KR102106916B1 - A perforated-pipe structure - Google Patents

Abstract

The present invention relates to an extensible perforated pipe which can be formed into a spiral tube by spirally winding a material, and can be extended and contracted in a longitudinal direction by sliding a cover part at an upper side of a perforation part in which a plurality of through holes are perforated. In addition, the extensible perforated pipe has an improved structure in which the gap width of the perforation part is increased to improve drainage during extension, first and second bent ends are formed by being bent in an opposite direction on the lateral edge of the cover part and the perforation part so that the extension gap in a longitudinal direction can be adjusted more widely, and a braided cover member is arranged on the exterior of the perforated pipe to omit separate nonwoven fabric during construction of the perforated pipe and to prevent the through holes from being blocked with external soil.

Description

Perforated pipe structure {A PERFORATED-PIPE STRUCTURE}

The present invention relates to a perforated tube structure, in particular, it can be wound in a spiral to form a spiral tube, and a plurality of through holes are slidably moved from the upper side of the perforated part to allow a telescopic operation in the longitudinal direction. , It is possible to increase the width interval of the perforated part to improve drainage during the stretching operation, and to form the first and second bent ends in opposite directions to each other at the edge of the cover and the perforated part, thereby further extending the longitudinal stretching interval. In the perforated pipe structure, the structure of which is improved, so that the nonwoven fabric can be omitted during the construction work of the perforated pipe by arranging a cover member having a braided structure on the outside of the perforated pipe. It is about.

In general, the perforated pipe is used as a leachate transfer pipe for landfills or waste landfills, such as rock roads, tunnels, and river basins, and is mainly covered with a nonwoven fabric on the outer circumferential surface to increase the effect of collecting and draining and preventing the inflow of soil and preventing clogging of the pipe. It is installed in the lower part of the asphalt road and used as a surface water transfer pipe for the asphalt road.

In addition, since the perforated pipe has a high porosity and excellent chemical resistance, it is resistant to corrosion and corrosion and can be used semi-permanently. Due to its superior external pressure strength, it is suitable for use in leachate and gas collection pipes in landfills.

Most of these conventional perforated pipes are formed of synthetic resin pipes, and thus have a problem in that the buried perforated pipes are easily damaged due to low durability, weak heat, and low compressive strength.

Although the damaged perforated pipe should be replaced as described above, there is a problem that maintenance and cost for replacing the perforated pipe take a lot of time, and the maintenance of the broken perforated pipe is not well performed.

Conventional prior art related to the existing perforated pipes, as disclosed in Korean Registered Utility Model Publication No. 20-0376282 "cylindrical perforated pipes" (registration date: 2005.02.07), are listed at regular intervals to improve the discharge capacity of the fluid. The horizontal line and the spiral ring are integrally formed along the circumference of the horizontal line, so that a plurality of through holes are formed in a portion where the horizontal line and the spiral ring do not intersect.

As a prior art that has been previously filed by the same applicant, as disclosed in Korean Patent Registration No. 10-978007 "Stainless Steel Perforated Pipe" (Registration Date: 2010.08.19), alternately a perforated perforated protrusion and a catcher. It relates to a stainless steel perforated tube that is flexible by forming, easy to construct, and effectively collects surface water through a water collecting hole, and is formed of stainless steel to form heat resistant and high compressive strength.

However, in the case of the existing perforated pipe, since the gap between the perforated portions where a plurality of perforations are perforated is formed at a fixed interval, the transport volume becomes large during transport and may be deformed by an external impact generated during transport. There is a disadvantage in that workability is poor due to insufficient stretch in the longitudinal direction.

In addition, in the case of the existing perforated pipe, since the gap between the perforated portions is narrow, the drainage is not smooth.

In addition, in the case of the existing perforated pipe, there is a fear that the fine-grained soil may block the perforation, and thus the construction method of covering the nonwoven fabric with the gravel and soil after wrapping the nonwoven fabric along the periphery of the perforated pipe is adopted, and the nonwoven fabric is applied to the periphery of the perforated pipe. There is a limitation in that it has to be wound several times, and when the nonwoven fabric wound around the perforated tube is released, the fine soil of the particle blocks the perforation, thereby losing the function of the perforated tube.

