KR200333360Y1 - By-pass hose assembly - Google Patents

Abstract

The present invention relates to a bypass device for sewage pipe repair work, comprising: a bypass device for bypassing a work section during sewage pipe repair work to allow sewage to flow, the pipe main body having flexibility; An expansion part including elastic air tubes respectively wrapped on both outer circumferential surfaces of the tube body part and bands coupled around both ends of the air tube; A reinforcement part made of a metal pipe and positioned on both inner peripheral surfaces of the pipe body part; And an air injection unit for inflating the air tube by injecting high pressure air into the expansion unit through an air injection tube formed at one side of the tube body and an air injection tube tube connected to the air injection hole. And inflating the air tube to fix the pipe main body to a manhole located in an upstream portion of the work section, and to allow sewage flowing through the manhole to flow through the pipe body to change the flow path of the sewage. Do not flow in.

Description

BY-PASS HOSE ASSEMBLY}

The present invention relates to a bypass device for sewage pipe repair work. More specifically, when cleaning, inspecting, or repairing a sewer pipe buried underground, such as a concrete pipe or a fume pipe, the outer circumferential surfaces of both sides of the rubber pipe are wrapped with air tubes. Inflating the air tube to fix the rubber pipe in the inlet of the manhole located in the upstream portion of the working section and the outlet outside the working section to change the flow path of sewage flowing through the manhole so that the sewage does not flow in the working section It is about bypass equipment for sewage pipe maintenance work.

In general, sewer pipes buried underground cause cracks or poor connections due to loads applied from the upper part of the sewer pipes or ground subsidence by groundwater, and corrosion may occur in the sewer pipes, resulting in puncture over a long period of time. Soil, mud, and foreign matter are easily deposited in the sewer, so it is necessary to inspect, repair, or clean the sewer in a regular manner.

1 is a view showing the sewage flow and work section in the manhole, a work section for inspecting, cleaning, repair, etc. inside the sewer pipe 3 between the first manhole 1 and the second manhole 2 (3a) is formed, the first manhole (1) and the second manhole (2) is cross-shaped sewage pipe (3) is connected, the first manhole (1) and the second manhole (2), respectively Two inlets (1a, 1b, 2a, 2b) and outlets (1c, 1d, 2c, 2d) are formed, the working section (3a) is the first outlet (1c) and the first manhole (1) It is assumed that it is located between the first inlets 2a of the second manhole 2.

To inspect, repair, or clean the work section 3a located between the first outlet 1c of the first manhole 1 and the first inlet 2a of the second manhole 2. In order to insert the device into the sewage pipe 3, which is the work section 3a, or a worker must enter the work directly, the flow of sewage should be cut off during the working period. The same method was used.

The first is a method of installing a blocking device upstream of the work section 3a, that is, the first discharge port 1c of the first manhole 1, by introducing the blocking device to flow into the first manhole 1. The sewage to be flowed only to the second outlet 1d of the first manhole 1 or pumped sewage flowing into the first manhole 1 to the ground by using a pump, The sewage is prevented from flowing into the work section 3a.

However, in the case as described above, since a large amount of sewage flows in from the two inlets 1a and 1b of the first manhole 1 and the amount of inflow is greater than the discharged amount, the sewage in which the blocking device is introduced. It is difficult to withstand the pressure of the pump, a large capacity or a plurality of pumps should be installed by pumping, and there was a problem that a means or a place for draining the pumped sewage was needed.

The second method is to install a circulation drainage device 6 for sewage pipe work published in Japanese Unexamined Patent Application Publication No. 6-13890. A stop plug 60 is provided at an upstream part and a downstream part of the work section 3a, respectively. The suction section 62 and the discharge tube 63 of the pump 61 installed on the ground are connected to the stop plug 60 provided in the upstream and downstream portions of the work section 3a, respectively. By bypassing the sewage in the upstream portion of the downstream portion, the sewage does not flow in the work section 3a.

The wastewater pipe working circulation drainage device 6 is shown in FIG. 7, and according to the wastewater pipe working circulation drainage device 6, since the sewage does not flow into the sewer pipe 3, which is a work section 3a, even if the wastewater is used. By using the sewage, the sewer pipe 3 of the work section 3a can be inspected, repaired, and cleaned.

However, although the circulating drainage device 6 for the sewage pipe work is close to the manhole, and can be installed and used in the manhole each having one inlet and an outlet, the distance between the manholes is not only far apart, but also shown in FIG. As described above, since the conventional manhole is embedded in a cross shape having two inlets and outlets, it is impossible to block or bypass the sewage by installing the circulation drainage device 6 for the sewer pipe work.

