KR101642980B1 - How to by-pass the dam body system applied for the maintenance of the sewer - Google Patents

Abstract

[0001] The present invention relates to a system to which a watertight bypass method for repairing a sewer pipe is applied, and more particularly, to a sewer water bypass bypass system installed in a vertical direction of a maintenance section of a sewer pipe to prevent sewage inflow from a maintenance section of the sewer pipe And a sewer bypass maintenance method for a sewer pipe maintenance method that can smoothly perform sewer maintenance.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for removing water from a sewage pipe,

[0001] The present invention relates to a sewer pipe bypass system for repairing a sewer pipe, and more particularly, to a sewer pipe bypass system in a maintenance section of a sewer pipe, The present invention relates to a system to which a tap water bypass method for sewer pipe maintenance is applied so as to prevent the inflow of sewage and smooth maintenance of the sewer pipe.

Generally, a sewer pipe is used to guide sewage, sewage and the like to a sewage treatment plant by being buried in the underground. The material of the sewer pipe is mainly concrete, and its cross section is circular, rectangular or elliptical. Sewer pipes buried in the underground are excavated and installed directly in the inner part of the pipe when the leakage occurs due to deterioration due to aging, cracks due to impact, and expansion or contraction of the fastening area.

However, in the former method, there are problems such as construction period and cost, and there is a problem such as subsidence due to excavation work. Therefore, in order to solve this problem, a method for repairing the excavated ground or repairing the damaged conduit , Which means that large sewer pipes to send a large amount of sewage discharged from population densities to the sewage treatment plant, for example sewage pipes around the Han River constructed in the 1980s, are about 2.8 x 2.8 m in cross section, Not only is it dangerous for a person to perform a maintenance work after simply using a volcanic ash, but also assumes that the volcanic ash can sufficiently withstand water pressure due to the inflow of a large amount of sewage, A severe stress concentration phenomenon is generated in the film, , It is urgently needed to prevent the pipe system or the construction which is secured as a pretreatment step for the maintenance of such a large sewer pipe.

Conventionally, there has been proposed a method of partially repairing and reinforcing a sewer pipe in a dry state without digging the ground or removing the structure (Korean Patent Registration No. 10-0494356, 2003.07.23, Method).

This kind of float material can repair and reinforce the construction section of the underground structure in a dry state, thereby facilitating the construction and shortening the air to improve the efficiency of the construction. However, There is a problem that workability of the construction of the caulking film is lowered because the worker has to transport the heavy material directly into the underground structure in order to install the water retaining material in the underground structure.

In addition, since the tube and the watertight panel, which receive direct resistance to the water flowing in the underground structure, are supported only by the support platform, when the water pressure is large due to the large amount of water flowing in the underground structure, And it was not possible to fall down.

Therefore, in recent years, there has been proposed, for example, "a watertight membrane for a sewer pipe for a sewer pipe" (Korean Patent Registration No. 10-0886461, Feb. 24, 2009) using a robot.

The conventional watertight panel for a sewer pipeline robot is a publicly known watertight panel in which a tube that is inflated by the insertion of air or water is formed at the edge of the watertight panel and is installed inside the underground structure by using a floating film, A pivotal lever mounted on the plate and guided by the guide, a pivotal lever rotatably mounted on the plate and having an end coupled to the watertight panel, and a pivotal lever coupled to the watertight panel at one end and coupled to the guide, And a jack provided with a piston.

Therefore, such a conventional invention can be easily carried and moved by the self-propelled wheels and can be controlled on the ground, so that it can be installed quickly and easily with a minimum number of people. The installation and watertightness are firmly maintained, It is possible to repair, reinforce, and so on, so that it is possible to solve the problem caused by the conduction of the water-based material.

However, since it is driven by a self-propelled type by a robot that controls the ground, it is required to be put into a manhole such as a manhole which is prepared in advance. Sewage pipe for blocking sewage water for robot The watertight panel is difficult to move in the state where sewage is flowing. Since the car-receiving robot equipment is heavy, another crane equipment is required to put it into the working position. It is not easy to install the robot in the middle position of the work in order.

Korean Patent Registration No. 10-1279504 (Feb. 23, 2013) "A water barrier bypass system for maintenance of a sewer pipe and a water barrier bypass method thereof" has been disclosed.

However, even in the case of the above-mentioned registered patent, when there is a concern about leakage due to a poor installation structure of the order panel connecting socket for sealing while connecting the main-order panel and the auxiliary-order panel, when the order panel is bent and deformed, It is not a structure that can maintain the elasticity, and improvement is required.

