KR100332085B1 - method for laying of pipe and structure for layind the same - Google Patents

Abstract

The present invention relates to a pipe buried to bury a pipe for guiding the movement of the fluid in the ground, after the process is made by the excavation of the road by varying the process, the subsequent pipe buried process is made to be fast and robust as well If water, such as sewage from households or businesses, flows into the valleys during or after the pipe is laid, the water is collected immediately and guided to the main drain pipe buried in the main street.

To this end, the present invention, by excavating the road to make the valley 11 as necessary length, and provided with a plurality of drain pipes 12 having a predetermined length, a plurality of through holes in the longitudinal direction in some of the peripheral surface of each drain pipe (12a) ), The drain pipe 12 having the through hole is placed on the bottom surface of the bone 11 and connected in two rows long, and the form 14 on the drain pipe 12 of each row in a vertical state The step of supporting, and mixing a portion of the excavated soil to form the bone 11 with a conventional solidifying agent to fill between the mold 14, and remove the formwork after a certain time to remove the pipe support 15 And a step of filling the gravel 16 with both outer portions of the pipe support part to cover the formation portion of the through-hole 12a of the drain pipe 12 as the gravel; 17) into the pipe support (15) Supporting each direction and connecting each pipe 17 to each other, filling the rest of the excavated soil with another member into the bone, and then compacting it so that no settlement occurs; A pipe laying structure in which pipes are buried by the embedding method is provided while providing a pipe laying method in which the step of laying the pavement is performed.

Description

Method for laying of pipe and structure for layind the same

The present invention relates to a pipe buried to bury a variety of pipes, such as water pipes, sewage pipes and other gas pipes that can be moved to the ground, more specifically, the groundwater level after embedding while allowing easy and quick buried pipes Will be lowered.

In general, water pipes, sewer pipes, gas pipes, etc. (hereinafter referred to as 'pipings'), which serve as fluid flow paths, are buried in the ground.In the city, living infrastructure (housing, roads, etc.) is already completed. It is buried along the road.

However, residential roads are much narrower than normal roadways and have many problems in laying pipes due to the frequent traffic flows. The biggest burden is that.

In other words, alleyways, which are residential streets, are narrow in width, making it difficult to transport construction materials and entering heavy equipment, and frequent traffic flows, which increases the risk of safety accidents during construction. have.

Therefore, in particular, each construction company laying pipes on residential roads performs pipe laying work in view of the above problems, but they do not have such a method yet, and they only carry out the pipe laying work based on the basic construction methods that have been delivered. In order to shorten the working time, a large number of working people are added at a time or work is performed until late at night.

Now, let's first look at the conventional pipe laying method for laying the pipe.

1 is a flowchart illustrating a process of embedding a pipe by a conventional pipe embedding method, FIG. 2 is a process diagram of pipe laying according to a conventional pipe embedding method, and FIG. 3 is a cross-sectional view taken along line II of FIG. As a step, excavating a flat road using heavy equipment and the like to make the valleys 1 to a proper depth and a constant length, and to form the bottom surface of the valleys flat, and then the foundation concrete 2 is placed on the floor surface at a predetermined thickness. And placing and supporting a plurality of pipes 3 to be embedded in the bone 1 after the foundation foundation concrete is cured in the longitudinal direction on the foundation concrete 2, and the connected pipes Grasping by using the excavated soil or another member so as not to move even by external force, and filling the excavated soil or other member into the bone (1) and then sinking The so Dodge steps of the compaction of the soil over the packing crushing the packaging material 4, such as concrete or asphalt is done sequentially.

Referring to the process of embedding the pipe in the ground by the conventional pipe laying method as follows.

First, excavate the road, which is the ground, using heavy equipment or manpower, to make the valley 1 with a proper depth and a constant length, and then to form the bottom surface of the valley flat, and the foundation concrete 2 is poured on it. The poured concrete is cured and hardened at room temperature after a certain time.

Placing the foundation concrete 2 on the bottom surface of the bone (1) in order to allow the foundation concrete to support the pipe (3), as in the process described later, if the bottom surface of the bone (1) If the foundation concrete (2) is not poured, the pipe (3) may not be perfectly supported. Therefore, if some ground subsidence occurs on the pipe support surface after embedding, a part of the pipe may be broken or the connection part may be displaced. It is possible.

