KR100331231B1 - The multistage installation method of pressure and gravity pipe - Google Patents

Abstract

In the present invention, a relay pumping station is inevitably attached to a sewer line leading to a sewage treatment plant, and in the case of installing a gravity sewage pipe and a pressure sewage pipe required therein, the problem of traffic disturbance and civil complaints is minimized within the minimum land area. In order to provide a new method of construction of sewage pipes consisting of gravity sewer pipes and pressure sewer pipes, which can be easily installed, the pipe grooves (a) of the depth corresponding to the height of the double-layer pipe on the road on which the sewage pipes will be constructed are excavated. In this pipe groove, pipe supports are placed at regular intervals, and the lower pipe is placed on the pipe, and then the intermediate supports are fixed on each pipe support, and sand compaction molds are installed along the pipe groove in the space between the lower pipe and the pipe groove. After filling up, proceed to compaction and backfilling up to the intermediate bearing top, Put a tube retains its backing for wieda to repair plumbing pipe and the upper soil backfilling and paving.

Description

The multistage installation method of pressure and gravity pipe

In the present invention, a relay pumping station is inevitably attached to a sewer line leading to a sewage treatment plant, and in the case of installing a gravity sewage pipe and a pressure sewage pipe required therein, the problem of traffic disturbance and civil complaints is minimized within the minimum land area. It is about the construction method of the new sewer pipe which consists of gravity sewer pipe and pressure sewer pipe which can be easily constructed.

In laying complex sewage pipes, especially in hilly areas, it is necessary to minimize construction costs by minimizing the construction cost and minimize traffic obstacles.

Under the roads of the city, there are complex burials such as power pipes, communication pipes, water and sewage pipes, and in hilly areas, gravity pumps and sewage are pumped to send sewage to the sewage treatment plant. The pressure transport pipe is installed in two rows.

However, if there is a lack of land for laying such sewer pipes due to urban conditions, or if it is expected to cause enormous obstacles in traffic communication due to excessive use of roads, civil complaints resulting from traffic jams and loss of construction costs are enormous. If you don't prepare for it, you're in trouble.

In particular, when the sewage pipes are buried in the hills (3) as illustrated in FIG. 1, a relay pumping station (1) is installed at regular intervals to transport sewage to the sewage treatment plant (2). 4) and the pressure sewer (5) are installed in parallel. As a result, the seriousness of the problem mentioned above is inevitably added.

The present invention is located in the hills on the sewage pipeline leading to the sewage treatment plant, so the relay pump station is inevitable, and the gravity sewage pipe required for the collection of sewage and the pressure sewer pipe for transporting the collected sewage are within the minimum land area range. The aim is to provide a sewer pipe construction method consisting of gravity sewer pipes and pressure sewer pipes that can be easily constructed while minimizing the possibility of traffic disturbances and complaints.

The present invention in the construction of the gravity pipe and the pressure pipe between the sewage transfer relay station and the subsequent relay pump station, and between the final relay pump station and the sewage treatment plant by constructing the gravity pipe and the pressure pipe in a multi-layered type to reduce the burden on the site and trouble traffic It provides a method of constructing sewer pipes that can minimize the possibility of complaints caused by triggers.

1 is a schematic diagram of a sewer pipe (pressure sewer pipe-gravity sewer pipe) from a relay pump station to a sewage treatment plant;

Figure 2 is a front view of the sewage pipe installed in multiple layers according to the present invention

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

4 is a perspective view of the tube support and the intermediate support and the tube support

5 is a plan view illustrating an arrangement example of a mold for sand compaction;

<Description of the symbols for the main parts of the drawings>

a: Piping groove b: Lower pipe

c: upper pipe 1: relay pumping station

2: sewage treatment plant 3: hilly area

4: gravity sewer pipe 5: pressure sewer pipe

6: tube support 7: intermediate support

8: stand for straight pipe h: temporary fixture

2 and 3, the gravity sewage pipe 4 and the pressure sewage pipe on the road between the relay pump station 1 and the subsequent relay pump station 1 for the sewage transfer or the section from the relay pump station 1 to the sewage treatment plant 2 In embedding (5) in parallel, the pressure sewage pipe (5) is installed above the gravity transport pipe (4) or directly below the gravity sewer (4). It is the technical core of the invention.

Specifically, on the road to be piped, provisional facilities such as safety plates are installed and excavated to a scale sufficient to construct a pipeline to form a pipe groove a. At this time, rather than installing the upper pipe (c) and the lower pipe (b) in multiple layers in consideration of this, the depth of the pipe groove (a) is sold deeper than when the single-layer pipe.

