KR101476369B1 - Gravity flow type water diverting apparatus and water diverting method - Google Patents

Abstract

The present invention relates to a natural flowing type water diverting apparatus and a water diverting method thereof. Even if the provided natural flowing type water diverting method can be performed without power by using the different water level of sewage water without a large water pump, the present invention is able to divert water without a leakage even when the inner wall of a manhole is seriously damaged. The water diverting apparatus includes: a first packing module which induces sewage water to flow through a hose for water diversion while the sewage water does not rise along the inner wall of a first manhole by connecting an end part of the hose for water diversion with the outlet of a sewage pipe connected to an upstream side in the first manhole so that the sewage water flows; and a second packing module which prevents sewage water from rising along the inner wall of a third manhole by installing the third manhole of third manholes positioned in the upstream side of the first manhole in one place in an order of the closest position from the first manhole and connecting the outlet of the sewage pipe connected to the upstream and the inlet of the sewage pipe connected to the downstream so that sewage water flows between the outlet and the inlet about the corresponding third manhole.

Description

TECHNICAL FIELD The present invention relates to a water dropping device and a water turning method that can be applied to a damaged manhole,

The present invention relates to a water turning method, and particularly, it is possible to carry out water turning simply and effectively even in a medium and large-sized pipe by using the water level difference of a sewage water without a large water pump. Even if a manhole inner wall is severely damaged, And more particularly, to a self-falling water turning device and a water turning method.

In general, the water turning work refers to a construction work that bypasses the sewer pipe where the flowing sewage is buried and flows. In order to repair the pipeline buried in the underground, priority is given to various un-excavation work or work such as unscrewing work or CCTV shooting It is practically essential.

In recent years, in order to repair the pipeline, it is necessary to perform drilling that can repair the pipeline without excavating the soil, instead of excavation of excavated soil using heavy equipment, CCTV (Closed-Circuit Television) photographing is actively performed.

The excavation work and the CCTV photographing as described above are highly likely to damage the communication cable, the electric power cable and the city gas pipe buried in the underground, as well as the road damage, while using heavy equipment such as excavator, And it is in a tendency to increase rapidly mainly in the urban area or the new city land development site due to the elimination of most of the problems caused by the excavation work.

Accordingly, as described above, since the un-excavation work and the CCTV photographing work are rapidly increasing at the construction site, the water turning operation precedent thereto is becoming more urgent than ever before.

1 is a reference diagram for explaining a water turning method according to the prior art.

As shown in the figure, according to the conventional water turning method, the upstream side pipeline P2, the intermediate pipeline P1, and the downstream side pipeline P3 are sequentially arranged from the upstream side to the downstream side via the manholes M1 and M2 A large water pump 10 is installed on the ground and a water turning pipe 30 is provided so as to pass through the ground before and after the water pump 10.

According to such a construction, the water pump 10 is operated to pump the sewage W through the upstream manhole Ml and pumped up to the ground, and then discharged through the manhole M2 located on the downstream side to perform the water turning operation I could.

However, such a conventional water turning method has a problem in that it requires the use of a water pump 10 which consumes a lot of electric power and is inconvenient to move.

In the case of using such a large water pump (10), there was a problem of complaints of nearby residents due to noise, and there was also a problem of contamination due to oil spill due to the use of gasoline and case as fuel. In addition, since the workability of the site is low and the workforce is too high, it has been a problem of raising the overall construction cost due to labor costs.

More specifically, since the amount of sewage that can be pumped up by the water pump 10 is limited, it is possible to perform a water turning operation for small-sized pipelines having a small amount of sewage W, There is a problem that it is difficult to rotate the water in the middle and large pipes.

Korean Patent Publication No. 10-2010-0088980 (Aug. 11, 2010)

Accordingly, it is an object of the present invention to provide a water pump that can easily perform water turning even in a medium or large-sized pipe by using a water level difference between sewers without a large water pump, Which can be carried out safely without worrying about leakage even in a severely damaged state, and a water turning method.