Korea Patent Registration No. 10-0494356 (July 23, 2003) 'Method of Turning Water in a Pipeline Using Prefabricated Membrane Membranes' Korea Patent Registration No. 10-0886461 (Feb. 24, 2009) 'Watertight panel for the sewage pipe for sewer pipe order robot' Korea Patent Registration No. 10-1279504 (2013.06.21.) 'Tank bypass system for maintenance of sewer pipe and method of bypassing tanks'

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a sewage drainage bypass system in a vertical direction of a maintenance section of a sewer pipe to prevent sewage inflow from a maintenance section of the sewer pipe The main purpose of the present invention is to provide a system to which a water tap bypass method for repairing a sewer pipe which facilitates maintenance of a sewer pipe is applied.

The present invention provides, as means for achieving the above-mentioned object, a frame body 100; An actuating support arm (200) installed on both sides of the frame body (100) so as to be spread on both sides and supporting the frame body (100) in the wall (5) of the sewer pipe (1); An order panel 300 installed so as to be divided at the rear of the frame body 100 to block sewing water flowing through the sewer pipe 1; An excavator arm connector 400 provided at a front upper end of the frame body 100 and connected to the arm 41 of the excavator 40; And a sliding drive means for vertically moving the vertical panel 300 up and down from the rear of the frame body 100. The water shielding apparatus 10 is connected to an excavator 40 The sewage collecting device 10 is inserted into the sewage pipe 1 through which the sewage flows and the maintenance section P of the sewage pipe 1 is inserted into the arm 41 of the sewage pipe 1 using the arm 41 of the excavator 40. [ ) To shut off the sewage at the front and rear shutoff points P1 and P2 and to pump the sewage at the forward shutoff point P1 of the maintenance section P of the sewage pipe 1 to shut off the water shutoff device To bypass the sewage by the transfer pipe (30) to the opposite rear shutoff point (P2) which is blocked by the shutoff pipe (10); The frame body 100 has a plurality of through holes 111 and 121 opened to allow the sewage flowing through the sewer pipe to pass through the front portion of the frame body 100 so that the reaction force of the water draining apparatus 10 according to the flow rate of the sewage and the water pressure ; The operation support arm 200 includes a pair of left and right upper and lower operation frames 210 and 220A coupled to a hinge shaft 212 in front of the frame body 100; A connection operation rod 230 connected to the upper and lower operation frames 210 and 220A so as to perform the same operation; A drive cylinder 240 for hinging one side of the connecting rod 230 to the center and being hinged to the frame body 100 on the other side for actuating the upper and lower operation frames 210 and 220A to expand or contract )Wow; (250) having sliding protrusions (251) coupled to both ends of the upper and lower operation frames (210, 220A) to prevent slippage in the sewer pipe, 5, the water shielding apparatus 10 is installed to be fixed at an order point position with respect to the flow rate and flow rate of the sewage pushed along the sewer pipe 1 by the operation of the operation support arm 200 supported by the operation support arm 200; The order panel 300 includes a main order panel 310 installed at a rear central portion of the frame body 100; And a subsidiary order panel 320 and 320A slidably coupled to both sides of the main order panel 310. The subsidiary order panel 320 and the auxiliary order panel 320A are changed in size according to the diameter of the sewer pipe 1 Lt; / RTI > The sliding driving unit includes a rack moving bar 510 installed on the front surface of the order panel 300 and having a predetermined length in a vertical direction. A driving motor 520 installed at a rear upper end of the frame body 100 and having a pinion gear 521 for vertically moving the rack moving bar 510; A guide plate 530 vertically installed at a predetermined length from the rear surface of the frame body 100; And a slide plate 540 installed on one side of the front surface of the order panel 300 to have a predetermined length in the up and down direction and inserted into the guide plate 530 to guide the order panel 300 up and down. Main and auxiliary grooves 50 and 52 are formed on opposite surfaces of the main-order panel 310 and the auxiliary-order panels 320 and 320A, respectively. A ball groove 54 is formed on the inner rear wall of the main groove 50 and the auxiliary groove 52 in a curved manner. A main tee bar (56) and an auxiliary tee (58) are inserted into the main tee groove (50) and the auxiliary tee (52), respectively; Symmetrical ball insertion grooves 62 opposed to the ball grooves 54 are formed in one end surface of the main tebar 56 and the auxiliary tebar 58, The ball 60 is inserted into the ball insertion groove 62; The rolling ball 60 is bound so as not to be separated by the ball bracket 66 formed with the ball hole 64. The binding structure is a type of fastening the fixing bolt 68; The main socket housing 70 and the auxiliary socket housing 72 are integrally fixed to the other ends of the main and auxiliary tevers 56 and 58, respectively; The main socket housing 70 and the auxiliary socket housing 72 are formed in a cylindrical shape; A slit (74) is formed in the circumferential part in the longitudinal direction; A main spiral shaft (76) and an auxiliary spiral shaft (78) are fixed to the centers of the main socket housing (70) and the auxiliary socket housing (72) respectively; One end of each of the main spiral spring 80 and the auxiliary spiral spring 80 is wound on the main spiral shaft 76 and the auxiliary spiral shaft 78 while being fixed thereto; The other ends of the main spiral spring 80 and the auxiliary spiral spring 82 are pulled out through the slit 74 and then are coupled to both ends of the sealing film 84. The main spiral spring 80, And the auxiliary spiral spring (82) are arranged to be point symmetrically with respect to each other so as to maintain a constant tension at all times. The present invention also provides a system to which a water tray bypass method for repairing a sewer pipe is applied.

