KR970009012B1 - Reinforcement plastic pipe - Google Patents

Abstract

None.

Description

Pressure-resistant synthetic resin pipe for underground laying

1 is a front view of a partially cut away tube.

2 is a partial exploded longitudinal sectional view of the tube wall portion.

3 is a longitudinal sectional view of the tube wall portion.

4 to 6 are longitudinal cross-sectional views of a tube wall portion, each showing a different embodiment.

7 and 8 are longitudinal cross-sectional views of the tube wall portion respectively showing a conventional structure.

9 is a longitudinal sectional view of a pipe wall portion showing a reference structure.

* Explanation of symbols for main parts of the drawings

1: inner wall 2: outer wall

3,4: Vertical rib 5,6: Joint part

7: reinforcement board P: pipe main body

The underground pressure-resistant synthetic resin pipe for buried in the present invention is a buried pipe for embedding in underground, suitable for water pipes, estuaries (drainage) pipes, oil pipes, gas pipes and other fluid transport pipes, cables such as power transmission lines and telephone lines It is also used as a protective tube.

In recent years, a spiral wave family has been developed in which a pipe wall is formed into an uneven spiral shape using a synthetic resin material. In addition, such a synthetic resin tube has also been developed and supplied to the market in combination with a metal reinforcement base plate for increasing the pressure resistance flatness. Such synthetic resin pipes have long lengths, so the number of connecting parts must be small, and the flexible pipes have a certain degree of flexibility.

Their underground burial pipes, which have already been developed, must be able to withstand strong earth pressure, and as shown in FIG. 7, thickening the pipe wall 01 made of spiral irregularities or as shown in FIG. The metal reinforcing plate 07 formed in the same shape as the spiral iron 02 is embedded in the thickness of the spiral iron 02 of the pipe wall 01 that is formed as the spiral irregularities wave shape to have a pressure resistance.

The thick plastic pipe (PA) shown in FIG. 7, which is the former, has a large problem in that the laying work is not easy due to the large amount of synthetic resin material, inconvenient transport or movement, and low flexibility. . Therefore, the spirally-concave-shaped corrugated pipe (PB) in which the metal reinforcing plate 07 having the same shape as the pipe wall as the inside of the thickness of the spiral-shaped (02) of the pipe-wall 01 made of the spiral-shaped concave-corrugated wave shown in FIG. The use of synthetic resin material is minimal, the degree of flexibility can be expected, and the pressure resistance is excellent, and it is now suitable for underground burial, which is now occupying the mainstream of underground burial pipe.

However, the spiral undulating corrugated pipe (PB) using the metal reinforcing plate 07 shown in FIG. 8 has many advantages as described above, but the outer circumferential surface is a spiral undulating wave tube, so the ground is dug. When laying by the propulsion method that is buried while drilling the ground horizontally, it is not suitable for laying because the external resistance is large and the cavity is left on the outer peripheral surface of the pipe inlet.

Accordingly, in the present invention, as shown in FIG. 9, the outer circumferential surface is formed on the outer circumferential surface by using a spirally undulated corrugated pipe (PB) using the metal reinforcement plate 07 shown in FIG. A synthetic resin coated tube (PC) coated with another synthetic resin material was also developed to be a smooth tube (03). However, there is a problem in that the pipe structure is complicated and the manufacture of the pipe is complicated.

Therefore, this invention developed the coffin of this invention for the purpose of solving such a subject.

The pipe of the present invention has a relatively simple pipe structure, which is easy to manufacture, and has a sufficient pressure resistance flatness, and is to provide a synthetic resin pipe having a structure that can withstand a large earth pressure even when buried in the ground and is suitable for a propulsion method. .

The technical solutions will be described with reference to the symbols used in the drawings corresponding to the embodiments as follows. That is, the underground pressure-resistant resin pipe for underground embedding of the present invention is an inner tube wall (1) formed in a cylindrical shape that is continuous in the axial direction, and an outer wall (2), and these inner pipe walls (1) in a linear cylindrical shape continuous in the axial direction. Two upright ribs (3) (4) and two upright ribs (3) (4) and the inner tube wall which are joined together in the circumferential direction and vertically spaced at a predetermined interval in the axial direction. (1) and two hollow sections (5) connected in a helical direction surrounded by an outer wall (2); a tube body (P) made of hard synthetic resin and the two hollow sections (5) The cross-sectional shape which is built in one cavity part 6 in (6), and has the same width | variety and substantially the same height as this cavity part 6 is comprised from the reinforcement base 7 made of metal thin plates formed in U shape.

As for the reinforcing base plate 7 made of a metal thin plate, metal is suitable as a strength material in any of a steel sheet, a stainless sheet, or an iron sheet. In addition, the synthetic resin material forming the tube body (P) may be easily obtained and not deteriorated even after a long time due to the polyolefin or vinyl chloride type.