In order to accomplish the above object, according to the technical idea of the present invention, there is provided a natural falling type water turning apparatus, comprising: an outlet of a sewer pipe connected to an upstream side of a first manhole and an end of the water turning lake, A first packing module for guiding the water to flow through the lake for water turning while not rising along the inner surface of the first manhole; And an inlet of a sewer pipe connected to an outlet of the sewer pipe connected to the upstream side of the third manhole and an inlet of the sewer pipe connected to the downstream side is installed at least at one place in the order of closest to the first manhole at the upstream side of the first manhole, And a second packing module for preventing the sewage from flowing along the inner surface of the third manhole by connecting sewage to flow.

Here, the first packing module may include a first inlet pipe installed at an outlet of a sewer pipe connected to the upstream side of the first manhole; A first packing member installed on an outer circumferential surface of the first inflow pipe and being tightly adhered to the inner circumferential surface of the sewage pipe while being inflated when air is injected; A first outlet pipe installed at an inlet of a sewage pipe connected to a downstream side of the first manhole and provided with a first opening and closing member for selectively blocking the flow of sewage; And a first connection pipe having a connecting pipe connected to one end of the water turning lake, the first connecting pipe being connected to the first inlet pipe and the first outlet pipe, .

The first packing module is supported on the inlet of the sewer pipe connected to the downstream side of the first manhole so as to cross the inlet and supports the first outlet pipe while allowing the flow of sewage, And a blocking plate attached to an outer circumferential surface of the first manhole and supporting the first inlet pipe while being closely attached to the inner circumferential surface of the sewer pipe connected to the upstream side of the first manhole.

In addition, the first packing module may include: a cylinder that advances the arm rearward in a state where the first packing module is installed on the strut and contacts the front surface of the blocking plate so as to support the block; And a first air tube that expands when being injected and is closely attached to the inner circumferential surface of the sewage pipe.

In addition, a bellows cylinder is provided at both ends of the strut to extend when air is injected.

Further, when air is injected between the first inlet pipe and the first connection pipe, between the first outlet pipe and the first connection pipe, between the one end of the water turning lake and the connection pipe, A ring-shaped second air tube, a third air tube, and a fourth air tube are further provided.

The second packing module may further include a pair of second inlet / outlet pipes respectively installed at the inlet of the sewer pipe connected to the outlet of the sewer pipe connected to the upstream side of the third manhole and the downstream side of the sewer pipe connected to the upstream side of the third manhole, And a second connection pipe formed of a body of a bellows pipe connecting the pair of second inlet / outlet pipes and capable of expansion and contraction .

Further, a ring-shaped fifth air tube is installed between the second inlet / outlet pipe and the second connection pipe so as to connect water between the second inlet / outlet pipe and the second connection pipe while expanding when air is injected thereinto .

A first connection module installed at the first manhole entrance to support the water turning lake in the middle and supporting the water; And a second connection module installed at the entrance of the second manhole and supporting the water-turning lake in the middle.

The first connection module may include a first cover installed at the entrance of the first manhole and blocking the entrance of the first manhole, and a second cover installed along the periphery of the first cover, A first air packing in the form of a ring that fixes the first cover to the inlet of the first manhole and contracts when the air is discharged to release the fixing of the first cover to the inlet of the first manhole, And a first intermediate connection pipe installed in the form of a through-hole so as to connect the water turning lake in the middle.

In addition, the first intermediate connection pipe may be provided with a second opening / closing member for selectively blocking the flow of sewage.

In addition, a ring-shaped sixth air tube and a seventh air tube are provided at the front end and the rear end of the first intermediate connection pipe, respectively, which swell when air is injected and water-tightly connect the water to the water- .

The second connection module may include a second cover installed at the entrance of the second manhole to block the entrance of the second manhole, and a second cover installed along the periphery of the second cover, A second air packing for fixing the second cover to the inlet of the second manhole and contracting when the air is discharged to release the fixing of the second cover to the inlet of the second manhole; And a second intermediate connection pipe installed in the form of a through-hole to connect the water-turning lakes in the middle.

