KR101360172B1 - Manhole fill-up type water diverting method and water diverting apparatus - Google Patents

Abstract

The present invention relates to a fill-up type of water diverting method of a manhole and a water diverting apparatus, and allows simple and effective water diverting in a large and a medium conduit using the difference in water level of sewage without a large water pump, and installation and demolition work of the apparatus is simple. The present invention as described above, for the water diverting method, comprises: a step of allowing the first manhole to fill up with sewage flowed from the upstream through a first conduit; and a step of guiding sewage overflowing from the first manhole through an inlet of the first manhole to a water diverting pipe and then guiding the sewage to a second manhole.

Description

MANHOLE FILL-UP TYPE WATER DIVERTING METHOD AND WATER DIVERTING APPARATUS}

The present invention relates to a water turning method, in particular, using a water level difference of sewage without a large water pump, it is possible to perform water turning simply and effectively even in a medium and large pipelines, and a manhole ascending water turning simple installation and dismantling work of the device. It relates to a method and a water turning device.

In general, the water reclamation work refers to a work that directs the flowing sewage to bypass a buried pipeline, and prioritizes various undigging works or works such as non-excavation work or CCTV photography to repair a pipeline buried underground. It is almost done.

Recently, instead of the excavation work to excavate earth and sand using heavy equipment to repair the pipeline, to determine the abnormality of non-excavation work and pipelines that can repair the pipeline without excavating the earth and sand and to determine the exact location requiring repair. CCTV (Closed-Circuit Television) shooting is being actively performed.

The above-mentioned non-excavation work and CCTV photographing are likely to damage road communication, underground communication cable, power cable and city gas pipe while the excavation work uses heavy equipment such as an excavator, and long-term traffic flow obstacle. Compared to many risks and risks, most of the problems caused by the excavation work have been solved.

Accordingly, as the above-mentioned non-excavation work and CCTV photographing work rapidly increase in the construction site, the water turning work that precedes it is also 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 configuration to operate the water pump 10 to pump the sewage (W) through the upstream manhole (M1) to the ground and discharge through the manhole (M2) located on the downstream side to perform the water turning operation. 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 addition, since the amount of sewage that can be pumped up and pumped by the water pump 10 is limited, water can be turned on small pipes with a small amount of sewage (W), but the amount of sewage is high. Large pipelines had a problem that the water turning task itself was difficult.

Korean Patent Publication No. 10-2010-0088980 (2010.08.11)

Accordingly, the present invention has been proposed to solve the conventional problems as described above, the object of the present invention is to use a manhole that can be easily and effectively water turning in the medium and large pipelines using the sewage level difference without a large pump The present invention provides a method of ascending water turning and a water turning device.

In order to achieve the above object, the manhole ascending water turning method according to the technical concept of the present invention is located between a first manhole connected with a first conduit from an upstream direction and a second manhole connected with a second conduit in a downstream direction. A water spinning method for diverting water by bypassing a pipeline, the method comprising: blocking an inlet of the intermediate pipeline to fill the first manhole with sewage flowing in from the upstream through the first pipeline; It is characterized in that it comprises a step of guiding the sewage overflowing through the first manhole inlet to the water flow pipe leading to the second manhole inside the first manhole.

Here, in order to induce the sewage overflowed through the first manhole inlet to the water conduit, it may be characterized in that the first manhole inlet is closed tightly to form a sewage outlet to connect with the water conduit.

In addition, the first manhole is tightly closed to form an air outlet, and when the sewage fills up inside the first manhole, the air outlet is opened to allow air existing in the first manhole to be discharged to the outside. When the sewage begins to flow through the sewage outlet may be characterized in that for closing the air outlet.

Also, the air outlet is opened before opening the inlet of the blocked intermediate pipe after the water turning operation through the water pipe is completed, allowing air to be sucked from the outside when the sewage filled in the first manhole exits. It can be characterized by.

In addition, the air pipe is provided with an air in order to block the inlet to the inlet is provided with an order member that is in close contact with the inner wall of the intermediate pipe line, but across the entrance of the intermediate pipe in the form across the inlet end is supported across the inlet end of the flow of sewage It may be characterized in that it is further provided with a support for holding by the wire so as not to be floated by the sewage member by the sewage.

