KR102405119B1 - Bypass and flow control system for folding square pipelines - Google Patents

Abstract

The present invention relates to a bypass and flow control system for a folding square pipeline, which provides convenience for installation and removal through a manhole by the folding structure of the water barrier module, and the water barrier module is configured with a vertical support member in the square tube. Since it is firmly supported by the lateral support member, the water barrier module 100, the flow valve 200, and the inner flow control tube 300 are installed to improve the support strength against high water pressure and to secure safety for the repair of large pipelines. including the main components.

Description

Bypass and flow control system for folding square pipelines

The present invention relates to a foldable water turn system for conduit repair, and more specifically, the folding structure of the water barrier module provides convenience of installation and removal through a manhole, and the water barrier module is a vertical support member and a horizontal type in a square pipe. It relates to a bypass and flow control system for a folding-type square pipeline that can secure safety for repair of large pipelines by improving bracing strength against high water pressure because it is firmly supported by a bracing member.

In general, concrete conduits are exposed to transport objects that achieve their original functions, that is, water supply and sewage, as well as other installation ground or groundwater. New repair and reinforcement methods are being proposed for aging and various defects.

Among them, a method of repairing the inside of a concrete conduit by a non-excavation method is widely applied, where the non-excavation repair method is a repair mechanism in which a chemical spray hole is installed in the middle of a cylindrical rubber tube, and the chemical liquid is dispensed with the rubber tube inflated. Although the damaged part of the pipeline is repaired by spraying, there are difficulties in repairing using the chemical because the contents such as water, sewage, and sewage are flowing in the pipeline in the process of spraying the chemical.

Accordingly, in Patent No. 10-0758724 disclosed in the prior art, water treatment by blocking cracks while cleaning the inside of the manhole; The manhole adhesion part and the manhole adhesion part which are in close contact with the inner wall of the manhole are integrally formed to be inserted into the inside of the tube and the tube insert part is formed in close contact with the inner diameter of the tube. attaching a socket-type manhole repair member impregnated with a coating layer formed on the outer surface into the connecting portion of the inlet pipe and the manhole and the connecting portion of the outlet pipe and the manhole, respectively; Insert the water return packer into the water channel of each socket-type manhole repair member, connect the water return hose to the water return packer, expand the water return packer, and press the socket-type manhole repair member to help the attachment and also allowing the contents to be directly guided and discharged from the inlet pipe to the outlet pipe without going through a manhole; A step of natural curing by attaching a sheet-type manhole repair member with an adhesive surface impregnated with an adhesive curing resin and a coating layer formed on the outer surface to the inner wall and bottom of the manhole as a whole; And when the attachment of the manhole repair member is completed, the technology configured including the step of withdrawing the water return packer and the water return lake has been previously presented.

However, in the prior art, the contents are guided and flowed directly from the inlet pipe to the outlet pipe without going through the manhole, so that the inside of the manhole can be easily repaired. The manhole repair member must be fixed to the manhole discharge pipe. At this time, if the manhole repair member is damaged and cannot maintain the round shape, the socket-type manhole repair member cannot closely adhere to the inner peripheral surface of the manhole discharge pipe, resulting in leakage.

KR 10-0758724 B1 (2007.09.07.)

Accordingly, the present invention was conceived to solve the above problems, and the folding structure of the clapboard module provides convenience of installation and removal through a manhole, and the clapboard module is a vertical brace member and a horizontal brace member in a square pipe line. The purpose of this is to provide a bypass and flow control system for a folding type square pipe that can secure safety for maintenance of large pipes by improving the strength of the support against high water pressure because it is supported firmly by

In order to achieve this object, a feature of the present invention is the folding operation to enter the front and rear of the damaged square pipe (1), and a water barrier module 100 through which a plurality of inner flow pipes 110 are formed; a flow valve 200 installed on the inner flow pipe 110 of the water barrier module 100 and provided to control the flow rate by an opening and closing operation; and an inner flow rate control pipe 300 having both ends connected to the inner flow pipe 110 of the water barrier module 100 and installed to pass through the damaged square pipe line 1 .