On the other hand, after the foundation concrete (2) laid on the bottom surface of the bone (1) by the above process is cured and put a plurality of pipes (3) to be embedded into the bone (1) using a separate equipment and then Each pipe is connected to each other while being supported on the foundation concrete (2), and some of the excavated soil or other members (stones, wedges, etc.) are not moved by the external force applied in the subsequent work process. )

When connecting each pipe (3) in the above one pipe one end and the other pipe other end is connected to each other, the one pipe is one part is expanded and the expansion part inner diameter is larger than the rest of the outer diameter is not expanded. One end of one pipe and the other end of the other pipe can be connected to each other.

Subsequently, the soil 1 to be excavated into the bone 1 or other members brought from the outside (soil, gravel, sand, etc.) is filled and compacted so that no settlement occurs, and then the pipe protective layer 5 is provided. When paving the paving material (4) such as concrete or asphalt over the protective layer of the pipe, the laying of the pipe 3 is completed under the road. The embedded pipe is used as a sewage pipe, a water pipe, or a gas pipe depending on the purpose.

However, the conventional pipe laying method is to excavate the road to make a bone (1) and then to install the foundation concrete (2) to the bottom surface of the bone, since the concrete must be completely long before the foundation concrete is actually buried In the process of work, it is necessary to wait for a long time after the foundation concrete is placed, so there was a great inconvenience due to the inability to use the road during the waiting time, and in the case of the construction company that carries out the construction, it is necessary to prepare for a safety accident that may occur. There was a problem that the construction cost is increased because the safety facilities must be installed.

In addition, when the pipe 3 is placed on the foundation concrete, the diameter of the pipe and the pipe is larger than the diameter of the rest of the pipe, so that only the pipe and the pipe are connected to the foundation concrete 2 and supported. Since the part is separated from the foundation concrete, a wedge or the like is inserted into the gap between the piping and the foundation concrete 2 to support the piping 3 before the soil or other member is filled into the valley 1. In the case of not supporting the pipe, if the pipe is under load after being buried, it easily sags and breaks, causing the fluid to leak through the pipe.

After the completion of laying, if water such as domestic sewage generated from each home or business flows into the valley during the use of the road, the groundwater level is increased because the water cannot be drained and continues to accumulate in the ground. As the water permeability worsens and the moisture content in the soil increases, there is a problem in that the durability of the pavement provides a cause of ground subsidence.

In particular, in the case of laying the pipe 3 by the conventional method in the narrow alley of the residential area, since the raw materials of the foundation concrete for placing on the bottom surface of the bone 1 must be taken from the main road, There was a problem of greatly falling, and when the foundation concrete was poured on the bottom surface of the bone (1), civil complaints are frequently recovered because the pile of excavated soil is left in the alley until the foundation concrete (2) is solidified. There was a problem that, even during the construction of people to come and go from time to time, but there is a problem that a safety accident occurs due to the limited installation of a separate safety facility due to the lack of free space.

On the other hand, in recent years, when laying the pipe (3) in the narrow alleys of the residential area, as well as shortening the period of time, due to the difficulty of material transport (incorporation of concrete transport vehicle is impossible), etc. In the case of using the road, since the support of the pipe is not firm after the completion of laying of the pipe (3), in this case, some of the methods are performed. If ground subsidence occurs even a little, it is not recommended because it causes a problem of leakage of fluid due to breakage of a part of the pipe or a misalignment of the connection part.

The present invention has been made in order to solve the above-mentioned conventional problems, after the process of laying the pipe by the excavation of the road by varying some of the process, the subsequent pipe laying process to be made quickly and firmly, as well as the pipe laying process If water, such as sewage from households or businesses, flows into the goal after being laid or buried in the valley, the water is collected immediately and drained to the main drain pipe buried in the main street.

1 is a flow chart sequentially showing a process of embedding a pipe by a conventional pipe laying method

Figure 2 is a pipe laying process diagram according to the conventional pipe laying method

3 is a cross-sectional view taken along the line II of FIG. 2.

Figure 4 is a flow chart showing a sequence of the process of embedding the pipe by the pipe laying method of the present invention

Figure 5 is a pipe laying process chart according to the present invention the pipe laying method

Figure 6 is a perspective view showing a drain pipe used for embedding the pipe in the pipe laying method of the present invention

7 is a cross-sectional view taken along the line II-II of FIG. 5.

8 is a cross-sectional view taken along line III-III of FIG.