Further, the second intermediate connection pipe may be provided with a spray nozzle for spraying air in the direction of flow of sewage.

And a third packing module for connecting the inlet of the sewer pipe connected to the downstream side of the second manhole and the other end of the water turning lake so that sewage flows,

The third packing module may include a third outlet pipe installed at an inlet of a sewer pipe connected to a downstream side of the second manhole and a third outlet pipe provided at an outer peripheral surface of the third outlet pipe, And an L-shaped third connection pipe for connecting the rear end of the third outflow pipe and the other end of the water turning lumen in the middle.

According to another aspect of the present invention, there is provided a method for turning a natural downfall water, comprising the steps of: connecting an outlet of a sewer pipe connected to an upstream side of at least one of third manholes located in the upstream side of the first manhole, Preventing the sewage from flowing along the inner surface of the third manhole during the water turning by connecting sewage flows between the entrances of the sewer lines; The outlet of the sewage line connected to the upstream side of the first manhole and the one end of the water turning lake are connected so that the sewage flows so that the sewage flows through the water turning lake without coming up along the inner wall of the first manhole The present invention is characterized in its technical construction.

Here, the sewage water is connected to the inlet of the sewage line connected to the downstream side of the second manhole and the other end of the water-turning lake so as to flow the sewage, so that the sewage flows along the second manhole or is connected to the second manhole, To prevent the air from flowing back through the outlet of the air conditioner.

The method may further include the step of injecting air in a flow direction of the sewage water at one point inside the water turning lake.

The natural falling water turning device and the water turning method according to the present invention can easily and efficiently perform water turning even in the middle and large pipe by using the water level difference of the sewage without a large water pump. It is possible to reliably rotate the water without worrying about leakage even when the inner surface of the manhole is severely damaged.

In addition, since the water pump is connected from the first packing module to the first connection module, the second connection module, and the third packing module by the air pressure, the overall installation work and disassembly work can be performed very quickly have.

In addition, the first packing module and the second packing module can be stretched and contracted by a corrugated tube so that it can be easily adjusted in the field according to the installation environment.

Further, in the first packing module of the first packing module, it is possible to support the part, which is to withstand the underwater pressure, by using the strong supporting force of the strut.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Fig. 2 is a view showing the state of use of the water spinning device according to the embodiment of the present invention
3 is a side view for explaining the configuration of the first packing module in the water spinning device according to the embodiment of the present invention
4 is a partial side sectional view for explaining the configuration of the first packing module in the water spinning device according to the embodiment of the present invention;
5 to 7 are partial sectional views for partially explaining the configuration of the first packing module in the water spinning apparatus according to the embodiment of the present invention.
8 is a side sectional view for explaining the configuration of the second packing module in the water spinning device according to the embodiment of the present invention
9 is a side sectional view for explaining the configuration of the first connection module in the water turning device according to the embodiment of the present invention
10 is a side sectional view for explaining the configuration of the second connection module in the water turning device according to the embodiment of the present invention
11 is a side sectional view for explaining the configuration of the third packing module in the water turning device according to the embodiment of the present invention

The method and apparatus for spinning a natural falling water according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing. In the accompanying drawings, the dimensions of the structures are enlarged to illustrate the present invention, and are actually shown in a smaller scale than the actual dimensions in order to understand the schematic structure.

Also, the terms first and second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. On the other hand, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

In order to secure a construction section for a sewer line, sewer water flowing in the sewer line is bypassed to the ground through an upstream manhole, and then re-circulated through a manhole downstream It is a gravity flow type water turning system that allows water to flow naturally through the sewer water level without applying any power, while guiding the water to flow through the sewer line. Even when the inside of the manhole is severely damaged, It is structured so that it can be carried out safely.

Hereinafter, a method of turning a natural falling-type water and a water turning apparatus according to an embodiment of the present invention will be described.

3 is a side view for explaining the construction of the first packing module in the water spinning device according to the embodiment of the present invention, Sectional view for explaining the construction of the first packing module in the water spinning device according to the embodiment of the present invention. 5 to 7 are partial side views for partially explaining the construction of the first packing module in the water spinning apparatus according to the embodiment of the present invention.