At this time, the water barrier module 100 is disposed in the longitudinal direction inside the rectangular pipe 1, and the wheel 122 is installed to move on the inner floor of the rectangular pipe 1, and the upper and lower sides of the rectangular pipe 1 ) A vertical support member 120 provided with a vertical fixing module 124 for pressing the inner upper and lower surfaces, and a hinge on the vertical support member 120 are installed to be foldable as an axis, and opened and closed by a door 132 A pair of water barrier panels 130 having an opening 133 formed therein, a vertical support member 120 corresponding to the inner circumferential surface of the square pipe line 1, and an airtight member 140 installed at the edge of the water barrier panel 130 characterized in that

In addition, the airtight member 140 includes an elastic pad 142 installed to surround the edge of the vertical brace 120 and the clap panel 130 , and the vertical brace 120 and the clap panel 130 at the edge. It is characterized in that it includes a mill piece 144 for expanding and pressing the elastic pad 142 by the pitch transfer of the adjusting screw 143, which is arranged in division.

In addition, the closure panel 130 is provided so that the folding operation is controlled by the expansion-type driving unit 150, the expansion-type driving unit 150, a rod rod 152 installed in the transverse direction on the back surface of the closure panel 130 and A hydraulic cylinder ( 156), and when the water barrier panel 130 is folded, the guide block 154 is moved to the vertical holding member 120 side, and when the water barrier panel 130 is unfolded, the guide block 154 is It is characterized in that it is provided to support the water barrier panel 130 at a position spaced apart from the vertical holding member 120 by moving toward the edge of the water barrier panel 130 .

In addition, the door 132 is provided to be locked by a double locking module 134 in a state in which the opening 133 is closed, and the double locking module 134 has a locking hole formed on an inner peripheral surface of the opening 133 . 134a, a fixed lock pin 134b formed on a side surface corresponding to the pivot shaft of the door 132 and bound to the lock hole 134a, and formed on the other side surface of the door 132 and protruded by the driving unit and a floating lock pin 134c coupled to the lock hole 134a, wherein the door 132 is provided to be double-locked by the fixed lock pin 134b and the floating lock pin 134c in a closed state. do.

In addition, a horizontal brace member 160 connected to the vertical brace member 120 and supported in the transverse direction on the inner wall of the square pipe line 1 is provided, and the horizontal brace member 160 is a vertical brace member 120 . A support arm 162 that is installed to be foldable on the vertical support member 120 and unfolds to form a 90° angle, and a horizontal support arm mounted on the vertical support member 120 in a state supported by the support arm 162 (164), the horizontal fixing module 166 installed at both ends of the horizontal brace arm 164 to press the inner side wall of the square pipe line 1, and one end is coupled to the horizontal brace arm 166 by a hinge, and the other end is It is coupled to the edge portion of the clapboard 130 by a hinge, and the expansion and contraction is controlled by the pitch transfer of the screw part 167, and it is characterized in that it includes a telescopic arm 168 that supports the clapboard 130.

In addition, the flow valve 200 is provided with a valve plate 210 formed in an expanded size compared to the diameter of the flow pipe 110 , and the valve plate 210 is a drive shaft 220 disposed on one side of the flow pipe 110 . It is characterized in that it is provided so as to adjust the opening and closing amount while turning around the.

In addition, the manholes (2) positioned before and behind the square pipe (1) form a bypass flow path by the outer flow rate control module 400, and the outer flow rate control module 400 is the front manhole (2) A suction pipe 410 inserted and installed in the, a pump 420 connected to the suction pipe 410 to suck a fluid, one end connected to the pump 420, and the other end being inserted into the rear manhole 2 and installed in the discharge pipe It includes 430 and is characterized in that it is provided to disperse and drain the fluid moving to the damaged square pipe line (1) by using the outer flow control module 400 and the inner water return engine 300 in combination.

According to the above configuration and action, according to the present invention, the convenience of installation and removal through a manhole is provided by the folding structure of the water barrier module, and the water barrier module is firmly supported by the vertical and horizontal support members in the square pipe pipe. It has the effect of securing safety for the repair of large pipelines as the bearing strength against high water pressure is improved.

1 is a block diagram showing the overall configuration of the bypass and flow control system of the folding type square pipe according to an embodiment of the present invention.
Figure 2 is a block diagram showing the installation state of the bypass and flow control system of the folding type square pipe according to an embodiment of the present invention.
3 to 5 are block diagrams showing a water barrier module of the bypass and flow rate control system of the folding type square pipe according to an embodiment of the present invention.
Figure 6 is a configuration diagram showing the airtight member of the bypass and flow control system of the folding type square pipe according to an embodiment of the present invention.
7 to 8 are diagrams showing the double locking module of the bypass and flow control system of the folding type square pipe according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. And in the description of the present invention, if it is determined that the subject matter of the present invention may be unnecessarily obscured as it is obvious to those skilled in the art with respect to related known functions, the detailed description thereof will be omitted.