Korean Registered Utility Model Publication No. 20-0376282 "Cylindrical Contribution Hall" (Registration Date: 2005.02.07) Korean Registered Patent Publication No. 10-978007 "Stainless Steel Contribution Hall" (Registration date: 2010.08.19)

The present invention was created to solve this in view of the above-mentioned problems, and its purpose can be wound in a spiral shape to form a spiral tube, and a plurality of through holes are slid to move the cover portion above the perforated portion. In addition, it is to provide a perforated tube structure with an improved structure so as to be able to expand and contract in the direction and to increase drainage during stretching operation by increasing the width of the perforated portion.

Another object of the present invention is to provide a perforated tube structure whose structure is improved so that the first and second bent ends are bent in opposite directions to each other on the side edge of the cover part and the perforated part so as to adjust the longitudinal stretching interval. .

Another object of the present invention is to arrange a cover member having a braided structure on the outside of the perforated tube to omit the nonwoven fabric during construction work of the perforated tube and to improve the structure of the perforated tube to prevent clogging of the through hole by external soil. In providing structure.

The present invention for achieving the above object corresponds to the left portion of the body portion, and a perforated portion having a plurality of perforations formed to communicate with the inside and the outside; A cover portion corresponding to the right portion of the body portion and formed to be stepped from the perforated portion to have a larger diameter than the perforated portion when the spiral is wound; With the first and second bent ends bent so as to be symmetrical in opposite directions to the side edges of the cover part and the perforated part, the cover part and the perforated part are alternately arranged during a spiral winding operation, and the cover part is a perforated part It is characterized in that the sliding motion in the longitudinal direction from the upper side so that the entire length is stretched.

The body portion and the first and second bending ends are coupled to surround the outside, and further provided with a cover member braided to allow fluid to flow in and out.

The cover member is a braided metal wire.

The cover portion is provided with a vertical connection surface formed to be stepped and vertically connected to the perforated portion.

The first and second bending ends are formed to have heights corresponding to each other.

The perforated pipe of the present invention is a telescopic type in which the cover portion is slidingly moved from the upper side of the perforated portion, so that the entire length can be adjusted. When transporting the perforated pipe, each cover portion covers each perforated portion and transports it in a contracted state to reduce the overall length It is possible to increase the convenience of transportation, and when it arrives at the construction site of the perforated pipe, it extends to the original length and exposes the perforated portion to the outside, so that the inside and outside are communicated through the through hole formed in the perforated portion. Perforated pipes can be installed.

In addition, the present invention has the advantage that the cover member is provided on the outer side of the perforated tube, so there is no need to wind a separate nonwoven fabric in the construction step, and thus it is easy to construct and prevent clogging of the through hole due to the loosening of the nonwoven fabric.

In addition, in the present invention, as the extension of the cover is limited because only the first bending end interferes with the second bending end without interference of the perforation during the longitudinal stretching operation of the cover portion, the width of the perforation can be made relatively larger. It has the advantage of being able to enlarge the expansion and contraction interval of the perforated tube by extending the expansion operation interval of the lid.

1 is a perspective view showing the appearance of a perforated tube according to the present invention.
Figure 2 is a perspective view showing a state during the contracting operation of the perforated tube of the present invention.
3 is a cross-sectional view of FIG. 1.
4 is a cross-sectional view of FIG. 2.
Figure 5 is a perspective view showing a state in which the cover member of the present invention is coupled to the outside of the perforated tube.
Fig. 6 is a sectional view of Fig. 5;

Hereinafter, through the detailed description of the embodiments with reference to the drawings will be described in more detail for the perforated tube structure according to the present invention.

In describing the present invention, when it is determined that detailed descriptions of related known technologies or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to a user's intention or custom. Therefore, the definition should be made based on the contents throughout this specification. Also, 'including' a component means that other components may be further included, not excluded, unless specifically stated to the contrary.