As shown in FIG. 2, the water turning device according to the embodiment of the present invention is characterized in that the sewage flowing in the sewage pipe is grounded through a first manhole (M1) located at a relatively upstream side by a water turning lake (H1) The first manhole M1 including the water turning lake H1 and the second manhole M2 located downstream of the first manhole M1 can return to the sewer line and flow through the second manhole M2. A second connection module 400 and a third packing module 500 installed in the second manhole M2 region and a second connection module 400 installed in the second manhole M2 region, And a second packing module 100 installed in the area of the third manholes M3 located on the upstream side with respect to the first manhole M1.

In the water turning device according to the embodiment of the present invention, since the sewage does not come into contact with the inner wall of the manhole during the water turning, the water can be turned without worrying about the leakage even when the inner wall of the manhole is severely damaged. And it is structured so that installation and disassembly work can be done very easily by actively utilizing air pressure.

Hereinafter, the configuration of a water spinning device according to an embodiment of the present invention will be described in detail with reference to the above-described components.

The first packing module 200 serves to connect the outlet of the sewer pipe connected to the upstream of the first manhole M 1 and the one end of the water-turning lane H 1 so that sewage flows. 3, the first packing module 200 includes a first inlet pipe 211, a first packing member 212, a blocking plate 213, a first outlet pipe 221, A strut 222, and a first connection pipe 231.

The first inflow pipe 211 is installed at an outlet of a sewer pipe connected to the upstream side of the first manhole M1. The first packing member 212 is a tube- And is tightly adhered to the inner circumferential surface of the sewage pipe while being expanded when air is injected. The first packing member 212 can stably support the first inflow pipe 211 with respect to the sewage pipe by air injection and block the sewage water from flowing.

The blocking plate 213 is installed on the outer circumferential surface of the first inflow pipe 211 and is attached to the inner circumferential surface of the sewage pipe (sewage pipe connected to the upstream side of the first manhole Ml) The first inlet pipe 211 is supported and the double water pipe is blocked so that the sewage can not flow. A first air tube 214 is installed on the outer circumferential surface of the blocking plate 213. The first air tube 214 is a ring-shaped tube. When the air is injected into the first air tube 214, the first air tube 214 is tightly adhered to the inner circumferential surface of the sewer pipe. The first air tube 214 secures the shutoff plate 213 to the sewage line by air injection to effectively block sewage from flowing. The detailed configuration of the blocking plate 213 is shown in detail in FIGS. 5 and 6. FIG. Referring to the drawing, the blocking plate 213 is formed to have a "C" -shaped fitting portion for fitting the first air tube 214 on the outer peripheral surface thereof, and is configured to be separated and assembled. According to this configuration, the size of the blocking plate 213 becomes large when the large-diameter sewer pipe is in charge. In this case, the blocking plate 213 is easily detached from the first manhole M1 through the inlet, And can be assembled and installed inside the manhole M1.

The first outlet pipe 221 is installed at an inlet of a sewer pipe connected to the downstream side of the first manhole M1 and has a first opening and closing member 226 for selectively blocking the flow of sewage. 4, the first opening and closing member 226 may be configured to selectively block the internal flow path of the first outlet pipe 221 while moving back and forth across the first outlet pipe 221, Closing valve of the first embodiment. According to the structure in which the first opening and closing member 226 is provided, when the first packing module 200 is installed, the flow of sewage through the first outlet pipe 221 is allowed so as not to receive the water pressure, The first opening and closing member 226 cuts off the flow of the sewage through the first outlet pipe 221 so that the entire sewage can flow through the water turning lake H1.