In addition, the reinforcing base plate 7 made of metal foil may be formed by not only the inverted U-shape which is opened downward but also the U-shape which is opened upward, and providing another base 8 which closes the open part.

The construction of the pipes constructed in this way is roughly divided into the ground pipes, and the propulsion method for pushing the pipes sequentially after the excavators while excavating the ground with underground excavators for underground pipes is well known to the general public. There is a method of laying by the method of laying by the pipe laying method and pedestal along the place to be dug to the required depth, and the method of excretion by the open method to fill up and cover the excavated soil on it. Any of these methods can be added to the pipe of the present invention.

According to the propulsion method, since the outer circumferential surface of the pipe of the present invention is almost smooth, the resistance is small and does not bend well even when pressed, so that the pushing force is easily transmitted in the pushing direction when it is pushed, thereby facilitating indentation. Can be. In the underground pipe, the reinforcement board 7 made of metal sheet and the ribs 3 and 4 made of synthetic resin exhibited pressure resistance jointly, and the reinforcement board 7 and the mouth rib 3 ( 4) The entire double pipe wall spaced apart acts as a pressure resistant pipe.

Next, embodiments of the present invention will be described with reference to the drawings.

1 to 3 show one embodiment of the present invention (hereinafter referred to as the first embodiment), wherein the pipe shown in FIG. 1 forms the inner tube wall 1 in a straight cylindrical shape continuous in the axial direction. The example structure of the pipe main body P of the double pipe wall in which the exterior wall 2 was formed in substantially cylindrical shape continuous in the same axial direction is shown.

As shown in the right side of Fig. 2, the tube has a long horizontal cross section whose cross-sectional shape comprises the upper edge portion 21, the left and right side wall portions 31 and 41, and the lower edge portion 11, and the lower edge portion ( 11) The synthetic resin substitute A having protrusions 12 and 13 on both sides of the protrusions is wound in a spiral fashion while winding the protrusions 12 and 13 together. Into the grooves 61 in which the tops 12 and 13 are integrally connected to each other and then overlapped with each other, and the upper portions formed as the left and right side wall portions 31 and 41 adjacent to each other are overlapped with the protruding pieces 12 and 13. When the U-shaped reinforcement plate made of stainless steel signboard having a cross-sectional shape is inserted in a downwardly open position, it is wound in a spiral shape, and then left on the upper portion of the reinforcement plate 7. The upper sealing material 22 made of another synthetic resin is pushed into the clearance groove 62 to be closed, and at the same time, the upper sealing material 22 and Which will connect the group two sides walls (41, 31) in one piece.

Thus, as shown in the left side and the 3rd view of FIG. 2, the outer side wall 2 connected to the linear cylindrical shape in the axial direction and the side walls on the left and right sides are the same as the inner tube wall 1 extending in the substantially linear cylindrical shape in the axial direction. By the parts 31 and 41, the inner tube wall 1 and the outer ridge wall 2 are formed in the circumferential direction and spaced apart by a predetermined interval in the axial direction to form two standing ribs 3 and 4 placed therein. Tube body P having a structure having two cavities (5) (6) extending in a spiral direction surrounded by these two vertical ribs (3) (4), inner tube wall (1) and outer wall (2). And a reinforcing plate 7 made of a stainless steel sheet having an inverted U-shape in a cross-sectional shape having a width substantially the same as that of the cavity 6 in the cavity and one cavity 6.

Synthetic resin pipes with smooth inner and outer surfaces shown in the above embodiments are mainly used in the ground as pipes suitable for oil pipes, gas pipes, etc., in addition to water pipes and sewage pipes.

4 and 5 each show a different embodiment, and the embodiment of FIG. 4 shows the structure of the reinforcing plate 7 made of the metal plate shown in the first embodiment in a c-shaped shape which is open downward in cross section. The lower inward portion 71 is formed to be bent inward, respectively. In addition, in the case of FIG. 5, the structure of the reinforcing base plate 7 made of metal plate is c-shaped with the cross-sectional shape opened downward, and the lower outward portion 72 is bent and projected toward the side and outward to embed the embedded structure. .

In this way, the lower end of the reinforcing base plate 7 has an advantage of eliminating the fear that the inner tube wall 1 portion of the inner surface side is broken.

Thus, the embodiment shown in FIG. 5 is different from the synthetic resin substrate A which forms the ribs 3 and 4 on the lower side of the reinforcing plate 7, that is, on the inner surface side of the tube. The lower sealing member 23 made of synthetic resin is integrally connected to each other, and the outer sealing surface 22 of the upper part of the reinforcing plate 7 is protruded slightly. In this way, if the upper part of the reinforcing plate 7 is slightly projected, the earth pressure can be applied to the reinforcing plate 7 more than other portions.