The present invention was devised to solve the conventional problems as described above, the elastic air wrapped on the outer peripheral surface of both sides of the pipe main body during the cleaning, inspection, repair, etc. inside the sewer pipe buried underground such as concrete pipe, fume pipe Inflating the tube to securely install the tube body in the inlet of the manhole located in the upstream portion of the working section and the outlet outside the working section, to seal the inlet of the manhole connected to the working section with a shut-off device, the sewage flowing through the manhole The purpose of the present invention is to provide a bypass device for sewage pipe repair work that allows the sewage flow into the working section by changing the flow path of the sewage by flowing through the pipe main body and pumping the sewage introduced into the manhole with a pump. have.

1 is a view showing the sewage flow and work intervals in the manhole,

Figure 2a is a longitudinal cross-sectional view of the bypass device for sewage pipe maintenance work according to the present invention,

Figure 2b is a longitudinal cross-sectional view showing an expanded state of the air tube of the bypass device according to the first embodiment of the present invention,

Figure 3a is a plan view showing a state in which the bypass device according to the first embodiment of the present invention is installed in the manhole for bypass water,

Figure 3b is a plan view showing a state in which the bypass device according to the first embodiment of the present invention is installed in the manhole for straight water flow;

4A is a longitudinal sectional view of a bypass device according to a second embodiment of the present invention;

4B is a plan view showing a state in which the bypass device in FIG. 4A is installed in the manhole for bypass flow;

Figure 5a is a longitudinal cross-sectional view of the bypass device is installed in a circular sewer pipe according to the first embodiment of the present invention,

Figure 5b is a longitudinal cross-sectional view of the bypass device installed in the rectangular sewage pipe according to a third embodiment of the present invention,

6 is a longitudinal cross-sectional view of a bypass device installed in a manhole for drainage treatment according to a fourth embodiment of the present invention;

7 is a longitudinal sectional view of the circulation drainage device for sewage pipe work according to the prior art.

Description of the main parts of the drawing

3: circular sewer pipe 3 ': square sewer pipe

3a: Working section 4,4a, 4b, 4c: bypass device

5: breaking device 40: pipe main body

41: inflation portion 42: reinforcement portion

43: air inlet 410: air tube

411: band 412: annular projection

413: rubber gasket 430: air inlet

431: air injection tube tube 432: air discharge port

The purpose of the present invention is a bypass device for flowing sewage by bypassing the work section during sewage pipe maintenance work, the pipe main body having flexibility; An expansion part including elastic air tubes respectively wrapped on both outer circumferential surfaces of the tube body part and bands coupled around both ends of the air tube; A reinforcement part made of a metal pipe and positioned on both inner peripheral surfaces of the pipe body part; And an air injection unit for inflating the air tube by injecting high pressure air into the expansion unit through an air injection hole formed on one side of the pipe body and an air injection tube tube connected to the air injection hole. It is achieved by a bypass device characterized by.

Preferably, the flexible tube body portion is achieved by a bypass device, characterized in that formed by nylon cord paper.

More preferably, the outer circumferential surface of the air tube is formed by a plurality of annular projections, it is achieved by a bypass device characterized in that the step is in close contact with the inner circumferential surface of the sewage pipe during expansion.

In addition, a variable rubber gasket is attached to the outer circumferential surface of the air tube, and is achieved by a bypass device, which is in close contact with a groove or a corner of the inner circumferential surface of the sewer pipe.

The air injection tube is achieved by a bypass device, characterized in that formed by a flexible hydraulic hose.

Therefore, the bypass device according to the present invention inflates the air tube wrapped on both outer peripheral surfaces of the main body of the pipe during the cleaning, inspection, and maintenance of the sewage pipe inlet of the manhole located in the upstream portion of the working section and the working section The tube body is fixedly installed at an outlet of the outside, and the inlet of the manhole connected to the work section is sealed with a blocking device, and the sewage flowing through the manhole flows through the tube body to change the flow path of the sewage and at the same time, the manhole. The sewage introduced into the pump was pumped to prevent sewage from entering the work section.

Preferably, the inlet portion of the working section, the blocking device, the manhole should be additionally installed a pump, but the sewage flowing from one of the first inlet or the second inlet of the manhole as a bypass device of a simple structure is Since the bypass flows inside the manhole, and only the sewage flowing from the remaining one inlet which is not connected to the bypass device is disposed, it is necessary to discharge a large amount or a plurality of sewage flowing from one or more inlets as in the prior art. There is no need for a place to install a pump and to drain the pumped sewage.