1 is a block diagram showing the overall bypass and flow control system of a folding type rectangular pipe according to an embodiment of the present invention, and FIG. 2 is a diagram showing bypass and flow control of a folding type rectangular pipe according to an embodiment of the present invention. It is a block diagram showing the installation state of the system, and FIGS. 3 to 5 are block diagrams showing the bypass and flow rate control system of the folding-type square pipe according to an embodiment of the present invention, and FIG. 6 is a block diagram of the present invention. It is a configuration diagram showing the airtight member of the bypass and flow control system of the folding type square pipe according to an embodiment, and FIGS. 7 to 8 are the bypass and flow control system of the folding type rectangular pipe according to an embodiment of the present invention It is a block diagram showing the double locking module of

The present invention relates to a bypass and flow control system for a folding square pipeline, which provides convenience for installation and removal through a manhole by the folding structure of the water barrier module, and the water barrier module is configured with a vertical support member in the square tube. Since it is firmly supported by the horizontal holding member, the holding strength against high water pressure is improved, so that the water barrier module 100, the flow valve 200, and the inner flow control pipe 300 can be installed to ensure safety for the repair of large pipelines. including the main components.

The water barrier module 100 according to the present invention is operated by folding to enter the front and rear of the damaged square pipe line 1 , and a plurality of inner flow pipes 110 are formed therethrough. That is, the water barrier module 100 is inserted through the manhole in a folded state, moved to a predetermined position inside the rectangular pipe 1, and then unfolded.

1 to 3, the water barrier module 100 is disposed in the longitudinal direction inside the square pipe line 1, and the wheel 122 is installed so as to move on the inner floor of the rectangular pipe line 1, upper and lower A vertical support member 120 provided with a vertical fixing module 124 for pressing the upper and lower surfaces of the square pipe line 1, and a hinge on the vertical support member 120 are installed to be foldable as an axis, and a door 132 A pair of water barrier panels 130 having an opening 133 opened and closed by the 140).

Here, the vertical fixing module 124 is linearly moved in the longitudinal direction by a manual lever or a hydraulic cylinder and is provided to be pressed on the inner upper surface of the conduit 1 .

In addition, the airtight member 140 includes an elastic pad 142 installed to surround the edge of the vertical holding member 120 and the water barrier panel 130, and the vertical holding member 120 and the water barrier panel 130 on the edge. It is dividedly arranged and includes a push piece 144 that expands and presses the elastic pad 142 by the pitch transfer of the adjusting screw 143 .

At this time, the push piece 144 is formed in a circular rod, and the elastic pad 142 is extended while being transferred to the edge of the vertical holding member 120 and the clapboard panel 130 by an adjusting screw 143 or a hydraulic cylinder, The airtightness between the inner circumferential surface of the conduit 1 and the water barrier module 100 is highly improved by the expansion force of the elastic pad 142 .

In FIG. 3 , the water curtain panel 130 is provided such that the folding operation is controlled by the expansion-type driving unit 150 .

The expandable driving unit 150 includes a rod rod 152 installed in the transverse direction on the back surface of the water barrier panel 130 , a guide block 154 installed to be linearly transported on the rod rod 152 , and a guide block 154 . ) one end is coupled to the hinge, and the other end includes a hydraulic cylinder 156 coupled to the vertical support member 120 by a hinge.

Accordingly, when the water barrier panel 130 is folded, the guide block 154 is moved to the vertical holding member 120 side, and when the water barrier panel 130 is unfolded, the guide block 154 is the water barrier panel 130. As it is moved to the edge and is provided to support the clapboard panel 130 at a position spaced apart from the vertical holding member 120, the clogging panel 130 supporting force is maintained firmly even when the water pressure increases, and in particular, the guide block 154. Due to the nature of this variable arrangement, the operating distance of the hydraulic cylinder 156 is reduced, so that the hydraulic system can be miniaturized.

7 to 8 , the door 132 is provided to be locked by the double locking module 134 in a state in which the opening 133 is closed.

The double locking module 134 includes a lock hole 134a formed on the inner peripheral surface of the opening 133 and a lock pin 134b formed on a side surface corresponding to the pivot shaft of the door 132 and coupled to the lock hole 134a. ) and a flow lock pin 134c formed on the other side of the door 132 and protruded by the driving unit to be bound to the lock hole 134a.