According to the present invention, the sewage is pumped at the forward shutoff point of the maintenance section of the sewer pipe, and the sewage is bypassed by the transfer pipe to the opposite rear shutoff point blocked by the water shutoff device. Therefore, It is possible to provide a watertight bypass system for maintenance of a sewer pipe which can be installed immediately without any space available.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a whole installation state showing a water film bypass system for maintenance of a sewer pipe according to the present invention; Fig.
FIG. 2 is a whole state view showing a water film bypass system for maintenance of a sewer pipe according to the present invention;
3 is an overall perspective view showing a water film taking-up device according to a water film bypass system for maintenance of a sewer pipe according to the present invention,
FIG. 4 is an exploded perspective view of FIG. 3,
Fig. 5 is a front view of Fig. 3,
Fig. 6 is a plan view of Fig. 5,
Figure 7 is a side view of Figure 3,
FIG. 8 is a plan view showing the operation of the water film taking-in apparatus according to the water film bypass system for the maintenance of the sewer pipe according to the present invention,
9 is a plan view showing a state before the operation support arm of the tundish water receiving apparatus is unfolded in the sewer pipe,
10 is a plan view showing a state in which an operation support arm of the water film taking-up device is deployed in a sewer pipe,
11 is a plan view showing a state after the operation support arm of the tundish water receiving apparatus is unfolded in the sewer pipe,
Fig. 12 is a state plan view of the water film taking-up device before the operation of the order panel in the sewer pipe,
Fig. 13 is a state plan view after the operation of an order panel of a tundish water receiving apparatus in a sewer pipe,
FIG. 14 is a state in which the sewer pipe is passed through the maintenance section of the sewer pipe,
Fig. 15 is a view showing the state of the water film taking-up device before insertion into the sewer pipe,
Fig. 16 is a state diagram of an apparatus for inserting a water tray into a sewer,
Fig. 17 is a diagram showing the state of the water film taking-up device after insertion into the sewer,
FIG. 18 is a view showing a state in which the installation of the water film taking-
FIG. 19 is a view showing a state in which the maintenance section is cut off by installing a water film taking-up device using an excavator both before and after the maintenance section of the sewer pipe,
20 is a view showing a process of bypassing sewage at the front and rear blocking points of the maintenance section of the sewer pipe,
21 is an exemplary view showing a further embodiment according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention utilizes the above-mentioned prior-art patent No. 1279504 as it is. Therefore, the features of the device configuration described below are all described in Patent Registration No. 1279504.

However, the present invention is characterized in that the additional embodiment portion in which the specific configuration is partially improved in order to achieve the object of the configuration disclosed in the above-mentioned Japanese Patent No. 1279504 is the most essential configuration feature.

Therefore, the device structure, characteristics, and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent Application No. 1279504, and the configuration related to the main features of the present invention will be described in detail at the rear end.

In the following description, the left and right sides of the sewer pipe 1 shown in FIG. 1 are described as a front and a rear. The sewer pipe 1, the sewer pipe 3, the sewer pipe 5, and the bottom pipe 7 are described.

1 to 20 show a water film bypass system and a water film bypass method for a sewer maintenance according to the present invention. FIG. 1 to FIG. 8 show a water film bypass system for maintenance of a sewer pipe according to the present invention. will be.