In addition, the tube body portion of the bypass device according to the present invention is formed of a flexible and excellent nylon cord paper can bend the bypass device freely to change the flow path of the sewage, can be used for a long time without damage, In addition, the air injection tube tube of the bypass device is formed of a flexible hydraulic hose and deformed together when the tube body portion is bent.

In addition, an annular protrusion or a rubber gasket is formed on the outer circumferential surface of the air tube so that the air tube can be intimately contacted with the sewer pipes when the air tube is inflated, thereby obtaining a more reliable adhesion effect.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. For reference, the same reference numerals shown in each drawing indicate the same components.

Figure 2a is a longitudinal cross-sectional view of the bypass device for the sewage pipe maintenance work according to the present invention, the bypass device 4 is the pipe main body 40, the expansion portion 41, the reinforcement portion 42 and the air injection portion 43 It is configured to include, both ends are open.

First, the pipe main body 40 is made of nylon cord paper having flexibility to change the flow path of the sewage freely, and the water pressure of the sewage flowing through the sewer pipe (3) buried underground is usually 0.5 ~ 0.8 kg / Although the expansion pressure of the bypass device 4, which is mostly made of rubber, is 2.0 to 2.5 kg / cm 2, the strength is excellent enough to withstand the expansion pressure of the sewage flowing along the sewer pipe 3 buried underground. Do.

The expansion part 41 is located on both sides of the outer peripheral surface of the bypass device 4 to fix the bypass device 4 to the sewer pipe (3) connected to the inlet and outlet of the manhole, the nylon cord The air tube 410 in close contact with the outer circumferential surface of the both sides of the tube body portion 40 made of paper and the air tube 410 in close contact with the outer circumferential surface of the tube body portion 40 It is configured to include a band 411 to contact the outer periphery of both ends.

The reinforcing portion 42 is a metal tube inserted into both inner circumferential surfaces of the tube body portion 40 and the cross section of the tube body portion 40 is reduced to prevent the expansion of the air tube 410. To support the inner surface of the tube body portion 40, the reinforcement portion 42 is preferably made of aluminum excellent in corrosion resistance.

The air injection portion 43 is for injecting air into the flexible air tube 410 wrapped on both outer peripheral surfaces of the tube body portion 40, the air injection hole 430 formed on one side of the tube body portion 40 ); An air injection tube tube 431 connected to the air inlet 430 and extending into the tube body part 40; And an air discharge port 432 connected to the air injection tube tube 431 and formed at one side of the expansion part 41 to inflate and expand air by injecting air into the air tube 410. At the inlet side of the air inlet 430, a nipple for detachably connecting to the discharge part of the compressor for injecting air and a separate valve for intermittent injection of air are formed.

Figure 2b is a longitudinal cross-sectional view showing an expanded state of the air tube of the bypass device according to the first embodiment of the present invention, the bypass device 4 is fixed to the sewage pipe (3) connected to the inlet and outlet of the manhole In order to inject air into the air tube 410 is shown a state in which the air tube 410 is expanded.

The air tube by injecting air through the air injection tube tube 431 connected to the air inlet 430 to the flexible air tube 410 formed on both outer peripheral surfaces of the tube body portion 40 made of nylon cord paper The 410 is inflated, and a constant pressure is maintained on the expanded air tube 410 so that the sewage is led to the sewage pipe whose path is determined.

As described above, the reinforcement portion 42 made of aluminum has a cross-sectional area of the tube body portion 40 due to the air tube 410 that is inserted into both inner peripheral surfaces of the tube body portion 40 and expands with the injected air. To prevent the reduction, the band 411 is firmly coupled by a predetermined distance around both ends of the air tube 410 to provide a space for receiving air when the air tube 410 is inflated. .

Since the air tube 410 may be torn by the band 411 when the air tube 410 is inflated, a reinforcing member such as a rubber plate or a tape is interposed in a fastening portion when the band 411 is fastened. It is desirable to join the band 411.

In addition, even if the inner circumferential surface size of the sewage pipe 3 to which the bypass device 4 is fixed is large or small, the amount of air injected into the air tube 41 may be adjusted.

Figure 3a is a plan view showing a state in which the bypass device according to the first embodiment of the present invention is installed in the manhole for bypass water, the sewage in the work section (3a) shown in Figure 1 In order not to flow, it is fixedly installed in the sewer pipe 3 connected to the first inlet port 1a and the second outlet port 1d of the first manhole 1, which is an upstream portion of the work section 3a, and the first inlet port. The path of the sewage flowing in from (1a) is shown to be bypassed.