As the door 132 is provided to be double-locked by the fixed lock pin 134b and the floating lock pin 134c in the closed state, the closing support force of the door 132 is firmly maintained even when the water pressure increases.

On the other hand, the operator can enter the square pipe (1) through the opening 133 opened and closed by the door 132, so that the large pipe repair work is effectively performed.

In FIG. 3 , a horizontal brace member 160 connected to the vertical brace member 120 and supported in the transverse direction on the inner wall of the square pipe line 1 is provided.

The horizontal brace member 160 is installed to be foldable on the vertical brace member 120, and is supported by a support arm 162 that is opened and operated to form a 90° angle with the vertical brace member 120, and the support arm 162. A horizontal brace module 166 installed at both ends of the horizontal brace arm 164 to press the inner sidewall of the square pipe line 1, and a horizontal brace One end is coupled to the arm 166 by a hinge, the other end is coupled to the edge of the clapboard panel 130 by a hinge, and the expansion and contraction arm is adjusted by the pitch transfer of the screw part 167 to support the clapboard panel 130 . (168).

At this time, the horizontal fixing module 166 is provided to be moved in a straight line in the lateral direction by a manual lever or a hydraulic cylinder to be pressed against the inner sidewall of the square pipe line (1).

As such, the vertical brace member 120 is supported in the longitudinal direction inside the rectangular pipe line (1), and the vertical brace member 120 and the horizontal brace member 160 disposed in a '+' shape are square pipe (1). It is supported in the transverse direction from the inside so that the fixing power of the water barrier module 100 is firmly maintained. There are advantages provided.

In addition, the flow valve 200 according to the present invention is installed in the inner flow pipe 110 of the water barrier module 100, and is provided to adjust the flow rate by an opening and closing operation. The flow valve 200 is provided with a plurality of types between each other in size.

At this time, the flow valve 200 is provided with a valve plate 210 formed in an expanded size compared to the diameter of the flow pipe 110 , and the valve plate 210 is a drive shaft 220 disposed on one side of the flow pipe 110 . It is provided so that the opening and closing amount is adjusted while turning around the.

In this way, as the flow rate through the inner flow pipe 110 is controlled using the flow valve 200, the flow rate can be adjusted in response to the regular flow rate inside the pipeline 1, and an outer flow rate control module 400 to be described later and In connection, the output of the outer flow rate control module 400 can be effectively used by returning water to the inner flow pipe 110 for a flow rate exceeding the water flow processing capacity by the outer flow rate control module 400 .

In addition, both ends of the inner flow control pipe 300 according to the present invention are connected to the inner flow pipe 110 of the water barrier module 100 and are installed to pass through the damaged square pipe line 1 .

The inner flow control pipe 300 is formed to have a smaller diameter compared to the inner cross-sectional area of the damaged square pipe line 1 to secure a working space for pipe line repair.

On the other hand, the inner flow rate control tube 300 is supported by a plurality of support shuttles, the support shuttle is provided with a plurality of wheels installed on the bottom surface to be movable in the pipeline. Accordingly, even if the inner flow rate control tube 300 flows while performing the water rotation operation, damage due to friction is prevented as the support shuttle is moved together.

In FIG. 1 , the manholes 2 positioned at the front and rear of the square pipe 1 are provided to form a bypass flow path by the outer flow rate control module 400 .

The outer flow control module 400 has a suction pipe 410 inserted and installed in the front manhole 2, a pump 420 connected to the suction pipe 410 to suck a fluid, and one end connected to the pump 420 and the other end includes a discharge pipe 430 inserted and installed in the rear manhole (2).

As such, the outer flow control module 400 and the inner water circulation engine 300 are used in combination to disperse and drain the fluid moving to the damaged square pipe line 1, so that the water circulation efficiency in the section with a large flow rate is improved. do.

As described above, in the detailed description of the present invention, the most preferred embodiment of the present invention has been described, but various modifications are possible within the scope not departing from the technical scope of the present invention. Therefore, the protection scope of the present invention is not limited to the above embodiments, but the protection scope should be recognized from the techniques of the claims to be described later and equivalent technical means from these techniques.