The water film bypass system for maintenance of sewer pipes according to the present invention is a water film bypass system which is inserted into the bidirectional shutoff points P1 and P2 at the front and rear of the maintenance section P of the sewer pipe 1, An order device (10); A sewage tank tank 20 for pumping sewage at the front sewage cut-off point P1 to store sewage; A transfer pipe (30) for transferring the sewage contained in the sewage tank tank (20) to the opposite side of the rear sewage water cutoff point (P2); .

The apparatus 10 according to the present invention comprises a frame body 100; An actuating support arm (200) actuated to unfold in front of the frame body (100); A water level panel 300 installed to be divided at the rear of the frame body 100 to block sewage water; An excavator arm connector (400) installed at a front upper end of the frame body (100) and connected to the excavator (40); A sliding drive means for driving the order panel 300 up and down from behind the frame body 100; .

The frame main body 100 includes a pair of front and rear support frames 110 and 120 formed to be flat and the front and rear support frames 110 and 120 have a sewer pipe 1 at a front portion thereof, A plurality of through holes 111 and 121 opened to allow the sewage flowing along the sewage passage 3 of the sewage pipe 1 to pass therethrough are formed.

Also, a connection frame 130 such as an H beam may be provided between the front and rear support frames 110 and 120 to reinforce the frame body 100 or to install some device boxes.

In addition, a connection bracket 140 may be formed on a front surface and a lower surface of the front support frame 110 so that the operation support arm 200 can be connected and rotated.

The front support frame 110 may be formed with a fixing bracket 150 for mounting the driving cylinder 240 for driving the actuating support arm 200 at a central portion of the front support frame 110.

The operation support arm 200 is installed on both sides of the frame body 100 so as to extend from the front of the frame body 100 to support the frame body 100 in the wall 5 of the sewer pipe 1. The frame body 100 A pair of left and right upper and lower operation frames 210 and 220A axially coupled to the front of the upper and lower operation frames 210A and 220A; A connection operation rod 230 connected to the upper and lower operation frames 210 and 220A so as to perform the same operation; A driving cylinder 240 for hinging one end of the connecting rod 230 at the center and axially coupling the other end of the connecting rod 230 to the frame body 100 to open and close the upper and lower operation frames 210 and 220A )Wow; And a sliding stopper 250 coupled to both ends of the upper and lower operation frames 210 and 220A to prevent slippage in the sewer pipe 1. [

The upper and lower operation frames 210 and 220A include a body 211 extending in the form of a frame having a predetermined length such as an arm and a front support frame 110 of the frame body 100 at one side of the body 211. [ A connecting pin 213 for pin-joining the sliding support 250 to the other side and a connecting pin 213 for connecting the sliding supporting shaft 250 to the connecting operation rod 230 are axially coupled.

Preferably, the upper and lower operation frames 210 and 220A are formed to be bent at a predetermined angle in front of the frame body 100. This is to provide a response force against the water pressure of the sewage pushed from the rear of the frame body 100. The shape and angle of the bent body are not limited to such a degree and the sewing water pressure can be increased enough to cope with the sewage water pressure.

The connecting operation rod 230 is a pipe rod connecting the upper and lower operation frames 210 and 220A so that upper and lower ends thereof are axially coupled to the body 211 of the upper and lower operation frames 210 and 220A .

The connecting rod 230 is formed so that the driving cylinder 240 is coupled to the center of the connecting rod 230 in the vertical direction.

One end of the driving cylinder 240 is coupled to the connecting operation rod 230 in a ring shape and the other end is connected to a fixing bracket 150 formed at the front center portion of the front support frame 110 and a hinge rod 151 . At this time, the one end and the other end of the driving cylinder 240 are preferably coupled so as to freely rotate in a ring shape. This is to allow the operation support arm 200 to smoothly operate while allowing both ends of the drive cylinder 240 to have a free movement radius in accordance with the movement of the operation support arm 200.

The slip prevention protrusions 251 are formed so that one surface of the slip stopper 250 facing the wall 5 of the sewer pipe 1 protrudes in the form of a sawtooth shape to perform close and anti-slip functions desirable.

The main panel 300 is installed at a rear portion of the frame body 100 to block sewage flowing through the sewage passage 3. The main panel 300 includes a main- (310); A subsidiary order panel 320 (320A) slidably coupled to the left and right of the main order panel 310 and adapted to be changeable according to the diameter of the sewer pipe; An expansion tube 330 installed along the side and bottom edge of the auxiliary order panels 320 and 320A to maintain a watertightness between the wall 5 of the sewage pipe 1 and a clearance between the wall panels 5 and 300; And a bottom support hole 340 installed at a lower end of the main anchor panel 310 for maintaining the watertightness between the aerator panel 300 and the bottom surface 7 of the sewer pipe 1.