When the bypass device 4 according to the present invention is used for bypass water, the expanded portion 41 expanded by injecting air is provided with a first inlet 1a and a second outlet 1d of the first manhole 1. ) Is installed in close contact with the inner circumferential surface of the sewage pipe (3) connected to each other) and the flow path of the sewage flowing from the first inlet (1a) is changed by detour.

Figure 3b is a plan view showing a state in which the bypass device according to the first embodiment of the present invention is installed in the manhole for straight water flow, in order to prevent the sewage flow in the work section (3a) shown in Figure 1, the bypass The device 4 is fixedly installed in the sewer pipe 3 connected to the second inlet 1b and the second outlet 1d of the first manhole 1, which is an upstream portion of the work section 3a, and the second inlet. The sewage flowing in from (1b) flows in the straight direction.

In an embodiment of the present invention, in order to prevent the sewage discharged from the first manhole 1 does not flow to the work section 3a, a blocking device 5 is additionally provided at the first outlet 1c of the first manhole 1. ) To install the pump in the first manhole (1) to pump and discharge the sewage flowing from the second inlet (1b) or the first inlet (1a) of the first manhole (1) to the outside. desirable.

In this case, the sewage flowing from the first inlet 1a or the second inlet 1b is bypassed inside the first manhole 1, and the second inlet 1b or the first inlet 1a. Since only the sewage introduced from the water is to be treated, a large capacity or a plurality of pumps and a place for draining the pumped sewage are not required.

In addition, in the embodiment of the present invention, it is preferable that the length D of the bypass device 4 except for the expansion part 41 is formed to be somewhat longer than the length of the path through which the sewage flows.

Therefore, when used for straight water passing through the manhole, it should be at least the straight distance in the transverse or longitudinal direction of the manhole, and when used for bypass water flow, it should be at least the length of the arc of the sector path to be bypassed.

4A is a longitudinal cross-sectional view of the bypass device according to the second embodiment of the present invention. The bypass device 4a has the same configuration as that of the bypass device 4 shown in FIG. 2A. A plurality of annular projections 412 are formed on the outer circumferential surface of the air tube 410 wrapped on both outer peripheral surfaces of 4a) at equal intervals, and as shown in FIG. 4B, the bypass device having the annular projections 412 formed thereon. (4a) can be closely adhered to the inner peripheral surface of the sewer pipe 3 stepwise, and a more reliable adhesion effect can be obtained.

Figure 5a is a longitudinal cross-sectional view of the bypass device according to the first embodiment of the present invention installed in a circular sewer pipe, Figure 5b is a longitudinal cross-sectional view of the bypass device installed in a rectangular sewage pipe according to a third embodiment of the present invention to be.

As shown in Fig. 5a or 5b, the circular portion located in the center of the cut surface represents a tube body portion 40 installed inside the sewage pipes 3, 3 'connected to the inlet and outlet of the manhole, and the tube body portion ( An air discharge port 432 connected to the air injection tube tube 431 is formed at one side of the 40 to expand the air tube 410 surrounding the outer circumferential surface of the tube body portion 40, wherein the air tube 410 is Since the inner circumferential surface has a ring shape surrounding the tube body portion 40 in the same shape as the circumference of the tube body portion 40, as shown in FIG. 5A, a sewage pipe in which the bypass device 4 is installed is a circular sewer pipe. In the case of (3), the bypass device 4 is fixedly installed in close contact with the circular sewer pipe 3 using the expanded air tube 410.

However, as shown in FIG. 5B, when the bypass device 4b is fixedly installed in the rectangular sewage pipe 3 ', a gap exists because the inner corner of the rectangular sewage pipe 3' is not completely blocked. A variable rubber gasket 413 is attached to the outer circumferential surface of the air tube 410 corresponding to the inner corner of the rectangular sewer pipe 3 ′ in the tube 410, thereby expanding the air tube 410. It is to be in close contact with the inner corner of the municipal rectangular sewer pipe (3 ').

In addition, the rubber gasket 413 may be attached to the outer circumferential surface of the air tube 410 to be in close contact with grooves or cracks formed on the inner circumferential surface of the sewer pipe 3 having a circular cross section as well as the inner corner of the sewer pipe having a polygonal cross section. Can be.

In addition, it is preferable to form a plurality of annular projections 412 at equal intervals on the outer circumferential surface of the air tube 410 wrapped on the outer circumferential surface of the bypass device 4b, and the rectangular sewage pipe when the air tube 410 is expanded. By making them adhere to the inner circumferential surface of 3 'stepwise, a more sure adhesion effect can be obtained.

