected, it is connected by fastening bolt through the bolt hole drilled in the flange and the flange. At this time, there is a lot of difficulty in matching the flange and the bolt hole of the flange, as well as floating settling at the connection part. When this occurred, there was a problem in that the connection portion is broken due to weak adaptability to floating settlement.

And since the connection part of the corrugated steel pipe is connected only with a connection band or a flange, when a long time passes, the connection part becomes loose and there is a gap, and there is a problem that leakage occurs through the gap, but it was difficult to solve this problem. will be.

The present invention has been made to solve the above problems, and when connecting the end of the corrugated steel pipe having a dual structure by attaching a corrugated pipe to the outer surface of the plastic pipe, the connection band and the ennuula band can be easily doubled It aims to enhance the watertightness at the same time to facilitate the construction by connecting to.

In addition, the present invention by connecting the end of the corrugated steel pipe having a dual structure by using the enumula band finally strengthened the adaptation to the floating settlement prevents damage to the corrugated steel pipe while being deformed in response to the settlement of the ground Its purpose is to.

In addition, by inserting heavy aggregates, gravel, rubble, concrete, etc. into the corrugated corrugated bone, the corrugated steel pipe is grounded by buoyancy of groundwater even if the groundwater flows under the corrugated steel pipe. There is also a purpose to prevent the rise to the top.

Referring to the configuration of the present invention having the above object with reference to the accompanying drawings as follows.

The present invention, as shown in the figure, is formed by forming a flat tube (10) with a plastic inside, and attaching a corrugated tube (20) formed with a plurality of bones 21 formed on the outer peripheral surface of the flat tube (10) formed of the plastic and double structure Connection band 40 and connecting the end of the corrugated steel pipe 30 having a first fastening bolt 50, and

Silicon filled to seal the contact portion of the flat tube 10 formed of plastic formed at the end of the corrugated steel pipe 30 connected by the connecting band 40 and the corrugated pipe 20 having a plurality of valleys 21 formed therein ( 60),

In order to secondaryly connect the corrugated steel pipe 30 connected by the connecting band 40, a flat tube 71 is formed at the center in a semicircular shape, and the valleys 21 of the corrugated pipe 20 are formed at both sides of the flat tube 71. Corrugated steel pipe having a dual structure characterized in that it comprises a plurality of bones 72 to be inserted into the encapsulated band 70 that can be fastened from the upper and lower by using the second fastening bolt 51 Provides a connection structure.

In addition, the present invention is characterized in that it is configured to respond to buoyancy by inserting a material 80 having a large specific gravity in the valley 21 of the corrugated pipe 20 attached to the outer surface of the flat tube 10 formed of plastic. It provides a connection structure of corrugated steel pipe having a dual structure.

The present invention having the configuration as described above has the effect of strengthening the watertightness by connecting the end of the corrugated steel pipe having a dual structure by using a connecting band and a double-curve enamel band on both sides.

In addition, since it is deformed by adapting to the ground even when the ground is settled, it prevents damage to the joints and inserts gravel, aggregate, concrete, etc., which have a high specific gravity, into the valley of the corrugated steel pipe having a double structure. Even if the groundwater flows, the corrugated steel pipe is lifted upward by the buoyancy due to the groundwater, thereby preventing the breakage.

1 is a cross-sectional view showing a state in which a corrugated steel pipe having a dual structure according to the present invention is connected.
2 is a longitudinal sectional view showing a state in which a corrugated steel pipe having a dual structure according to the present invention is connected.
3 is a cross-sectional view showing a state in which a material having a high specific gravity is inserted into a valley of a corrugated steel pipe having a dual structure according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the connection structure of the corrugated steel pipe having a dual structure according to the present invention will be described in detail, the related art in the description of the present invention may obscure the gist of the present invention If it is determined that the detailed description thereof will be omitted.

As shown in the drawings, the structure of connecting the both ends of the corrugated steel pipe having a dual structure according to the present invention to each other in more detail as follows.

In general, concrete fume pipes have been mainly used for guiding fluid movement in roads, harbors, and sewage treatment plants, and concrete fume pipes have been used for transportation and handling due to their increased weight and volume. Corrugated steel pipes are widely used in recent years because they require a long period of construction due to the increase in the number of joints along with the decrease in work efficiency due to the installation and dismantling of formwork during construction. In order to connect both ends of each other, as shown in FIGS. 1 and 2, the both ends of the corrugated steel pipe 30 are first connected to each other by a flange or a connection band 40 using the first fastening bolt 50.