The main-order panel 310 and the subsidiary-order panels 320 and 320A are integrally formed at both ends of one side edge along the edge of the main body, And further includes sockets 350 and 350A and the connection between the main-order panel 310 and the respective side-panel connection sockets 350 and 350A of the auxiliary-order panels 320 and 320A The auxiliary order panels 320 and 320A are formed to be slidable from the left and right sides of the main order panel 310. [

On the other hand, a supply nozzle 321 for supplying air or water to the expansion tube 330 is formed above the auxiliary order panels 320 and 320A.

The excavator arm connector 400 is connected to the arm 41 of the excavator 40 by being installed at a front upper end of the frame body 100. The excavator arm connector 400 is disposed on the upper side of the front support frame 110 of the frame body 100, And a link structure for engaging with the arm 41 of the excavator 40 from the front to the front.

The sliding drive unit drives the vertical panel 300 up and down from the rear of the frame body 100 to vertically and vertically move the front panel of the main level panel 310 and the auxiliary level panels 320, And a pinion gear 521 for vertically moving the rack moving bar 510. The rack moving bar 510 is installed at the upper end of the rear supporting frame 120 of the frame body 100, A guide plate 530 vertically installed at a predetermined length from the rear surface of the rear support frame 120 of the frame body 100; And a slide plate 540 installed at a predetermined length in the vertical direction on one side of the front surface of the guide plate 320 and the guide plate 530 so as to guide the guide panel 300 up and down. do.

The guide plate 530 is formed with a guide guide groove 531 and one side of the slide plate 540 is formed to have a slide protrusion 541 for engaging with the guide guide groove 531 .

The sewage tank 20 is connected to a pump 21 for pumping sewage at one side for pumping sewage at the front sewage cut-off point P1 to store the sewage, And the other end is formed to have a discharge port 22 for discharging sewage water to the transfer pipe 30.

Here, the sewage water tank 20 self-drains the sewage, thereby preventing malfunction of the mechanical device due to sludge and overloading of the pumping motor at the time of forced pressurization in the sewage bypass section.

The transfer pipe 30 pumps the sewage to the pump 30 at the two-way shutoff points P1 and P2 before and after the maintenance section of the sewage pipe 3 to transfer the sewage to the opposite side, The flexible tubular body is flexible regardless of the conveying length depending on the site conditions in the conveyance of the sewage, and can be made to be selected from a woven fabric or a nonwoven fabric of polyester fiber.

In addition, the tube body is formed by coating a polyester film for maintaining watertightness on both the inner and outer surfaces of the surface fibers, and forming the tubular body by thermally welding. This is a connection pipe of polyvinyl chloride (PVC) and a corrugated pipe as a discharge pipe for flowing sewage. In this case, since the efficiency is ineffective for the purpose of connecting the joints every 6 meters, it is possible to provide a flexible It is preferable to use a polyester tube as a transfer tube.

In addition, the tube body constituting the transfer tube may be formed to laminate one or more layers of polyvinyl, polyurethane, and polyurethane film layers for watertightness maintenance and strength reinforcement, or may be made of reinforced area fibers (glass fiber) .

Hereinafter, the operation and effect of the water tray bypass system for the maintenance of the sewer pipe according to the present invention will be described.

FIGS. 9 to 13 are plan views showing the process of installing the water film taking-in apparatus according to the water film bypass system for the maintenance of the sewer pipe according to the present invention in the sewer pipe. FIGS. 14 to 20 are cross- And a water tapping system according to the water tap bypass system for the water tap system for the water tap system is installed in the sewer pipe.

First, the water leveling panel 300 of the water curtain receiving apparatus 10 is vertically inserted in the maintenance section P of the sewer pipe 1 at the front and rear two-way blocking points P1 and P2, Is supported by the wall 5 of the sewer pipe 1 so as to be tightly fixed in the sewer pipe 3 of the sewer pipe 1 so that the sewage water flowing through the sewer pipe 1 As shown in FIG.

Next, the sewer is pumped at the blocked front end point P1 of the maintenance section P of the sewer pipe 1.

Next, the sewage is pumped at the front sewage cut-off point P1 to store the sewage in the sewage tank 20.

Finally, the sewage in the sewage tank 20 can be bypassed by the transfer pipe 30 to the opposite side of the rear shutoff point P2.