Explanation of symbols for the main parts of the drawings

11.Goal 12.Drain pipe

12a. Through hole 13. Filter body

14. Formwork 15. Piping support

16. Gravel 17. Piping

18. Packing material 19. Recessed part

20. Piping Base

In the first aspect of the present invention for achieving the above object is to excavate the road to make a goal by the required length, and provided with a plurality of drain pipes having a predetermined length to provide a plurality of through holes in a part of the peripheral surface of each drain pipe Forming, and placing the through-hole drain pipe on the bottom surface of the bone and connecting the column in two rows long, supporting the formwork vertically on the drain pipe of each row, and Mixing a portion with a conventional solidifying agent and filling it between the molds, removing the formwork after a predetermined time, and providing a pipe support part, and filling the gravel with both outer parts of the pipe support part to fill the through-hole of the drain pipe with the gravel. Covering the forming portion, and inserting a plurality of pipes into the valley to support the pipe support in the longitudinal direction; Connecting each pipe to each other, filling the rest of the excavated soil with another member into the bone, compacting it so that no settling occurs, and paving the paving material over the compacted soil. A pipe laying method is provided.

In the second aspect of the present invention for achieving the above object, the bone is made to a certain depth, the bottom surface of the bone is connected to two rows of drain pipes formed with a plurality of through-holes in the longitudinal direction on a part of the circumferential surface, The inner portion of the drain pipe connected to the heat is provided with a pipe support portion to have a plurality of concave portions at appropriate intervals, and both sides of the pipe support portion is filled with gravel to cover the through-hole forming portion formed in the drain pipe, the pipe support portion A plurality of pipes are connected in the longitudinal direction while being supported, and each concave portion of the pipe support portion is provided with a pipe support while supporting a connection portion of each pipe. The soil is filled to protect it, and the packing is covered on the soil The pipe laying structure as gong is provided.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 4 to 8.

4 is a flowchart illustrating a process of embedding pipes by the pipe laying method according to the present invention, FIG. 5 is a process diagram of pipe laying according to the pipe laying method of the present invention, and FIG. Fig. 7 is a cross-sectional view taken along line II-II of Fig. 5, and Fig. 8 is a cross-sectional view taken along line III-III of Fig. 7, and the present invention is a length required to excavate a flat road to an appropriate depth. Making a groove 11, and providing a plurality of drain pipes 12 having a predetermined length to form a plurality of through holes 12a in a longitudinal direction on a part of the circumferential surface of each drain pipe; Winding the outer periphery of the cover with a filter body 13 such as a nonwoven fabric through which water can pass, and covering the through hole 12a, and through the drain pipe 12 in which the through hole is formed and the filter body 13 is wound. 12a drainage Placing it on the bottom surface of the bone 11 so as to be in the outer upper part with respect to the center of the diameter of (12) and connecting in two rows long, supporting the formwork 14 in a vertical state on the drain pipe 12 of each row And a part of the soil excavated to make the bone 11 is mixed with a conventional solidifying agent and filled into the form 14, and after a certain time, the form 14 is removed to support the pipe support 15. ) And filling the gravel 16 with a predetermined height to both outside portions of the pipe support part to cover the forming portion of the through hole 12a of the drain pipe 12 as the gravel, and the valley 11 Inserting a plurality of pipes (17) into the pipe support (15) in the longitudinal direction and connecting each pipe (17) with each other, and filling the bone 11 with the other members of the excavated soil And then chop so that no sinking occurs And the step of compaction of the soil over the packing crushing the packaging material 18, such as concrete or asphalt is carried out.

In addition, in the step of forming the pipe support 15, the process of forming the concave convex portion 19 at the appropriate intervals in the pipe support portion, followed by the process of installing the pipe support 20 to each concave portion When performing the step of connecting to each other while supporting the pipe 17 in the longitudinal direction to the pipe support 15, the pipe support 20 is supported by the pipe support 20, the pipe support is a mixture of soil and hardener ( Even if 15) is not hardened enough to support the pipe 17 to some extent, the weight of the pipe does not cause the pipe support 15 to collapse, and even if a separate wedge or the like is not inserted, it is cylindrical. The pipes do not roll.

Referring to the process of embedding the pipe in the ground by the pipe laying method as described above in detail as follows.

