KR102313430B1 - Assistant equipment for reinforcement of superannuated pipe - Google Patents

Abstract

The present invention relates to an assisting apparatus which is input into an obsolete pipe, which is required to be reinforced, to be used for an essential prior work when an impregnation sheet for reinforcement is attached on the inner surface of the obsolete pipe, and to a construction assisting apparatus for reinforcement of an obsolete pipe, which is for automatically applying epoxy primer, which has been applied for a long time by a labor force, in a uniform thickness by using a dedicated assisting apparatus when forming a plurality of attachment surfaces (layers) which has consumed the most working hours during a process. The construction assisting apparatus comprises: a moving unit which is seated inside the obsolete pipe so as to be movable in the longitudinal direction of the obsolete pipe and in which a rotational driving means having a driving motor, rotationally driven, is installed on one side of the front side; and a scraper support unit connected to the rotational driving means and having a function of, while rotationally driven, allowing one side to apply and form a fumigated silica reinforcement material on the outer surface of the epoxy primer and each interlayer of the impregnation sheet of the inner surface of the obsolete pipe, such that separate assisting equipment, which provides assistance in applying and forming the fumigated silica reinforcement material within the obsolete pipe, is input into the obsolete pipe needing a reinforcement work to be used during the reinforcement work for attaching the impregnation sheet on the inner surface of the obsolete pipe, thereby realizing efficient obsolete pipe reinforcement work.

Description

ASSISTANT EQUIPMENT FOR REINFORCEMENT OF SUPERANNUATED PIPE

The present invention relates to an auxiliary device for reinforcing old pipes, and more particularly, it is a device used for essential prior work for easily and quickly attaching reinforcing fibers used for reinforcing old pipes to the inner surface of old pipes, and it takes the most time in the process. Reinforcement of old pipes to remarkably improve construction efficiency by automatically applying the epoxy primer and fume silica reinforcing material that was applied for a long time by manpower to a homogeneous thickness using a dedicated auxiliary device when forming many worn-out attachment surfaces (layers) It is about auxiliary devices.

Pipeline is a generic term for water/sewage pipes buried underground. As a result, a step is formed, as well as deterioration due to aging of the pipe, and the wall of the pipe is damaged.

These pipelines are variously buried in urban roads, alleys in residential areas, the sea, and agricultural land, and the durability and lifespan varies depending on the material, but eventually lose their functions due to leakage or rupture, resulting in water, sewage, and wastewater. , oil, toxic substances, contamination, resource loss, soil pollution, sinkhole occurrence, road shutdown, traffic control, civil complaints, etc. Again, the problem of local replacement with a new pipe or the new pipe line has been repeated.

As a use to solve this problem, reinforcing fibers are generally used for reinforcing purposes to prevent leakage and rupture due to deterioration of the function of an existing old pipe, and to extend the lifespan.

Reinforcement standards for extending the lifespan of an old pipe using reinforcing fibers are at the level of a new pipe that can withstand bending even when pressure is generated by lining or that can be independently reinforced with only lining for internal and external loads ( Because it requires the strict quality standards of AWWA M 28 Class 3~4) in the United States, in order to meet this standard, the reinforcing fibers manufactured with homogeneous impregnation must be systematically molded and cured in the aged pipe to extend the lifespan of the old pipe for several decades. can do it

However, in the conventional repair method for old pipes, large equipment and manpower are input, resulting in excessive construction costs, or when repairing small alleys or pipes, the space is cramped, making it difficult to put in equipment, or because there are restrictions on manpower work, the work efficiency and cost are lowered, There is a problem in that the construction efficiency is significantly lowered due to the difficulty in the construction of the curved part or the deformed part according to the step of the pipeline, the connection part, and the upper load.

In addition, the attachment surface molding, which consumes the most manpower input and work time during construction, is a situation in which a large number of manpower manually spreads epoxy primer and fume silica reinforcement material for a long time using a scraper, resulting in non-homogenization of the attachment surface and excessive work time There has been a problem of lowering the construction efficiency, such as generation.