In other words, the water shielding apparatus 10 is mounted on the arm 41 of the excavator 40 and the water shielding apparatus 10 is inserted into the sewer pipe 1 through which the sewage flows using the excavator arm 41, (P1) of the maintenance section (P) of the sewage pipe (1), and the sewage is shut off at the front shutoff point (P1) of the maintenance section (P) And the waste water is stored in the sewage water tank 20 so that the sewage is bypassed by the transfer pipe 30 to the opposite rear shutoff point P2 blocked by the water shutoff device 10.

A plurality of through holes 111 and 121 are formed in the front portion of the frame main body 100 of the tundish water receiving apparatus 10 to allow sewage flowing through the sewer pipe to pass therethrough, And a reaction force of the water shielding device according to the water pressure.

On the other hand, with the operation of the operation support arm 200 supported by the wall 5 of the sewer pipe 1, the water film taking-up device 10 does not shake with respect to the flow rate and the flow rate of the sewage pushed along the sewer pipe 1 It can be installed to be fixed at the position of the order point.

In addition, the auxiliary order panels 320 and 320A slidingly connected to the left and right sides of the main order panel 310 are replaced by the size of the auxiliary order panels 320 and 320A according to the diameter of the sewer pipe 1 .

As described above, the water film bypass method using the water film bypass system for the maintenance of the sewer pipe of the present invention will be described as follows.

FIGS. 9 to 13 are plan views showing the process of installing the water film taking-in apparatus according to the water film bypass system for the maintenance of the sewer pipe according to the present invention in the sewer pipe. FIGS. 14 to 20 are cross- And a water tapping system according to the water tap bypass system for the water tap system for the water tap system is installed in the sewer pipe.

Hereinafter, the right and left sides of the sewer pipe 1 shown in FIG. 1 will be described as a front and a rear, respectively. In FIG. 1, a sewer pipe 1, a sewer pipe 3, a wall 5, and a bottom 7 are described.

The water film bypass method using the water film bypass system for maintenance of the sewer pipe of the present invention is inserted into the two-way water cutoff points P1 and P2 at the front and rear of the maintenance section P of the sewer pipe 1, (10) which is installed so as to allow the water to flow; A sewage tank tank 20 for pumping sewage at the front sewage cut-off point P1 to store sewage; A transfer pipe (30) for transferring the sewage contained in the sewage tank tank (20) to the opposite side of the rear sewage water cutoff point (P2); .

[Sewer maintenance section cut-off point excavation step]

The sewage passage 3 shutoff point P1 and the shutoff point P1 according to the maintenance interval P of the sewage pipe 1 are set and the upper end cutoff point P1 of the sewage passage 3 before and after the maintenance section P P2) is excavated (see Fig. 14)

[Steps to install water damper system]

The water shielding apparatus 10 for blocking sewage flowing through the sewage passage 3 shutoff points P1 and P2 of the sewer pipe 1 is mounted on the arm 41 of the excavator 40. [

[Step of injecting water damper system]

The water shutoff device 10 mounted on the excavator 40 is connected to the bottom surface of the sewage passage 3 in the sewage passage 3 through which sewage flows at the shutoff points P1 and P2 of the front and rear sewage passage 3, 7). (See Fig. 15)

[Fixing step for water damper]

An operation supporting arm provided on the water channel water taking-in device 10 inserted into the sewage channel 3 is unfolded and supported by the wall 5 of the sewage channel 3 while the water channeling water receiving device 10 is stably And is mounted so as to position it so as to be erected. [See FIG. 16]

[Level Panel Down Step]

After securing the position of the water shielding water receiving apparatus 10, the central water shielding panel installed on the water shielding water receiving apparatus is lowered vertically to the bottom surface 7 of the sewage passage 3 (see FIG. 17 ]

[Blocking point sewage pumping phase]

After the water level panel 300 at the center part descends, the sewage is pumped by injecting the pump into the front sewage passage 3 into which the sewage flows. (See FIG. 18)

[Steps to block the sewer passage]

The left and right water level panels installed on the upper part of the water dam system (10) are vertically lowered while the sewage pumping of the cutoff point is performed to block and close the remaining sections of the left and right sidewalls (5) 18 to 19)

[Sewage storage step]

The sewage is pumped at the front sewage cut-off point P1 to store the sewage in the sewage tank 20. [

[Sewage Bypass Step]

The sewage stored in the sewage tank 20 is bypassed to the sewer pipe 30 through the transfer pipe 30 so as to continuously flow the sewage to the opposite side of the rear panel of the sewage pipe 1. [ Reference]

As described above, in the maintenance section (P) of the sewer pipe (1) through the water film bypass method using the water film bypass system for maintenance of the sewer pipe according to the present invention, It can be installed so as to block the sewage flowing in the sewage passage 3 of the sewage pipe 1 by vertically inserting the water separator 10.