On the other hand, the water turning device according to the present invention, the water turning to bypass the intermediate pipe located between the first manhole connected to the first pipe from the upstream direction and the second manhole connected to the second pipe in the downstream direction An apparatus comprising: a main body provided at an inlet of the first manhole and having a sewage inlet and a sewage outlet for discharging sewage filling up inside the first manhole to the ground while blocking an inlet of the first manhole; It is characterized in that the technical configuration comprising a; a water flow end is connected to the sewage outlet of the main body and the other end is draped in the second manhole to guide the sewage flowing out of the sewage outlet of the main body to the second manhole do.

Here, the packing member may be further provided along a circumference of the lower outer circumferential surface of the main body to be in close contact with the inner circumferential surface of the inlet of the first manhole.

In addition, the packing member is a ring-shaped air packing which expands when air is injected to fix the main body to the inlet of the manhole, and contracts when the air is discharged to release the fixing of the main body to the inlet of the manhole. It may be characterized by.

In addition, the main body is formed with an air outlet for allowing the intake and discharge of air, the air outlet may be characterized in that the opening and closing member for controlling the intake and discharge of the air is installed.

In addition, the degree of blocking member to block the inlet of the intermediate pipe to guide the sewage flowing from the upstream through the first pipe to be filled in the inside of the first manhole; It may be characterized in that it further comprises a crutch that is supported across the inlet end of the intermediate pipe in the form of the intermediate pipe to support the flow of the sewage member while allowing the flow of sewage while being held by the sewer. .

In addition, the order member may be characterized in that the airbag is in close contact with the inner wall of the intermediate pipe while receiving the air inflated.

The manhole ascending water turning method and the water turning device according to the present invention, a large water pump by a unique configuration that guides the manhole located downstream using the water position at this time after the sewage is induced to overflow the manhole located upstream It is possible to carry out simple and effective water turning even in medium and large pipelines.

In addition, the present invention is very easy to install and dismantle because it is fixed by using the air pressure during the installation of the body and the order member.

In addition, the present invention smoothly solves the problem that the order member is pushed down by the sewage pressure and the work time is shortened by the structure of holding the order member stably over the inlet of the intermediate pipe and the problem of loss in the order portion. Can be.

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
Figure 3 is a perspective view for explaining the configuration of the main body in the water turning apparatus according to an embodiment of the present invention
Figure 4 is a cross-sectional view for explaining the configuration of the main body in the water turning apparatus according to an embodiment of the present invention
5a to 5d is a series of reference diagrams for explaining the manhole ascending water turning method according to an embodiment of the present invention

With reference to the accompanying drawings will be described in detail with respect to the manhole ascending water turning method and water turning device according to the embodiments of the present invention. As the inventive concept allows for various changes and numerous modifications, particular embodiments will be 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 configuration.

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.

According to an embodiment of the present invention, the manhole ascending water turning method and the water turning device are configured to induce sewage to overflow in a manhole located upstream and then guide it to a manhole located downstream using the water level of the sewage. As a result, it is possible to carry out simple and effective water turning in the medium and large pipelines only by the difference in the sewage level without a large water pump.

Hereinafter, the configuration of the manhole ascending water turning method and the water turning device according to the embodiment of the present invention will be described.

2 is a view showing a state of use of the water turning device according to an embodiment of the present invention, Figure 3 is a perspective view for explaining the configuration of the main body in the water turning device according to an embodiment of the present invention, Figure 4 is an embodiment of the present invention It is sectional drawing for demonstrating the structure of the main body in the water turning apparatus by this.

As shown, the water turning device according to an embodiment of the present invention, the first manhole (M1) connected to the first pipe line (P2) from the upstream direction and the second manhole (P3) connected to the second pipe (P3) in the downstream direction ( A water turning device for performing water turning by bypassing the intermediate pipe line (P1) located between the M2), which is installed at the inlet of the first manhole (M1) located on the upstream side and overflows inside the first manhole (M1). Main body 110, the packing member 120, the opening and closing member 130, the water return pipe (H) and the first manhole (M1) for guiding the sewage to the second manhole (M2) located downstream It is installed at the inlet of the intermediate pipe line (P1) through the inside is made of the order member 130, the support 140 to guide the sewage flowing from the upstream side to rise in the first manhole (M1).

Hereinafter, the configuration of the water turning apparatus according to the embodiment of the present invention will be described with respect to each of the above components.