In order to further reinforce the connecting portion of the corrugated steel pipe 30, a plurality of valleys 72 are formed on both sides, such as the corrugated steel pipe 30, and a flat tube 71 is formed at the center to cover the connection band 40. It is configured to fit the plurality of bones 21 formed at both ends of the corrugated steel pipe 30 connected to the connection band 40 by using the enamel band 70 and then coupled to the second fastening bolt 51.

At this time, the cannula band 70 is formed in a semi-circular shape rather than a cylindrical shape and is coupled to the outer surface of the corrugated steel pipe 30 from the top and bottom, and then fastened using the fastening bolt 51.

In addition, in order to seal the contact portion of the flat tube 10 and the corrugated pipe 20 formed at the end of the corrugated steel pipe 30 having the dual structure in contact with the silicon 60 was configured to enhance the water-tightness.

And the present invention, as shown in Figure 3, when the ground water is formed in the lower portion of the corrugated steel pipe 30, the flat pipe 10 to prevent the corrugated steel pipe 30 is raised to the upper ground due to buoyancy due to the ground water It was configured to correspond to the buoyancy of the groundwater by inserting aggregate, gravel, concrete, etc., a material having a large specific gravity, into the valley 21 of the corrugated pipe 20 attached to the outer surface of the.

Hereinafter will be described an embodiment for connecting the corrugated steel pipe according to the present invention.

1 and 2, the present invention first forms a flat tube 10 made of plastic therein, and attaches a corrugated tube 20 having a plurality of bones 21 formed on an outer surface of the flat tube 10. When constructing the corrugated steel pipe 30 having a dual structure by connecting to each other, first, the silicon 60 is filled in the contact portion of the flat tube 10 and the corrugated pipe 20 formed at the end of the corrugated steel pipe 30 Seal the inside of the structure.

Then, the ends of the corrugated steel pipe 30 are connected to each other, and then connected to the connection band 40 by using the first fastening bolt 50. As described above, in order to reinforce watertightness with respect to the corrugated steel pipe 30 connected by the connecting band 40 and to reinforce the adaptability to the ground, the corrugated pipe 20 formed on the outer surface of the corrugated steel pipe 30 once again. The corrugated steel pipe 30 may be connected to the enamel band 70 inserted between the bone 21 and the bone 21 using the second fastening bolt 51.

Double corrugated steel pipe 30 as described above is to enhance the watertightness. In addition, the construction of the cannula band 70 is coupled to the corrugated steel pipe 30 at the top and bottom, and then fastened with a fastening bolt 51, thereby simplifying the construction.

As shown in FIG. 3, when the groundwater flows in the lower part of the ground where the corrugated steel pipe 30 is constructed, the corrugated steel pipe 30 may be formed to prevent the corrugated steel pipe 30 from rising to the upper part of the ground by groundwater. When the corrugated steel pipe 30 is inserted into the corrugated steel pipe 30 in the middle of the corrugated pipe 20 in advance, the corrugated steel pipe 30 and the flat band in the center are inserted into the aggregate, gravel, concrete, etc. 71 and both sides of the flat tube 71 may be connected to the construction of the enamel band 70 in which the bone 72 is formed.

10. Flat pipe 20. Corrugated pipe
21. Goal 30. Corrugated Steel Pipe
40. Connecting band 50. First fastening bolt
51. 2nd fastening bolt 60. Silicone
70. Enular Band 71. Plain Tube
72. Goal 80. High specific gravity material.

Claims (2)

The end of the corrugated steel pipe 30 having a dual structure by forming a flat pipe 10 with plastic inside, and attaching a corrugated pipe 20 formed with a plurality of bones 21 to the outer circumferential surface of the flat pipe 10 formed of plastic. Connection band 40 and connecting the first fastening bolt 50,
Silicon filled to seal the contact portion of the flat tube 10 formed of plastic formed at the end of the corrugated steel pipe 30 connected by the connecting band 40 and the corrugated pipe 20 having a plurality of valleys 21 formed therein ( 60),
In order to secondaryly connect the corrugated steel pipe 30 connected by the connecting band 40, a flat tube 71 is formed at the center in a semicircular shape, and the valleys 21 of the corrugated pipe 20 are formed at both sides of the flat tube 71. Corrugated steel pipe having a dual structure characterized in that it comprises a plurality of bones 72 to be inserted into the encapsulated band 70 that can be fastened from the upper and lower by using the second fastening bolt 51 Connection structure. The method of claim 1,
Corrugated steel pipe having a dual structure characterized in that it is configured to cope with buoyancy by inserting gravel, aggregate or concrete into the valley 21 of the corrugated pipe 20 attached to the outer surface of the flat pipe 10 formed of plastic Connection structure.

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