The strut 222 is coupled with the first outflow pipe 221 and supports the first outflow pipe 221. The strut 222 extends in a direction crossing the inlet of the sewage pipe connected to the downstream side of the first manhole M1 And is supported over its ends. At both ends of the struts 222, a bellows cylinder 222a is provided, which is extended when the air is injected and reduced when the air is exhausted. Thus, the length of the strut 222 can be expanded and contracted according to the diameter of the sewer pipe. The strut 222 is provided with a cylinder 225 for advancing the arm 225b rearward from the main body 225a so as to support and support the front surface of the shielding plate 213. [ When the cylinder 225 is installed, the blocking plate 213 can be stably supported so as not to be pushed by the water pressure by using the supporting force of the strut 222 which is most firmly supported by the end of the sewer pipe.

The first connection pipe 231 is connected to the first inlet pipe 211 and the first outlet pipe 221 and is formed of a body of a corrugated pipe which can be expanded and contracted. A connecting pipe 232 is connected to a part of the body of the first connection pipe 231 and connected to one end of the water turning lake H1. When the first connection pipe 231 is provided as a corrugated pipe, the length of the first packing module 200 can be easily adjusted to a length suitable for installation in the field. When air is injected between the first inlet pipe 211 and the first connection pipe 231 and between the first outlet pipe 221 and the first connection pipe 231, A ring-shaped second air tube 216 and a third air tube 224 are provided. This makes it possible to connect or disconnect the first inlet pipe 211, the first connection pipe 231, the first outlet pipe 221 and the first connection pipe 231 very easily. The second air tube 216 and the third air tube 224 are inserted into the first connection pipe 231 and the second connection pipe 221 so that the second air pipe 216 and the third air pipe 224 can be inserted into the bracket 215, .

As shown in FIG. 7, a ring-shaped fourth air tube 233 (see FIG. 7) is provided between the one end of the water turning lake H1 and the connecting pipe 232, The connection pipe 232 and the water-turning lane H1 can be connected easily.

FIG. 8 is a side cross-sectional view for explaining the configuration of the second packing module in the water spinning device according to the embodiment of the present invention.

The second packing module 100 is provided inside the third manholes M3 located upstream of the first manhole Ml when the water is turned by blocking the outlet of the sewer pipe connected upstream in the first manhole Ml. Thereby preventing sewage from leaking through the damaged inner wall gap of the third manhole M3 by preventing the sewage from rising along the inner wall. To this end, the second packing module 100 comprises a pair of second inlet / outlet pipes 110, a second packing member 140, and a second connection pipe 150 as shown in FIG.

The second inlet pipe 110 is installed at an inlet of a sewer pipe connected to the outlet of the sewer pipe connected to the upstream side of the third manhole M3 and the downstream side of the sewer pipe connected to the downstream side of the third manhole M3, And an air tube which is installed on the outer circumferential surface of the main body 110 and is tightly adhered to the inner circumferential surface of the sewage pipe while being inflated when air is injected.

In addition, the second connection pipe 150 is formed of a body of a corrugated pipe that connects the pair of second inlet / outlet pipes 110 to allow the sewage to flow therethrough. When the second connection pipe 150 is provided as a corrugated pipe, the second connection pipe 150 is connected to the outlet of the sewer pipe connected to the upstream side of the third manhole M3 and the inlet of the sewer pipe connected to the downstream side, The length can be adjusted. In addition, air is injected into the space between the second inlet pipe 110 and the second coupling pipe 150 to connect water tightly between the second inlet pipe 110 and the second coupling pipe 150 while being expanded A fifth air tube 130 in the form of a ring is provided so that it can be quickly connected. Referring to the drawing, a ring-shaped bracket 120 having a U-shaped cross section is installed at the end of the second inlet / outlet pipe 110 for stably inserting and installing the fifth air tube 130. And the injection tube 131 for injecting air into the fifth air tube 130 is shown. Although not shown, air is injected into the second packing member 140 and the fifth air tube 130, and an air compressor for connecting the air compressor and the air compressor is required. A detailed description will be omitted for the sake of convenience.