The main body 110 serves to guide the sewage overflowing from the inside of the first manhole M1 to the water turning pipe H while blocking the inlet of the first manhole M1. To this end, the main body 110 is formed in the shape of a disc so that the lower end (110a) can be inserted corresponding to the inlet of the first manhole (M1), sewage filling in the first manhole (M1) can be introduced into the interior. It is provided with a sewage inlet 111 and the sewage outlet 112 so that the introduced sewage flows out. And the upper end of the main body 110 is formed with an air outlet 113 to allow the intake and discharge of air. In addition, the lower end portion 110a of the main body 110 is connected to the first supply lake 151a connected to the air compressor 150 to supply air to the packing member 120 installed on the outer circumferential surface of the main body 110. The first connecting pipe 121, the second supply pipe 151b connected to the air compressor 150, and the second supply pipe 151c connected to the degree member 130, are connected in the middle. Is installed.

The packing member 120 serves to fix the body 110 to the inlet of the first manhole M1 while sealingly sealing a gap formed between the body 110 and the inlet of the first manhole M1. . To this end, the packing member 120 is provided with an air packing installed in a ring shape around the lower outer circumferential surface of the main body 110. As a result, when air is injected into the packing member 120, the packing member 120 is expanded to strongly press the inner circumferential surface of the inlet of the first manhole M1, and at this time, the main body 110 and the first manhole M1 inlet. The gap formed therebetween is hermetically sealed and, on the contrary, when the air injected from the packing member 120 is discharged to the outside, the sealing member 120 is contracted and the watertight sealing is released. Furthermore, when the packing member 120 expands, the main body 110 can be simply fixed to the inlet of the first manhole M1. Here, the packing member 120 receives air from the air compressor 150, and the air compressor 150 is provided by the first connection pipe 121 and the first supply lake 151a installed in the main body 110. Connected.

The opening and closing member 130 is installed at the air outlet 113 of the main body 110 to selectively discharge the air inside the first manhole M1 to the outside or the outside air is sucked into the first manhole M1. Role to allow or restrict. To this end, the opening and closing member 130 may be provided with a conventional opening and closing valve to selectively open and close the air outlet 113 of the main body 110. For example, it may be provided with a lever-type on-off valve or a solenoid valve that can open and close the air outlet 113 by combining the plunger and the lever by hand as installed in the pressure cooker for steam discharge. For the opening and closing member 130, since a known technique capable of selectively opening and closing the air outlet 113 may be utilized, a detailed description thereof will be omitted.

As such, according to the configuration in which the air outlet 113 is formed in the main body 110 and the opening / closing member 130 is installed at the position, air is discharged and sucked when the sewage fills up and exits inside the first manhole M1. On the other hand, when the sewage is made of water, it is possible to block the air outlet 113 so that the sewage does not need to be counted outside.

The water turning pipe (H) is installed so that one end is connected to the sewage outlet 112 of the main body 110 and the other end is dropped into the second manhole (M2) located on the downstream side. As a result, the total amount of sewage flowing out of the sewage outlet 112 of the main body 110 is guided to the second manhole M2 through the water return pipe H. Here, the water turning pipe (H) has an advantage that it may be installed in a relatively thin and flexible material because the water pressure to be handled is much weaker than when using a water pump in the prior art. This advantage is a great contribution in terms of storage and movement, price, considering that the water return pipe (H) should be provided with a length of up to several hundred meters long. For reference, in FIG. 2, it is illustrated that there is only one middle manhole M3 passing through the water turning pipe H, and thus may be several depending on the length of the section.

The order member 130 blocks the inlet of the intermediate pipe line (P1) to guide the sewage flowing in from the upstream through the first pipe line (P2) to fill up inside the first manhole (M1). do. To this end, the order member 130 is provided with an air bag in close contact with the inner wall of the intermediate pipe (P1) while expanding and receiving the air from the air compressor 150.