In addition, the sewage is pumped at the blocked front end P1 of the sewer pipe 1 and stored in the sewage tank 20 so that it can be safely and safely transported along the transport pipe 30 across the rear shutoff point P2 The sewage can be bypassed.

Accordingly, the inflow of sewage in the maintenance section P of the sewer pipe 1 can be blocked, and the work for maintenance of the sewer pipe 1 can be smoothly performed.

The main-order panel 310 and the auxiliary-order panel 320 can be improved by improving the structure of the order-panel connecting sockets 350 and 350A through the further embodiment as shown in FIG. 21 while assuming the above- So that the sealing property between the sealing portions 320A can be maintained more tightly.

21, main and auxiliary grooves 50 and 52 are formed on opposite surfaces of the main-order panel 310 and the auxiliary-order panels 320 and 320A, respectively.

In addition, a ball groove 54 is formed in a curved shape in the inner rear wall of the main and auxiliary grooves 50 and 52.

A main tee 56 and an auxiliary tee 58 are inserted into the main tee groove 50 and the auxiliary tee 52, respectively.

Since the main tee 56 and the auxiliary tee 58 have a relatively long length, the main tee 56 and the auxiliary tee 52 may become stiff when they are inserted into the main tee groove 50 and the auxiliary tee 52.

To solve this problem, in a further embodiment of the present invention, there is provided a cloud ball 60, which is mounted in the same structure in the main teba 56 and the auxiliary teba 58.

A symmetrical ball insertion groove 62 opposed to the ball groove 54 is formed in one end surface of the main tee 56 and the auxiliary tee 58. The ball insertion groove 62 is formed with a rolling ball 60 And the ball 60 is coupled so as not to be separated by the ball bracket 66 formed with the ball hole 64. The coupling structure is a form in which the fixing bolt 68 is fastened.

When the main tee 56 and the auxiliary tee 58 are inserted into the main grooves 50 and the auxiliary grooves 52 respectively, the protruded rolling balls 60 move in rolling contact with the ball grooves 54, Therefore, it is possible to secure a very smooth assembling property.

The main socket housing 70 and the auxiliary socket housing 72 are integrally fixed to the other ends of the main and auxiliary tabs 56 and 58, respectively.

The main socket housing 70 and the auxiliary socket housing 72 are formed in a cylindrical shape and a slit 74 is formed in a part of the circumference of the main socket housing 70 in the longitudinal direction.

A main spiral shaft 76 and an auxiliary spiral shaft 78 are fixed to the centers of the main socket housing 70 and the auxiliary socket housing 72. The main spiral shaft 76 and the auxiliary spiral shaft 78 78 are wound with one end of each of the main spiral spring 80 and the auxiliary spiral spring 80 being fixed.

The other ends of the main spiral spring 80 and the auxiliary spiral spring 82 are pulled out through the slit 74 and are then bound to both ends of the sealing film 84.

In particular, the main spiral spring 80 and the auxiliary spiral spring 82 are arranged so as to be symmetric with respect to each other so as to always maintain a constant tension.

Therefore, even if the auxiliary-order panels 320 and 320A are bent and deformed with respect to the main-order panel 310, the main springs 80 and the auxiliary springs 82 are pulled or pulled together, The sealing film 84 is bent by the bent angle so that the sealing can be continuously maintained in a taut state.

As a result, the main-order panel 310 and the auxiliary-order panels 320 and 320A can be freely moved. As the main spiral spring 80 and the auxiliary spiral spring 82 are pulled or pushed together, It is possible to realize a stable sealing force because the tension is maintained.