First, the road, which is the ground, is excavated using heavy equipment or manpower to make a valley 11 with a proper depth and a constant length, and then flatly forms the bottom surface of the valley.

Thereafter, a plurality of drain pipes 12 having a predetermined length are provided to form a plurality of through holes 12a in a longitudinal direction on a part of the circumferential surface of each drain pipe, and then the outer circumference of each of the drain pipes 12 having the through holes is formed as a nonwoven fabric. A through-hole 12a wound around the filter body 13 to cover the through-hole 12a, and the through-hole 12a integrally formed with the drain pipe 12 in which the through-hole is formed and the filter body 13 is wound, is referred to the center of the diameter of the drain pipe 12. To put on the bottom surface of the bone 11 to come to the outer upper portion, and then connect long in two rows.

In the above, the drain pipe 12 having the through hole 12a formed is wound around the filter body 13 such as a nonwoven fabric so that the filter body covers the through hole 12a in the subsequent pipe 18 embedding process or after completion of embedding. (11) In the process of flowing into the drainage pipe 12 through the through-hole 12a formed in the drainage pipe 12 after the water flows into the drainage pipe 12 such as household sewage generated in a home or a business, In order to filter the filter body 13, if the foreign material is not filtered and flows into the drainage pipe 12 together with the water, which is living sewage, the passages of the pipes 12a as well as the pipes in the drainage pipe 12 are blocked. It is understandable that they will not function properly.

In addition, when the drain pipe 12 having the through hole 12a is placed on the bottom surface of the bone 11, the through hole 12a comes to the outer upper part with respect to the center of the diameter of the drain pipe 12. During the process of laying the pipe 17 or after the completion of the embedding, water such as household sewage generated in each home or business flows into the valley 11 and then continues through the through hole 12a formed in the drain pipe 12. (12) In order to prevent it from coming out again when it flows into the inside, if the through-hole 12a formed in the drain pipe 12 does not come to the outer upper portion based on the center of the diameter of the drain pipe 12 If it comes to the part or to another part, it is understood that the water does not flow smoothly into the drain pipe 12 through the through hole 12a, and even if the water flows out immediately.

After the drain pipe 12 is placed on the bottom surface of the bone 11 by this process and connected in two rows for a long time, the mold 14 is placed vertically on the drain pipe 12 in each row, and then a separate member is placed. Do not fall by using a back, and a portion of the excavated soil to make a bone (11) is mixed with a suitable amount of a solidifying agent and filled between the mold (14) and waiting a certain time, the mixture of soil and solidifying agent filled between the mold This is not a complete state, but in the form of the solidified to have a pipe support (15), after removing the formwork (14) and then fill the gravel (16) to both outer parts of the pipe support (15) the gravel By the drain pipe 12 is covered to cover the forming portion of the through hole (12a).

In the above, the gravel 16 is filled to both outer portions of the pipe support part 15 so that the gravel covers the formation portion of the through hole 12a of the drain pipe 12. When water such as household sewage generated in each home or business flows into the valley 11, the water is relatively to go down as it continuously descends to flow into the through hole 12a formed in the drain pipe 12. This is to filter out various other foreign matter (soil, stone, straw, wood chips, etc.) of the large particles, when the various foreign matter is filtered by the gravel 16 through the through hole (12a) formed in the drain pipe (12) This is because when the sewage flows into the drain pipe 12, the flow becomes smoother.

As described above, after the gravel 16 is filled with both outer portions of the pipe support 15 to allow the gravel to cover the formation portion of the through hole 12a of the drain pipe 12, The pipe 17 is inserted and supported in the longitudinal direction to the pipe support part 15, and then each pipe 17 is connected to each other in two rows long. In this case, the diameter of the pipe part is larger than the diameter of the remaining part. Although only the connecting portion of the pipe support 15 is in contact with the support, and the remaining portion is thought to be separated from the pipe support 15 in the step of providing the pipe support 15 to form a concave portion 19 at a predetermined interval to the pipe support. The process of installing the pipe pedestal 20 to each of the concave parts, and then supporting the pipe 17 in the longitudinal direction to the pipe support 15, If the connection step is carried out, the connecting portion of each pipe is supported by the pipe support 20 and the remaining portion other than the connecting portion of the pipe 17 is lightly supported by the pipe support 15 so that the mixture of soil and hardener Even if the pipe support part is not actually hardened to the extent that it supports the pipe 17 to some extent, the weight of the pipe does not cause the pipe support part 15 to collapse, as well as to insert a separate wedge or the like. Even if it is not put in, the cylindrical pipe does not roll.