FIG. 6 shows another embodiment, which is embedded in the cavity 6 with the c-shaped reinforcement base 7 of the metal plate upwardly opened, and the other base 8 placed thereon. It is placed to close the opening and prevent the upper synthetic resin upper sealing material 22 from entering the cavity 6. By doing in this way, the reinforcement base 7 can also be used in the state opened upward.

The tube shown in the embodiment of FIG. 6 has a structure in which the lower sealing member 23 made of synthetic resin protrudes from the inner side of the tube. Needless to say, this protruding portion may be formed in the first embodiment or may be formed not only on the inner peripheral surface side of the reinforcing base plate 7 but also on the inner surface side of the cavity portion 5.

In this way, the tube having the protruding portion formed on the inner circumferential surface side of the inner tube wall 1 has a low frictional resistance because the cable is supported by the protruding portion when the cable such as an electric wire or a telephone line is inserted. Suitable for use

In each of the above embodiments, the cross-sectional shape of the reinforcing plate 7 is shown to be longer than the width, but the reinforcing plate 7 is not limited to the width of the width as such, but the width and width of the reinforcement plate 7 are substantially the same. It goes without saying that it may be carried out with a wider one. In addition, the two cavities 5 and 6 show that the cavities 6 in which the reinforcement base 7 is embedded are smaller than the other cavities 5, but both cavities 5 and 6 are almost the same. The cavity 6 in which the reinforcement base 7 is provided may be larger than the other cavity 5 in size.

As the material of the reinforcing base plate 7, in addition to the stainless steel sheet described in the examples, a steel steel plate may be used, an iron plate may be used, or any metal plate may be selected and used. As the synthetic resin material for forming the pipe wall, polyolefin-based synthetic resins such as polyethylene and polypropylene and vinyl chloride-based synthetic resins are mainly used, but other synthetic resins may be used.

As mentioned above, although the Example considered the typical of this invention was described, this invention is not necessarily limited only to a structure at all, The structure of this invention is equipped with the requirements of this invention, and the objective of this invention has the effect demonstrated below. It can be carried out with a considerable improvement within the scope.

As described in detail according to the embodiment described above, the pipe of the present invention has a cavity between the inner and outer double cylinders with a space between the inner wall and the outer wall, and has a cavity between the inner and outer double cylinders, and the reinforcement of the metal sheet having a U-shaped cross-sectional shape in the cavity. Since the base plate is embedded, the reinforcing plate and the standing rib can cooperatively fight against external force, especially earth pressure. Therefore, even if the reinforcing member is of a very thin material, it has excellent pressure flatness and can provide sufficient pressure reinforcement effect Since the part is increased, the weight of the pipe can be reduced and the amount of synthetic resin used can also be reduced.

In addition, since the structure is inserted into the cavity of the reinforcing plate is easy to manufacture and suitable for mass production, it has the effect of providing the pipe to the market at a low price.

In addition, since the structure is inserted into the cavity of the reinforcing plate is easy to manufacture and suitable for mass production, it has the effect of providing the pipe to the market at a low price.

In the case of embedding in the ground by the propulsion method, since the outer circumferential surface of the pipe of the present invention is almost smooth, the pressure resistance is small and the insertion can be facilitated.

Claims (5)

The inner tube wall 1 formed in a tubular shape continuous in the axial direction, and the outer wall 2 formed in a straight cylindrical shape continuous in the axial direction and in the circumferential direction of these inner tube walls 1 and the outer wall 2. Two upright ribs (3) (4) interlocked and spaced apart at predetermined intervals in the axial direction along the spiral direction; these two upright ribs (3) (4) and the inner tube wall (1) and the exterior wall ( 2) a tube body P made of hard synthetic resin and a cavity in the two cavity parts 5 and 6 having a structure consisting of two cavity parts 5 and 6 extending in a spiral direction surrounded by 2). 6) Pressure-resistant synthetic resin pipe for underground excrement, consisting of a reinforcing base (7) made of metal sheet having a U-shaped cross-sectional shape having a width and a height substantially the same as that of the cavity (6) embedded therein. The pressure-resistant synthetic resin pipe for underground embedding according to claim 1, wherein the reinforcement base (7) made of a metal sheet is inverted U-shaped open downward. The pressure-resistant synthetic resin pipe for underground construction according to claim 1, wherein the reinforcing base plate (7) made of metal thin plate is open upward and has another base plate (8) for closing the opening portion on the upper surface thereof. The pressure-resistant synthetic resin pipe for underground laying according to claim 1, wherein the reinforcing base plate (7) made of metal sheet is a material selected from any one of steel steel plate, stainless steel plate, or iron plate. The pressure-resistant resin tube for underground embedding according to claim 1, wherein the synthetic resin material forming the tube body (P) is polyolefin-based or vinyl chloride.