The second packing module 100 having such a configuration is installed in the manhole where the sewage is likely to be chilled when the water is turned among the third manholes M3 positioned on the upstream side of the first manhole M1. . Therefore, only one manhole nearest to the first manhole Ml may be provided, or a plurality of the manholes M1 may be provided in the order of the first manhole M1. This is a problem to be determined by calculating the inclination and distance between the first manhole (M1) and the third manhole (M3) at the actual construction site. However, if the inner wall of the third manhole M3 is inspected in advance, and there is no risk of leakage due to damage, it is possible to omit the installation of the second packing module 100. [

9 is a side cross-sectional view for explaining the configuration of the first connection module in the water spinning device according to the embodiment of the present invention.

The first connection module 300 is installed at the entrance of the first manhole Ml to support the water turning lake H1 in the middle. 9, the first connection module 300 includes a first cover 310 installed at an entrance of the first manhole M1 to block the entrance of the first manhole M1, The first cover 310 is installed along the outer circumference of the first cover 310 and expands when air is injected to fix the first cover 310 to the inlet of the first manhole M1. A first air packing 320 of a ring shape for releasing the fixing of the first cover 310 to the inlet of the first manhole M1 and a second air packing 320 which is installed through the first cover 310, And a first intermediate connection pipe 330 connecting the turning luer H1 in the middle.

Here, the first intermediate connection pipe 330 is provided with a second opening / closing member 333 for selectively shutting off the flow of sewage when the water is being turned, and the second opening / closing member 333 is connected to the first opening / 226 may be configured to selectively block the internal flow path of the first intermediate connection pipe 330 while moving forward or backward in the first intermediate connection pipe 330, or may be provided with a generally known open / close valve.

The sixth intermediate air tube 332 has a ring-shaped sixth air tube 332, which swells when the air is injected into the first intermediate connection pipe 330 and water-tightly communicates with the water turning lake H1. A seventh air tube 331 is further installed. By installing the sixth air tube 332 and the seventh air tube 331, it is possible to quickly and simply connect the first intermediate connection pipe 330 and the water turning lake H1.

Reference numeral 341 denotes a lake for supplying air to the first air packing 320, and reference numeral 342 denotes a lake for supplying air to the first packing module 200.

10 is a side cross-sectional view for explaining the configuration of the second connection module in the water spinning device according to the embodiment of the present invention.

The second connection module 400 is installed at the entrance of the second manhole M2 to support the water turning lake H1 in the middle. 10, the second connection module 400 includes a second cover 410 installed at the entrance of the second manhole M2 to block the entrance of the second manhole M2, And is installed along the circumference of the second cover 410. When the air is injected, the second cover 410 is inflated to fix the second cover 410 to the inlet of the second manhole M2. A second air packing 420 in the form of a ring for releasing the fixing of the second cover 410 to the entrance of the second manhole M2 and a second air packing 420 installed in the form of passing through the second cover 410, And a second intermediate connection pipe 430 connecting the water-turning lane H1 in the middle.

Here, the second intermediate connection pipe 430 is provided with an injection nozzle 450 for injecting air in the direction of the flow of sewage. When the injection nozzle 450 is installed as described above, high-pressure air can be injected in the flow direction of the sewage so that the water can be turned at a higher speed.

In addition, a ring-shaped eighth air tube 131 that swells when the air is injected and water-tightly connects to the water turning lake H1 is connected to the front end and the rear end of the second intermediate connection pipe 430, And a ninth air tube 433 is further installed. By installing the eighth air tube 131 and the ninth air tube 433, it is possible to quickly and simply connect the second intermediate connection pipe 430 and the water turning lake H1.

Reference numeral 441 denotes a lake for supplying air to the second air packing 420, and reference numeral 442 denotes a lake for supplying air to the third packing module 500.

11 is a side cross-sectional view for explaining the configuration of the third packing module in the water spinning device according to the embodiment of the present invention.

The third packing module 500 connects the inlet of the sewer pipe connected to the downstream side of the second manhole M 2 and the other end of the water turning lane H 1 so that the sewage flows, So that it can not be reversed. 11, the third packing module 500 includes a third outlet pipe 510 installed at an inlet of a sewer pipe connected to a downstream side of the second manhole M2, A third packing member 520 provided on an outer circumferential surface of the pipe 510 and being tightly adhered to the inner circumferential surface of the sewage pipe while being inflated when the air is injected and a third packing member 520 having a rear end of the third outflow pipe 510 and a water- And an L-shaped third connection pipe 530 connecting the other end of the second connection pipe 530 in the middle.