On the other hand, if the pipe support 18 is used to support the connecting portion of the pipe 17 in the process of embedding the pipe, as described above, the pipe support part 15 completely supports the pipe 17 It is understood that the overall work time is greatly shortened because it does not have to wait until the degree, and the pipe support part 15 is completely hardened in the ground after the completion of the pipe laying, and it is understood that the support role of the pipe 17 is performed in a perfect state. Do.

In the state in which the pipe 17 supported by the pipe support 15 is connected, the connecting portion of the pipe is larger in diameter than the rest of the pipe, when one pipe and the other pipe are connected to one end of the pipe. Since the other pipe is to be fitted to the other end of the other pipe is the inner diameter of the connection portion is larger than the rest of the outer diameter.

Continue by filling the remaining parts of the excavated soil and other members into the bone (11) and chopped well to prevent settlement, and then paving the pavement (18) such as concrete or asphalt over the compacted soil and laying the pipe under the road (17). The buried is completed, the buried pipe is used as a sewage pipe and water pipe or gas pipe depending on the purpose.

It is understood that the soil compacted and filled into the bone 11 serves as a pipe protective layer 21 for protecting the pipe 17.

On the other hand, when the pipe 17 is buried by the method of the present invention, the drain pipe 12 connected in two rows to the bottom surface of the bone 11 is in the process of embedding the pipe 17 as described above or after the completion of the pipe laying. When water such as living sewage flows into the valley 11, it collects it and drains it immediately, so that the end of the drain pipe 12 is buried in a large road before filling soil and other members into the valley 11. It is understandable that it should be connected to the main drain.

Then, when looking at the entire structure of the pipe 17 is buried by the method of the present invention, the bone 11 is made to a certain depth, the bottom surface of the bone has a plurality of holes in the longitudinal direction in some of the circumferential surface The formed drainage pipes are connected in two rows, and a filter body 13 such as a nonwoven fabric is wound around the outer periphery of the drainage pipes connected in two rows, covering the through hole 12a, and the inner portion of the drainage pipes 12 connected in the second row. The pipe support part 15 is provided, and both sides of the pipe support part 15 are filled with gravel 16 to cover the through hole 12a formed in the drain pipe 12, and the pipe support part has a plurality of The pipe 17 is connected in the longitudinal direction while being supported, and the valley 11 is filled with soil to protect the pipe 17 supported by the pipe support 15, and includes a pipe protection layer 21. And said A packaging material (18), such as concrete or asphalt pavement ssuiwojyeo is filled above the soil (11).

In the above, the through hole 12a formed in the drain pipe 12 of each row is located at the upper outer side based on the vertical center line of the drain pipe 12, which is connected to the drainage pipe 12 through the through hole 12a to the living sewage. When the same water flows in, the flow is made smoothly and in order to prevent the flow out again through the through hole (12a).

In addition, the pipe support part 15 supporting the pipe 17 is provided with a concave portion 19 at appropriate intervals, and each of the concave portions is provided with a pipe support 20 to support the connecting portion of the pipe 17. That is, when the pipe 17 is connected to the pipe support 15 so that the pipe support 20 supports the connecting portion of the pipe 17 so that the pipe 17 does not roll or occur. It is to

In the structure of the present invention, when the pipe 17 is embedded, water, such as household sewage generated in each home or business, flows into the valley 11 originally made for embedding the pipe 17. The water flows down into the lower part, continues through the through hole 12a formed in the drain pipe 12, and then flows into the drain pipe 12, and then is led to a main drain pipe buried in a large road along the drain pipe. Prior to flowing into the drain pipe 12 through the through hole 12a formed in the drain pipe 12, the gravel 16 is stacked on both side portions of the pipe support 15 to cover the through hole 12a of the drain pipe 12. And the filter body 13 which is wound around the drain pipe 12 and covers the through hole 12a continuously, so that foreign matter is included in the water flowing into the drain pipe 12 in this process. As the foreign matter is filtered by the gravel 17 and the filter body 13, the phenomenon that the inside of the drain pipe 12 is blocked by the foreign matter does not occur.

The filter body 13 covering the through hole 12a formed in the drain pipe 12 is used as a nonwoven fabric in the embodiment of the present invention, but the present invention is not necessarily limited thereto. I do not want to.