100: water barrier module 200: flow valve
300: inner flow control tube

Claims (8)

a water barrier module 100 through which a plurality of inner flow pipes 110 are formed through the folding operation to enter into the front and rear of the damaged square pipe line (1); a flow valve 200 installed on the inner flow pipe 110 of the water barrier module 100 and provided to control the flow rate by an opening and closing operation; And both ends are connected to the inner flow pipe 110 of the water barrier module 100, the inner flow rate control pipe 300 is installed to pass through the damaged square pipe line (1); Containing,
The water barrier module 100 is disposed in the longitudinal direction inside the rectangular pipe 1, wheels 122 are installed to move on the inside of the rectangular pipe 1, and the upper and lower sides of the rectangular pipe 1 inside A vertical holding member 120 provided with a vertical fixing module 124 for pressing the upper and lower surfaces, and an opening ( 133) is formed, a pair of clap panels 130, a vertical holding member 120 corresponding to the inner circumferential surface of the square pipe line 1, and an airtight member 140 installed at the edge of the clapboard panel 130,
The airtight member 140 includes an elastic pad 142 installed to surround the edge of the vertical holding member 120 and the water barrier panel 130, and the vertical holding member 120 and the water barrier panel 130 are dividedly arranged on the edge. Bypass and flow control system of the folding type square pipe, characterized in that it comprises a push piece 144 for expanding and pressing the elastic pad 142 by the pitch transfer of the adjusting screw 143.
delete delete The method of claim 1,
The water curtain panel 130 is provided so that the folding operation is controlled by the expansion-type driving unit 150,
The expansion-type driving unit 150,
A rod rod 152 installed in the transverse direction on the back surface of the water barrier panel 130, and
A guide block 154 installed so as to be transported in a straight line on the rod rod 152, and
One end is coupled to the guide block 154 by a hinge, the other end includes a hydraulic cylinder 156 coupled to the vertical support member 120 by a hinge,
When the water barrier panel 130 is folded, the guide block 154 is moved to the vertical holding member 120 side, and when the water barrier panel 130 is unfolded, the guide block 154 is the edge of the water barrier panel 130 . Bypass and flow control system of a folding type square pipe, characterized in that it is moved to the side and is provided to support the clapboard panel 130 at a position spaced apart from the vertical holding member 120.
The method of claim 1,
The door 132 is provided to be locked by the double locking module 134 in a state in which the opening 133 is closed,
The double locking module 134,
A lock hole (134a) formed on the inner peripheral surface of the opening (133);
a fixing lock pin 134b formed on a side surface corresponding to the pivot shaft of the door 132 and bound to the lock hole 134a;
It is formed on the other side of the door 132, and includes a flow lock pin 134c that protrudes by the driving unit and is bound to the lock hole 134a,
The door 132 is double-locked by a fixed lock pin (134b) and a floating lock pin (134c) in a closed state.
6. The method of any one of claims 1, 4, 5,
A horizontal brace member 160 connected to the vertical brace member 120 and supported in the transverse direction on the inner wall of the square pipe line 1 is provided,
The horizontal support member 160 is,
A support arm 162 that is installed to be foldable on the vertical support member 120 and operated to expand to form a 90° angle with the vertical support member 120,
A horizontal brace arm 164 mounted on the vertical brace member 120 in a state supported by the support arm 162, and
A horizontal fixing module 166 installed at both ends of the horizontal brace arm 164 to pressurize the inner sidewall of the square pipe line 1, and;
One end is coupled to the horizontal bracing arm 166 by a hinge, the other end is coupled to the edge of the clapboard panel 130 by a hinge, and is stretched and contracted by the pitch transfer of the screw part 167 to support the clapboard panel 130 Bypass and flow control system of the folding type square pipe, characterized in that it comprises a telescopic arm (168).
The method of claim 1,
The flow valve 200 is provided with a valve plate 210 formed in an expanded size compared to the diameter of the flow pipe 110 , and the valve plate 210 is centered on the drive shaft 220 disposed on one side of the flow pipe 110 . Bypass and flow control system of a folding type square pipe, characterized in that it is provided to adjust the opening and closing amount while turning.
The method of claim 1,
The manholes (2) positioned in front and behind the square pipe (1) form a bypass flow path by the outer flow rate control module (400),
The outer flow control module 400,
A suction pipe 410 inserted and installed in the front manhole 2,
A pump 420 connected to the suction pipe 410 to suck the fluid, and
One end is connected to the pump 420, the other end includes a discharge pipe 430 inserted into the rear manhole (2),
Bypass and flow rate of the folding-type square pipe, characterized in that it is provided to disperse and drain the fluid moving toward the damaged square pipe (1) by using the outer flow control module 400 and the inner water pipe 300 in combination control system.

Images