A tenth air tube 540 of a ring shape that swells when air is injected and water-tightly connects to the water turning lake H1 is connected to the front end and the rear end of the third connection pipe 530, 11 air tube 550 is further installed. With the provision of the tenth air tube 540 and the eleventh air tube 550, the connection of the other end of the water turning lake H1 to the third outflow pipe 510 with respect to the third connection pipe 530 is facilitated .

The method of turning a natural drop type water using the water turning apparatus according to the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The method for floatation according to the embodiment of the present invention is characterized in that sewage water is discharged from an outlet of a sewer pipe connected to the upstream side of a third manhole M3 located upstream of the first manhole Ml and an inlet of a sewer pipe connected to the downstream side Thereby preventing the sewage from flowing along the inner wall of the third manhole M3 in advance while the water is being turned.

In this step, when the water is turned among the third manholes M3, the third packing module 500 should be installed on the manhole where the sewage is likely to run out. Accordingly, the first manhole M1 may be provided only on one manhole closest to the first manhole M1, or a plurality of the first manhole M1 may be provided in adjacent order. This is determined by calculating the inclination and distance between the first manhole (M1) and the third manhole (M3) at the actual construction site.

Thereafter, sewage flows through the outlet of the sewer pipe connected to the upstream side of the first manhole M 1 and the one end of the water-turning lane H 1 so that the sewage does not rise along the inner wall of the first manhole M 1 So that the water is passed through the water turning lake H1.

In this step, the first packing module 200 is installed in the first manhole M 1 and the first connecting module 300 and the second connecting module 300 are installed at the entrance of the first manhole M 1 and the entrance of the second manhole M 2, After the connection module 400 is installed, water is circulated from the first packing module 200 to the inside of the second manhole M2 through the first connection module 300 and the second connection module 400 H1) are sequentially connected.

Thereafter, sewage is water-tightly connected to the inlet of the sewage pipe connected to the downstream side of the second manhole (M2) and the other end of the water-turning lake (H1) so that sewage flows, Or to the outlet of the sewer pipe connected to the second manhole (M2) on the upstream side.

This step is performed by providing the third packing module 500 on the second manhole M2 and connecting the other end of the water turning lake H1 to the third packing module 500. [

Meanwhile, while the water is being turned, the step of injecting air in the direction of the sewage flow from one point inside the water turning lake H1 is further performed.

This step is performed by injecting air at a high pressure by the spray nozzle 450 installed in the second connection module 400 while water is being blown. This makes sewage flow faster and makes water turning more smooth.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

100: second packing module 110: second inlet / outlet pipe
140: second packing member 150: second connection pipe
200: first packing module 211: first inlet pipe
212: first packing member 213:
221: first outflow tube 222: strut
222a: bellows cylinder 225: cylinder
231: first connector 232: connecting connector
300: first connection module 310: first cover
320: first air packing 330: first intermediate connector
400: second connection module 410: second cover
420: second air packing 430: second intermediate connector
450: injection nozzle 500: third packing module
510: third outlet pipe 520: third packing member
530: Third connection pipe H1: Water turning lake

Claims (18)