The perforated pipe structure according to the present invention will be described with reference to FIGS. 1 to 6, a perforated portion 120 having a plurality of through holes 125 formed to communicate with the inside and the outside; A cover portion 110 formed stepwise from the perforated portion 120 to have a larger diameter than the perforated portion 120 during the spiral winding operation; And the first and second bent ends 130 and 140 bent so as to be symmetrical in opposite directions to the side edges of the cover part 110 and the perforated part 120.

Referring to FIG. 1, the body portion 150 is formed of a perforated portion 120 and a cover portion 110, and the first and second bent portions have structures formed at both left and right sides of the body portion 150. .

The perforated portion 120 corresponds to the left portion of the body portion 150 and has a plurality of perforations 125 perforated to communicate with the inside and the outside, and is formed at a lower height than the cover portion 110 in a cross-sectional structure Have

The cover portion 110 corresponds to the right portion of the body portion 150, and extends stepwise from the perforated portion 120 to be formed at a height higher than the perforated portion 120 in a cross-sectional structure.

The cover portion 110 is provided with a vertical connection surface 112 that is formed to be stepped in a vertical direction with the perforated portion 120.

Referring to FIG. 3, the first and second bending ends 130 and 140 have a structure that is bent so as to extend from ends of the lid part 110 and the perforating part 120 in opposite directions to each other in the up and down directions.

Preferably, the first and second bent ends 130 and 140 are formed to have heights corresponding to each other, and have a height smaller than the height of the vertical connection surface 112.

In this case, as the heights of the first and second bending ends 130 and 140 are formed to correspond to each other, it is possible to sufficiently obtain the stopping force due to interference during the lengthwise stretching operation of the cover part 110 while minimizing unnecessary parts. The waste of materials can be reduced.

The body portion 150 and the first and second bent ends 130 and 140 may be formed of any one of metal, plastic, and synthetic fiber materials, but are not limited to materials, and the metal material will be described here as an example. .

5 and 6, the present invention is coupled to surround the outside of the body portion 150, 150 and the first and second bent portions 130 and 140, and a cover member braided to allow fluid to flow in and out 200 is further provided.

The cover member 200 is constructed of a braided metal wire or other material (here, it will be exemplified as a durable metal wire), whereby the through hole 125 of the perforated portion 120 is blocked by soil. It prevents and prevents fluid from flowing in and out.

That is, in the cover member 200, fluid (water) flows through the through hole 125 of the perforated portion 120 into the perforated tube 100 through the gaps of the braided portions so that the metal wires cross each other, and the outside By blocking the soil from the perforated pipe 100, it is possible to prevent clogging of the through hole 125.

The combination of the perforated pipe 100 and the cover member 200 may be combined by inserting the perforated pipe 100 into the cover member 200 before construction of the perforated pipe 100.

The length of the cover member 200 has a length corresponding to the length of the elongated perforated tube 100.

In the present invention having such a configuration, a plurality of through holes 125 are bent at side intervals of first and second bent ends 130 and 140 in a direction opposite to each other, and the perforations 120 and In addition to forming the cover portion 110 stepwise, it is wound in a spiral shape to form a perforated tube.

 During the spiral winding operation, the cover portion 110 and the perforated portion 120 are alternately arranged, and the cover portion 110 is slid in the longitudinal direction from the upper side of the perforated portion 120 so that the entire length is stretched and operated. It is done.

In the spiral winding operation, the cover part 110 and the perforation part 120 are alternately arranged, and the first bending end 130 formed on the cover part 110 and the second bending part formed on the perforation part 120 The stages 140 are arranged to interfere with each other in the longitudinal direction.

The first bending end 130 formed on the cover portion 110 is slid in the longitudinal direction from the upper side of the second bending end 140 formed on the perforated portion 120, so that the perforated tube of the present invention in the longitudinal direction It is contracted or stretched to have a stretchable structure.