1: sewer pipe 10: clogging device
20: sewage tank tank 30: transfer pipe
40: Excavator

Claims (1)

A frame body (100); An actuating support arm (200) installed on both sides of the frame body (100) so as to be spread on both sides and supporting the frame body (100) in the wall (5) of the sewer pipe (1); An order panel 300 installed so as to be divided at the rear of the frame body 100 to block sewing water flowing through the sewer pipe 1; An excavator arm connector 400 provided at a front upper end of the frame body 100 and connected to the arm 41 of the excavator 40; And a sliding drive means for vertically moving the vertical panel 300 up and down from the rear of the frame body 100. The water shielding apparatus 10 is connected to an excavator 40 The sewer water receiving apparatus 10 is inserted into the sewage pipe 1 through which the sewage flows and the maintenance section P of the sewer pipe 1 is inserted into the arm 41 of the sewer pipe 1 using the arm 41 of the excavator 40. [ ) To shut off the sewage at the front and rear shutoff points P1 and P2 and to pump the sewage at the forward shutoff point P1 of the maintenance section P of the sewage pipe 1 to shut off the water shutoff device To bypass the sewage by the transfer pipe (30) to the opposite rear shutoff point (P2) which is blocked by the shutoff pipe (10); The frame body 100 has a plurality of through holes 111 and 121 opened to allow the sewage flowing through the sewer pipe to pass through the front portion of the frame body 100 so that the reaction force of the water draining apparatus 10 according to the flow rate of the sewage and the water pressure ; The operation support arm 200 includes a pair of left and right upper and lower operation frames 210 and 220A coupled to the hinge shaft 212 in front of the frame body 100; A connection operation rod 230 connected to the upper and lower operation frames 210 and 220A so as to perform the same operation; A drive cylinder 240 for hinging one side of the connecting rod 230 to the center and hinged to the frame body 100 on the other side for actuating the upper and lower operation frames 210 and 220A to expand or contract )Wow; (250) having sliding protrusions (251) coupled to both ends of the upper and lower operation frames (210, 220A) to prevent slippage in the sewer pipe, 5, the water shielding apparatus 10 is installed to be fixed at an order point position with respect to the flow rate and flow rate of the sewage pushed along the sewer pipe 1 by the operation of the operation support arm 200 supported by the operation support arm 200; The order panel 300 includes a main order panel 310 installed at a rear central portion of the frame body 100; And a subsidiary order panel 320 and 320A slidably coupled to both sides of the main order panel 310. The subsidiary order panel 320 and the auxiliary order panel 320A are changed in size according to the diameter of the sewer pipe 1 Lt; / RTI > The sliding driving unit includes a rack moving bar 510 installed on the front surface of the order panel 300 and having a predetermined length in a vertical direction. A driving motor 520 installed at a rear upper end of the frame body 100 and having a pinion gear 521 for vertically moving the rack moving bar 510; A guide plate 530 vertically installed at a predetermined length from the rear surface of the frame body 100; And a slide plate 540 installed on one side of the front surface of the order panel 300 to have a predetermined length in the up and down direction and inserted into the guide plate 530 to guide the order panel 300 up and down.
Main and auxiliary grooves 50 and 52 are formed on the opposite surfaces of the main-order panel 310 and the auxiliary-order panels 320 and 320A, respectively. A ball groove 54 is formed on the inner rear wall of the main groove 50 and the auxiliary groove 52 in a curved manner. A main tee bar 56 and an auxiliary tee bar 58 are inserted into the main tee groove 50 and the auxiliary tee 52 in such a manner as to be fitted from top to bottom, respectively; Symmetrical ball insertion grooves 62 opposed to the ball grooves 54 are formed in one end surface of the main tebar 56 and the auxiliary tebar 58, The ball 60 is inserted into the ball insertion groove 62; The rolling ball 60 is bound so as not to be separated by the ball bracket 66 formed with the ball hole 64. The binding structure is a type of fastening the fixing bolt 68; The main socket housing 70 and the auxiliary socket housing 72 are integrally fixed to the other ends of the main and auxiliary tevers 56 and 58, respectively; The main socket housing 70 and the auxiliary socket housing 72 are formed in a cylindrical shape; A slit (74) is formed in the circumferential part in the longitudinal direction; A main spiral shaft (76) and an auxiliary spiral shaft (78) are fixed to the centers of the main socket housing (70) and the auxiliary socket housing (72) respectively; One end of each of the main spiral spring 80 and the auxiliary spiral spring 82 is wound on the main spiral shaft 76 and the auxiliary spiral shaft 78 while being fixed thereto; The other ends of the main spiral spring 80 and the auxiliary spiral spring 82 are pulled out through the slit 74 and then are coupled to both ends of the sealing film 84. The main spiral spring 80, And auxiliary spiral springs 82 are symmetrically arranged with respect to each other so that the auxiliary spiral panels 320 and 320A are bent and deformed with respect to the main order panel 310, Wherein the sealing film (84) is kept at a constant tension so that the sealing film (84) can be tightly sealed while being kept at a constant tensile force by releasing or releasing the elastic springs (82) A system with a tundish bypass method applied.

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