There is provided a water turning device for diverting sewage flowing in a sewage line by a water turning lane through a first manhole to the ground and then guiding the sewage to a second manhole located on the downstream side thereof,
The outlet of the sewage line connected to the upstream side of the first manhole and the one end of the lake for turning the water are connected so that the sewage flows so as to induce the sewage to flow through the water turning lake without climbing along the inner wall of the first manhole A first packing module;
And an inlet of a sewer pipe connected to an outlet of the sewer pipe connected to the upstream side of the third manhole and an inlet of the sewer pipe connected to the downstream side is installed at least at one place in the order of closest to the first manhole at the upstream side of the first manhole, And a second packing module for preventing the sewage from flowing along the inner surface of the third manhole by connecting sewage flows,
Further comprising a first connection module installed at the first manhole entrance to support the water turning lake in the middle,
The first connection module may include a first cover installed at the entrance of the first manhole and blocking an entrance of the first manhole, and a second cover installed along the periphery of the first cover, Shaped first air packing for fixing the first cover to the inlet of the manhole and contracting when air is discharged to release the fixing of the first cover to the inlet of the first manhole, And a first intermediate connection pipe installed in the form of a through hole to connect the water turning lake in the middle. [2] The apparatus of claim 1, wherein the first packing module comprises:
A first inlet pipe installed at an outlet of a sewage pipe connected to the upstream side of the first manhole;
A first packing member installed on an outer circumferential surface of the first inflow pipe and being tightly adhered to the inner circumferential surface of the sewage pipe while being inflated when air is injected;
A first outlet pipe installed at an inlet of a sewage pipe connected to a downstream side of the first manhole and provided with a first opening and closing member for selectively blocking the flow of sewage;
And a first connection pipe having a connecting pipe connected to one end of the water turning lake, the first connecting pipe being connected to the first inlet pipe and the first outlet pipe, Characterized by a water spinning device. 3. The method of claim 2,
The first packing module is supported on the inlet of the sewer pipe connected to the downstream side of the first manhole so as to cross and support the first outlet pipe while allowing the flow of sewage, Further comprising a shutoff plate installed in the first manhole and supporting the first inlet pipe while being closely attached to the inner circumferential surface of the sewer pipe connected to the upstream side of the first manhole. The method of claim 3,
The first packing module may include a cylinder for advancing an arm rearwardly in a state where the first packing module is installed on the strut and contacting and supporting the front surface of the blocking plate and a ring installed along the outer circumferential surface of the blocking plate, Further comprising a first air tube which expands and is brought into close contact with the inner circumferential surface of the sewage pipe. The method of claim 3,
Wherein a bellows cylinder is provided at both ends of the strut to extend when air is injected thereinto. 3. The method of claim 2,
When air is injected between the first inflow pipe and the first connection pipe, between the first outflow pipe and the first connection pipe, between the one end of the water inflow lake and the connection pipe, air is inflated and watertightly connected Further comprising a ring-shaped second air tube, a third air source, and a fourth air tube. The method according to claim 1,
The second packing module includes a pair of second inlet / outlet pipes respectively installed at the inlet of the sewer pipe connected to the outlet of the sewer pipe connected to the upstream side of the third manhole and the downstream side of the sewer pipe connected to the upstream side of the third manhole, And a second connection pipe made of a body of a bellows pipe connecting the pair of second inlet and outlet pipes and capable of being expanded and contracted, Water spinning device. 8. The method of claim 7,
And a ring-shaped fifth air tube is installed between the second inlet pipe and the second inlet pipe to connect the second inlet pipe and the second inlet pipe in a watertight manner while expanding when air is injected thereinto. Water spinning device. The method according to claim 1,
Further comprising a second connection module installed at the second manhole entrance to support the water-turning lumen in the middle. delete The method according to claim 1,
Wherein the first intermediate connection pipe is provided with a second opening and closing member for selectively blocking the flow of sewage. The method according to claim 1,
And a sixth air tube and a seventh air tube are installed at the distal end portion and the rear end portion of the first intermediate connection tube, respectively, in the form of a ring, which swells when the air is injected and connects the water- Water spinning device. 10. The method of claim 9,
The second connection module includes a second cover installed at the entrance of the second manhole and blocking the entrance of the second manhole, and a second cover installed along the outer circumference of the second cover. When the air is injected, Shaped second air packing which fixes the second cover with respect to the entrance of the manhole and contracts when the air is discharged to release the fixing of the second cover to the entrance of the second manhole, And a second intermediate connection pipe installed in a form penetrating the water circulation pipe to connect the water circulation lake in the middle. 14. The method of claim 13,
Wherein the second intermediate connection pipe is provided with an injection nozzle for injecting air in the direction of the flow of sewage in the second intermediate connection pipe. delete delete delete delete

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