In the pipe groove (a), the pipe support (6) is installed at regular intervals, for example, about 2 places per cast iron pipe to pipe the lower pipe (b), and then the intermediate support (7) on the pipe support (6). Put on and fill the space between the bottom pipe (b) and the pipe groove (a) to fill the sand (d). Filling and compacting the sand (d) is carried out to backfill the soil (e) to the upper surface of the intermediate support (7) raised above the lower pipe (b) with one layer of approximately 30cm.

At this time, while sandwiching the sand compaction frame (f) between the front and rear pipe support (6), between the intermediate support (7) and between the pipe support (8), the sand (d) is filled with water by dividing it into a layer of 30 cm thickness. Sprinkle chopped.

Here, the lower pipe (b) is the gravity sewage pipe (4) and the upper pipe (c) is the pressure sewage pipe (5) or vice versa.

When the sand (d) filling and the soil backfilling (e) to the lower pipe (5) are completed as described above, the pipe support (8) is placed on all the intermediate supports (7), and then the upper pipe (c) is piped thereon. .

In FIG. 4, a lower arc-shaped tube groove 61 is formed at the center of the upper surface of the tube support 6 so as to safely sit the lower half of the lower tube b, and an intermediate support fitting groove 62 is formed at the center of the upper surface of the tube support 6. It is formed as a standard product of concrete for stabilizing the lower pipe (b) on the base of the pipe groove (a).

In addition, the intermediate support (7) forms a fitting groove (71) for the direct pipe support (8) in the center of the width of the upper surface, and the upper half arc-shaped tube groove (as shown in the upper half of the lower tube (b)) in the center of the bottom surface ( 72) is formed in the center of the width of the bottom of the fitting projections 73 for the pipe support (6), the lower pipe (b) after the construction is coupled to the upper support pipe support (6) It is effective to prevent the load of the upper pipe (c) from adversely affecting the lower pipe (b) by maintaining a constant height with the gravity-type sewer pipe (4) to prevent interference with each other, which is also a concrete standard product.

And the tube support stand (8) forms the lower half arc-shaped tube groove (81) to hang on the upper half of the upper tube (c) in the center of the bottom and the engaging protrusion (82) for the intermediate support (7) in the center of the width thereof. ) Is to support the upper tube (c) so as not to contact the lower tube (b) on the intermediate support (7). This is also a concrete standard product.

Frame grooves 63, 74, and 83 for inserting and adjusting sand fender molds (f) on both front and rear edges of the pipe support (6), the intermediate support (7), and the pipe support (8) as shown in FIG. ) Can be stabilized by forming the sand compaction f.

In the same manner as described above, the mold (e) for the intermediate support (7), the sand (d) filling and backfilling of the soil (e) and the dismantling of the temporary (h) and the packaging recovery (g) in the order.

As described above, the sewage pipe construction method of the present invention has a vertical double-layered sewer pipe composed of a gravity type sewer pipe and a pressure sewage pipe with a hilly slope, so that the burden of land shortage on the road is minimized and civil complaints are generated while minimizing traffic inducing factors. It is a method of constructing sewer pipes that can greatly reduce the burden of

In particular, the present invention has a narrow road, where even heavy traffic is expected, or even when the road is wide, the traffic is frequent due to frequent traffic, and two sewer pipes are provided on a single line of sewer pipes in hilly areas. If so, the true value appears.

Claims (4)

Excavate the pipe groove (a) of the depth corresponding to the height of the double-layer pipe on the road on which the sewage pipe is to be constructed, and arrange the pipe support at regular intervals in this pipe groove, install the lower pipe and pipe the intermediate support for each pipe support. Install and fix the sand compaction mold along the pipe groove in the space between the lower pipe and the pipe groove, proceed to fill the sand and back up the water compaction and soil back to the upper surface of the intermediate bearing, A method of constructing a sewer pipe, which consists of a gravity sewer pipe and a pressure sewer pipe, wherein the upper pipe is piped, the soil is filled back, and the packaging is recovered. The gravity sewer pipe and pressure of claim 1, wherein the pipe support is a lower circular arc surface on which an upper surface can place a lower half of a lower pipe, and a fitting groove for fitting protrusions provided on the bottom of the intermediate support is formed at the center of the lower tube. Construction method of sewer pipe consisting of sewer pipe. According to claim 1, wherein the intermediate support is formed in the center of the width of the upper surface of the upper surface of the upper half circular arc which can be fitted to the upper surface of the lower tube is formed with a fitting groove into which the fitting protrusion is fitted And a sewer pipe composed of a gravity sewer pipe and a pressure sewer pipe having a fitting protrusion formed at the center of the width thereof and fitted into the fitting groove of the pipe support. According to claim 1, wherein the tube support is a lower half arc surface that can be covered by the upper surface of the upper tube and the center of the width is formed in the center of the width of the engaging projection is fitted to the fitting groove given on the upper surface of the intermediate bearing Construction method of sewer pipe which consists of gravity sewer pipe and pressure sewer pipe to be assumed.