The crutch 140 serves to hold the order member 130 so as not to be floated by the sewage. To this end, the crutch 140 is provided in the form of a bar and is supported across the inlet end of the intermediate conduit P1 in a form crossing the inlet of the intermediate conduit P1. Then, the crutch 140 and the order member 130 are connected by the wire 141. As a result, the shoring 140 allows the sewage member 130 to be held by the wire 141 so as not to be floated by the sewage while allowing the flow of sewage. According to such a configuration, the support member 130 is firmly supported so that the support member 130 is not pushed back while the order member 130 expands to block the entrance of the intermediate pipe P1. If there is no such crutch, even if the order member 130 is expanded with high inflation air pressure, it is difficult to secure enough construction time as it eventually does not endure the pressure of the sewage filling up inside the first manhole M1 and gradually pushes it backwards. Of course, a problem arises that the order member 130 is damaged due to friction with the inner wall of the intermediate pipe (P1). In addition, the shoring 140 is a problem that the order member 130 is floated due to the flow rate of the sewage when the order member 130 is contracted in order to drain the sewage was filled in the first manhole (M1) after the watering operation Also completely eliminates. Here, the shoring 140 can be used simply provided with a length of H-shaped steel cut longer than the inner diameter of the intermediate pipe (P1).

Based on the accompanying drawings, the manhole ascending water turning method using the water turning device according to the embodiment of the present invention configured as described above is as follows. 5A through 5D are a series of reference diagrams for explaining a manhole ascending water turning method according to an embodiment of the present invention.

Manhole projection method according to an embodiment of the present invention, between the first manhole (M1) connected to the first pipe (P2) from the upstream direction and the second manhole (M2) connected to the second pipe (P3) in the downstream direction. A water spinning method for performing water spinning by bypassing the located intermediate pipe line P1, comprising: installing a water spinning device, filling the sewage into the first manhole M1, and performing water spinning; It consists of draining the sewage which filled the 1st manhole M1, and disassembling the water turning device.

In the step of installing the water turning device, the water turning device described above is installed at the inlet of the first manhole M1 and the inlet of the intermediate pipe line P1.

To this end, the order member 130 and the support neck 140 in the contracted state of air are dropped and lowered into the first manhole M1 (the order member 130 is the second supply lake 151b and the second connection pipe ( 131 and the third supply lake 151c are connected to the air compressor 150. After connecting the wires 141 with each other, the order member 130 is inserted into the intermediate pipe P1 inlet. And bar-shaped crutch 140 is installed in the form across the inlet end of the intermediate pipe line (P1) in the form transverse to the inlet of the intermediate pipe (P1). At this time, the sewage flows inside the intermediate pipe (P1), but because the support 140 holds the order member 130 by the wire 141, the order member 130 is not floated by the sewage even in the contracted state. .

In addition, the lower end portion 110a of the main body 110 is inserted into the inlet of the first manhole M1, and then the air compressor 150 is operated to be connected to the first connection lake 151a and the first connection pipe 121. Air is injected into the packing member 120. Then, the packing member 120 is supplied with air and expands to seal tightly between the inlet inner circumferential surface of the first manhole M1 and the main body 110, and the main body 110 with respect to the inlet of the first manhole M1. It is fixed stably. In addition, one end of the water supply pipe (H) is connected to the sewage outlet 112 of the main body 110 and the other end is drowned in the second manhole (M2) located on the downstream side. This completes the installation of the water turning device.

Thereafter, a step of filling the first manhole M1 with sewage proceeds. In this step, as shown in FIG. 5A, the air compressor 150 is operated to supply air to the order member 130 connected through the second connection lake 151b, the second connection pipe 131, and the third connection lake 151c. Give it. Then, the degree member 130 inserted into the inlet of the intermediate pipe (P1) is expanded to block the inlet of the intermediate pipe (P1), and thus flows upstream through the first pipe (P2) as shown in FIG. The sewage to be filled is filled in the first manhole M1. In this case, the air outlet 113 should be opened by the opening / closing member 130 so that the air existing in the first manhole M1 may be discharged to the outside as the sewage is filled.

Thereafter, the step of performing water turning is performed. In this step, when the sewage filling up inside the first manhole M1 reaches the sewage outlet 112 of the water main body 110 through the inlet of the first manhole M1, the opening and closing member 130 is operated to operate the air outlet ( Just close 113). Then, the sewage filling up inside the first manhole M1 is leaked out through the sewage outlet 112 of the main body 110 without unnecessary counting through the air outlet 113 and the second manhole (H) along the water return pipe (H). As it flows into M2), a water divert which bypasses the intermediate pipe (P1) occurs naturally. In this way, while the water turning is carried out, the necessary work such as non-excavation work or CCTV shooting is performed inside the intermediate pipe P1.