FIG. 6 is a longitudinal sectional view of a bypass device according to a fourth embodiment of the present invention installed in a manhole for drainage treatment, wherein the bypass device 4c has one inlet and one outlet port shown in FIG. Installed in the manhole represents a state in which the sewage flowing into the manhole is drained to the ground.

The bypass device 4c has the same configuration as the bypass device 4 shown in FIG. 2A, and the air injection tube tube 431 of the bypass device 4c is intermittently injected with air. A separate valve is formed to adjust the valve so that air is not injected into the air tube 410 on the side where the valve is formed.

When the bypass device 4c is installed in a straight manhole having one inlet and one outlet, and used for drainage treatment, the expanded part 41 expanded with air is connected to the sewer pipe 3 connected to the inlet of the manhole. The expansion part 41 is installed in close contact with the inner circumferential surface of the) and the valve is formed so that the air is not injected, the sewage pipe connected to the ground is pumped to the ground by pumping the sewage flowing into the manhole to the ground. Sewage does not flow in the work section 3a located in (3).

In the embodiment of the present invention, when the amount of inflow of sewage flowing into the manhole is small, since the sewage drained to the ground through the bypass device (4c) is not properly occupied by the bypass device (4c), it is difficult to pump And a stopper having a hole having a smaller size than a cross-sectional area of the bypass device 4c in a portion where the bypass device 4c is connected to the pump, and connected to the pump through a small hole formed in the stopper. As a result, it is preferable that the sewage is properly filled in the bypass device 4c, and the sewage is pumped by a pump installed on the ground to be drained.

As described above, the bypass device according to the present invention is the inlet of the manhole located in the upstream portion of the work section by expanding the air tube wrapped on both outer peripheral surfaces of the pipe main body during the cleaning, inspection, repair, etc. And fixedly installing the pipe main body at an outlet outside the working section, sealing the inlet of the manhole connected to the working section with a blocking device, and changing the flow path of the sewage by causing the sewage flowing into the manhole to flow through the pipe main body; At the same time, the sewage introduced into the manhole was pumped to prevent the sewage from entering the work section.

Preferably, the inlet portion of the working section, the blocking device, the manhole should be additionally installed a pump, but the sewage flowing from one of the first inlet or the second inlet of the manhole as a bypass device of a simple structure is Since the bypass flows inside the manhole, and only the sewage flowing from the remaining one inlet which is not connected to the bypass device is disposed, it is necessary to discharge a large amount or a plurality of sewage flowing from one or more inlets as in the prior art. There is no need for a place to install a pump and to drain the pumped sewage.

In addition, the tube body portion of the bypass device according to the present invention is formed of a flexible, high strength nylon cord paper, the bypass device can bend freely to change the flow path of the sewage, can be used for a long time without damage In addition, the air injection tube tube of the bypass device is formed of a flexible hydraulic hose, it is deformed together when the tube body portion is bent.

Furthermore, an annular protrusion or a rubber gasket is formed on the outer circumferential surface of the air tube, so that when the air tube is inflated, the air tube can be closely contacted with the sewer pipes in a stepwise manner, thereby obtaining a more reliable adhesion effect.

Claims (5)

In the bypass equipment (4, 4a, 4b, 4c) that bypasses the work section (3a) to allow the sewage to flow during the repair of the sewage pipe (3, 3 '), A tubular body portion 40 having flexibility; An expansion part (41) comprising elastic air tubes (410) respectively wrapped on both outer peripheral surfaces of the tube body part (40) and bands (411) coupled around both ends of the air tube (410); A reinforcing part (42) made of a metal pipe and positioned on both inner circumferential surfaces of the pipe main body part (40); And The high pressure air is injected into the expansion part 41 through the air inlet 430 formed on one side of the tube body part 40 and the air injection tube tube 431 connected to the air inlet 430. Bypass apparatus comprising a; air injection portion 43 for expanding the tube (410). The method of claim 1, The tube body portion 40 is bypass device, characterized in that formed of nylon cord paper. The method of claim 1, A bypass device, characterized in that a plurality of annular projections (412) is formed on the outer circumferential surface of the air tube (410), in step contact with the inner circumferential surface of the sewage pipe (3, 3 ') during expansion. The method of claim 1, Bypass variable rubber gasket (413) is attached to the outer circumferential surface of the air tube (410), it is in close contact with the inner peripheral surface grooves or corners of the sewage pipe (3, 3 '). The method of claim 1, The air injection tube tube 431 is a bypass device, characterized in that formed by a flexible hydraulic hose.