In addition, the pipe support portion 15 for supporting the pipe 17 in the structure of the present invention is the main material is the soil and the solidifying agent, when the soil and the solidifying agent, the soil is short time (concrete) due to the rapid solidification of the solidifying agent Rather than hardening quickly, but specifically solidifying time is hardened depending on the amount of solidifying agent used), the embedding time of the pipe 17 is reduced.

Therefore, the present invention has various effects as follows.

First, even if water such as domestic sewage flows into the bone during or after the pipe is laid, the water is drained straight through the drainage pipe, so the groundwater level is lowered as the water flowing into the bone is not kept in the ground. The moisture content in the soil decreases, which improves the durability of the pavement, preventing ground subsidence.

Secondly, in order to firmly support the pipe in the past, but the foundation concrete is placed on the bottom surface of the bone, but the present invention does not need to place the foundation concrete, even if the pipes are laid in the narrow alleys of the residential area, the work time can be drastically reduced. The convenience of work is also provided, and since the excavated soil is used from the support stage of the pipe, it is possible to pass a person without any inconvenience in a short time.

Third, as mentioned above, the buried work of the pipe is made quickly and conveniently, and since the making of the goal is possible, since the human traffic is available immediately from the beginning of the buried pipe, there is almost no complaint. In addition, the risk of safety accidents occurring in the course of human traffic is almost eliminated.

Claims (8)

Excavating the road to make the goal as long as necessary, Providing a plurality of drain pipes having a predetermined length to form a plurality of through holes in a part of the circumferential surface of each drain pipe in a longitudinal direction; Placing the drain pipe on which the through hole is formed on the bottom surface of the bone and connecting the column in two rows; Supporting the formwork vertically on the drain pipe of each row; Mixing a portion of the excavated soil with a conventional hardener and filling it between the molds to make the bone, Removing the formwork after a certain time and providing a pipe support; Filling the gravel with both outside portions of the pipe support to cover the through-hole forming part of the drain pipe as the gravel; Inserting a plurality of pipes into the valley to support the pipe support in a longitudinal direction, and then connecting each pipe to each other; Filling the bone with the rest of the excavated soil and another member, and then compacting it to prevent settlement; The method of laying the pipes characterized in that the step of wrapping the packing material on the compacted soil is carried out. The method of claim 1, A filter that allows water to pass through the outer circumference of each drain pipe between forming a plurality of through holes in a longitudinal direction on a part of the circumferential surface of the drain pipe, and placing the drain pipe on the bottom surface of the bone and connecting them in two rows. A method of laying pipes, characterized in that the step of winding through a sieve to cover the through hole is further performed. The method of claim 2, A method of embedding pipes, characterized in that the filter body is made of a nonwoven fabric. The method of claim 1, The method of embedding the pipe, characterized in that when the through-hole is formed on the bottom surface of the valley so that the through hole to the outer upper portion relative to the center of the diameter of the drain pipe. The method of claim 1, In the step of forming a pipe support part, the process of forming a concave part at appropriate intervals in the pipe support part is carried out, followed by the process of installing a pipe support to each concave part, and then supporting the pipe in the longitudinal direction to the pipe support part. According to the step of connecting to each other, the pipe embedding method characterized in that the connecting portion of each pipe is supported by the pipe support. The bone is made to a certain depth, the bottom surface of the bone is connected to the drain pipe formed with a plurality of through holes in the longitudinal direction in some of the circumferential surface in two rows, the inner portion of the drain pipe connected to the two rows with a plurality of appropriate intervals A pipe support part is provided to have a concave part, and both outer side parts of the pipe support part are filled with gravel to cover the through hole forming part formed in the drain pipe, and the pipe support part is connected in the longitudinal direction while supporting a plurality of pipes. The pipe support is installed at each recess of the pipe support in a state in which the connection portion of each pipe is supported, and the valley is filled with soil to protect the pipe supported by the pipe support, and a pipe protection layer is provided. Buried pipes characterized in that the packaging material is written on the soil filled in the bone Article. The method of claim 6, And a filter body such as a nonwoven fabric is wound around the outer circumference of the drain pipe so that the through hole formed in the drain pipe is covered by the filter body. The method of claim 6, A through-hole formed in the drain pipe is located in the upper portion on the outer side with respect to the diameter center of the drain pipe.