Subsequently, when the work required for the intermediate pipe line (P1) is completed, the step of finishing the water turning process by draining the sewage filling the first manhole M1 is performed. In this step, as shown in FIG. 5D, the opening / closing member 130 is operated first to open the air outlet 113 of the main body 110, and then the air is removed from the order member 130. Then, the entrance of the intermediate pipe line P1, which is blocked by the shrinkage of the order member 130, opens, and the sewage that is filled inside the first manhole M1 exits through the intermediate pipe line P1. As a result, the water level of the sewage filling the first manhole M1 is lower than that of the sewage outlet 112 of the main body 110, and the water turning is naturally stopped. At this time, the sewage that was filled in the first manhole (M1) is quickly escaped through the intermediate pipe (P1), but the order member 130 is securely supported by the shoring 140 and the wire 141 does not float with the sewage.

Thereafter, the step of disassembling the water turning device is performed.

In this step, the air is removed from the packing member 120, and the packing member 120 is retracted in such a way that the packing member 120 is deflated and then released from the fixing apparatus main body 110 to the inlet of the first manhole M1. Thereafter, when the order member 130 and the support neck 140 are lifted out of the first manhole M1 to the outside, the dismantling operation of the water turning device is simply completed.

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.

110: main body 111: sewage inlet
112: sewage outlet 113: air outlet
120: packing member 121: first connector
130: order member 131: second connector
140: Shoring 150: Air Compressor

Claims (11)

A water spinning method for performing water revolving by bypassing an intermediate pipe located between a first manhole connected with a first pipe from an upstream direction and a second manhole connected with a second pipe in a downstream direction.
Blocking an inlet of the intermediate pipe to fill the first manhole with sewage flowing in and upstream through the first pipe;
And driving the sewage overflowing through the first manhole inlet to the water return pipe to guide the second manhole inside the first manhole.
In order to guide the sewage overflowed through the first manhole inlet to the water return pipe, the first manhole inlet is closed tightly, and a sewage outlet is formed to connect with the water return pipe, and an air outlet is formed to form the first outlet. When the sewage is filled in the manhole, the air outlet is opened to allow the air existing in the first manhole to be discharged to the outside, and when the sewage flows out through the sewage outlet, the air outlet is closed. Manhole ascending waterway. delete delete The method of claim 1,
Opening the air outlet before opening the inlet of the blocked conduit after the water return operation through the water conduit pipe is completed to allow the air to be sucked from the outside when the sewage that is filled inside the first manhole exits A manhole ascending spinning method characterized by the above-mentioned. The method of claim 1,
In order to prevent the inlet of the intermediate pipe is provided with an air inflating member is in close contact with the inner wall of the intermediate pipe while expanding,
The manhole filling is further provided with a crutch which is supported across the inlet end of the intermediate pipe line and is supported over the inlet end of the intermediate pipe and holds the order member by a wire so as to allow the flow of sewage while not being floated by the sewage. How to spin the water. A water turning device for performing water turning by bypassing an intermediate pipe located between a first manhole connected with a first pipe from an upstream direction and a second manhole connected with a second pipe in a downstream direction.
A main body installed at an inlet of the first manhole and having a sewage inlet and a sewage outlet which discharge the sewage filling up inside the first manhole to the ground while blocking the inlet of the first manhole;
It includes; the end is connected to the sewage outlet of the main body and the other end is draped in the second manhole water jet lake to guide the sewage flowing out of the sewage outlet of the main body to the second manhole;
The main body is provided with an air outlet for allowing the intake and discharge of air, the air outlet is a water turning device, characterized in that the opening and closing member for controlling the intake and discharge of air is installed. The method according to claim 6,
And a packing member installed along a circumference of a lower outer circumferential surface of the main body to be in close contact with the inner circumferential surface of the inlet of the first manhole. The method of claim 7, wherein
The packing member is a ring-shaped air packing that expands when air is injected to fix the main body to the inlet of the manhole, and contracts when the air is discharged to release the fixing of the main body to the inlet of the manhole. Spinning device made. delete The method according to claim 6,
A degree member which blocks an inlet of the intermediate pipe and induces the sewage flowing in and upstream through the first pipe to rise inside the first manhole;
It is supported to span the inlet end of the intermediate pipe in the form of the intermediate pipe through the inlet to support the flow of sewage, while retaining the water holding member by the wire so as not to be floated by the sewage Device. 11. The method of claim 10,
And the order member is an air bag in close contact with the inner wall of the intermediate pipe while inflating the air.

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