At this time, as shown in FIGS. 1 and 3 in the stretching operation of the cover portion 110, the first bending end 130 is caught in the second bending end 140 arranged in the vertical direction, and the cover part When the stretching operation of the 110 is limited and contracted, as shown in FIGS. 2 and 4, the first bending end 130 has a different cover portion 110 while the adjacent cover portions 110 are in close contact with each other. ) Since the contraction length is limited due to interference with the vertical connection surface 112, the expansion and contraction interval of the cover part 110 is vertically connected surface 112 of the adjacent cover part 110 different from the second bending end 140. It is limited to the length of the liver.

Therefore, the present invention perforated pipe 100, the cover portion 110 and the perforated portion 120 are alternately arranged and wound in a spiral, it is possible to limit the expansion or contraction within a certain range to a certain length during the stretching operation.

As described above, the perforated pipe of the present invention is a telescopic type in which the cover portion 110 is slidably moved from the upper side of the perforated portion 120, so that the entire length can be adjusted, and each cover portion 110 is transported during transport of the perforated pipe. Each of the perforations 120 can be covered and transported in a contracted state so as to reduce the overall length, thereby increasing the convenience of transport, and when the construction arrives at the construction site of the perforated pipe, the perforations are stretched to the original length ( By allowing the 120) to be exposed to the outside, a perforated pipe communicating with the inside and the outside can be installed through the through hole 125 formed in the perforated portion 120.

In addition, the present invention is provided with a cover member 200 on the outer side of the perforated tube 100, so there is no need to wind a separate nonwoven fabric in the construction step, so it is easy to construct and prevent clogging of the through hole 125 due to the loosening of the nonwoven fabric. Has the advantage of being able to.

In addition, the present invention has the advantage that the first and second bent ends 130 and 140 are bent in opposite directions to each other on the side edge edges of the cover part 110 and the perforated part 120 so as to adjust the lengthwise expansion and contraction intervals.

In addition, according to the present invention, only the first bending end 130 is interfered with the second bending end 140 without interference from the punching unit 120 during the lengthwise stretching operation of the cover portion 110, so that the stretching operation is limited. Since the width of the study 120 can be made relatively larger, it has the advantage of expanding the expansion and contraction intervals of the perforated tube 100 by expanding the stretching operation interval of the lid part 110.

As described above, although specific embodiments have been described in the detailed description of the present invention, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiment, but should be defined by the claims and equivalents as well as the claims below.

In addition, the perforated tube 100 and the cover member 200 of the present invention are not limited to sizes such as length and diameter expressed in the drawings.

That is, the present invention as described above is not limited to the specific preferred embodiments described above, and who has ordinary knowledge in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications are possible, and such changes are within the scope of the claims.

100: perforated tube 110: cover
112: vertical connection surface 120: punched portion
125: through 130: first bend
132: 1st extension group 134: 1st bending group
140: second bend 142: second extension
144: second bending end 150: body portion
200: cover member

Claims (5)

A perforation part 120 corresponding to the left part of the body part 150 and having a plurality of through holes 125 formed to communicate with the inside and the outside;
A cover portion 110 corresponding to the right portion of the body portion 150 and formed stepwise from the perforated portion 120 to have a larger diameter than the perforated portion 120 when the spiral is wound;
With the first and second bent ends (130,140) bent so as to be symmetric in opposite directions to the side edge of the cover portion 110 and the perforated portion (120),
When the spiral winding operation, the cover portion 110 and the perforated portion 120 are alternately arranged, and the cover portion 110 is slidingly moved in the longitudinal direction from the upper side of the perforated portion 120 so that the entire length is stretched and operated. Features a perforated tube structure. The method according to claim 1,
The body portion 150 and the first and second bent ends (130,140) is coupled to surround the outside, and further provided with a cover member (200) braided to allow the flow of fluid into and out. The method according to claim 2,
The cover member 200 is a perforated tube structure characterized in that the metal wire is braided. The method according to claim 1,
The cover portion 110 is a perforated pipe structure, characterized in that provided with a vertical connection surface 112 formed to be stepped and vertically connected to the perforated portion (120). The method according to claim 1,
The first and second bending end (130,140) is a perforated tube structure, characterized in that formed to have a height corresponding to each other.

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