In the present invention, in solving the above problems, the conventional technique, in which the skilled technician, which is the existing reinforcement work method, has repeatedly spread and molded the impregnated sheet and the reinforcing material by hand, the work speed is reduced due to the manpower work, as well as the repetitive work. Due to the accumulation of physical fatigue caused by the accumulation of physical fatigue, there has been a problem of complex productivity degradation, in which the unit work volume is continuously reduced. This was derived to improve the problem of lowering the water flow by lowering the water flow. Applying fumigated silica reinforcing material applied between the outer surface of the epoxy primer and every layer of the impregnated sheet during reinforcing work by attaching the impregnated sheet to the inner surface of the old pipe. An old pipe that can efficiently reinforce old pipes by putting a separate auxiliary equipment that can make accurate and rapid reinforcement work by breaking away from the existing manpower work method and using it inside the old pipe that needs reinforcement work Its purpose is to present a reinforcement construction auxiliary device.

In order to solve the above problem, the present invention is put into the inside of an old pipe requiring reinforcement, and when attaching an impregnated sheet for reinforcement to the inner surface of the old pipe, a fumed silica reinforcing material is applied between the outer surface of the epoxy primer and every layer of the impregnated sheet and molding As an auxiliary device for reinforcing an old pipe, comprising: a moving part installed inside the old pipe so as to be movable along the longitudinal direction of the old pipe and provided with a rotational driving means having a driving motor that is rotationally driven on one side of the front side; a scraper support part connected to the rotation driving means and rotating while one side is in contact with the surface of the impregnated sheet to support the impregnated sheet while attaching the impregnated sheet to the inner surface of the old pipe; Presents an auxiliary device for reinforcing old pipe, characterized in that it includes.

Here, the scraper support part is connected to the drive shaft of the rotation driving means and the main shaft is rotated and driven together according to the rotation of the drive shaft, and a circumferential surface of the main shaft is formed to extend a predetermined length along the radial direction of the main shaft. A plurality of scraper support shafts provided to be spaced apart at regular intervals along the longitudinal direction of the main shaft, and fumigated silica between the scraper support shaft and the ends of the scraper support shaft and between the epoxy primer outer surface of the inner surface of the old pipe and the impregnated sheet between each layer A scraper having a function of applying and molding a reinforcing material may be included.

In addition, the plurality of scraper support shafts may be installed to be adjustable in length so that the scraper can come into contact with the inner surface of the old pipe according to the diameter of the old pipe.

In addition, the scraper support shaft may have an antenna structure in which a plurality of shafts overlap each other to be drawn in and out so that the length of the scraper support shaft can be adjusted, and a cylinder may be installed on one side for drawing in and out.

In addition, the scraper may be supported by a separate scraper holder installed at the end of the scraper support shaft.

In addition, the scraper is arranged to form an inclination with respect to the virtual line (a) passing through the center along the longitudinal direction of the main shaft, and the residual fumigated silica reinforcement is applied to a predetermined thickness by the inclined scraper, and a predetermined position It can be collected so that it can be easily retrieved.

In addition, a scraper angle adjusting unit capable of adjusting an inclination angle formed by the scraper with respect to the main shaft may be installed at both ends of the scraper.

In addition, the scraper angle adjustment unit includes a plurality of long holes respectively formed at the ends of the scraper holders, and fastening bolts that pass through both ends of the scraper and are respectively fastened to one edge and the other edge of the long hole so that the scraper is inclinedly disposed. can be configured.

In addition, a pair of non-powered wheels for maintaining the horizontality of the moving unit are disposed opposite to each other on the lower rear side of the moving unit, and electric wheels that generate power to enable the moving unit to move may be installed at the lower front side. .

In addition, a control panel may be provided on the front upper side of the moving unit to adjust the moving speed of the moving unit, and to control the rotation driving means to adjust the number of rotations of the driving motor.

The present invention is to attach the impregnated sheet to the inner surface of the aged pipe and perform the application and molding operation of the fumed silica reinforcing material applied to the outer surface of the epoxy primer inside the old pipe and between each layer of the impregnated sheet during reinforcing work. By inserting and using a separate construction auxiliary equipment that allows accurate and rapid mechanical reinforcement work to be carried out by breaking away from the inside of old pipes that require reinforcement work, the construction speed is improved and the production quality is homogeneous to reduce costs and reduce water costs. This has the effect of making it possible to make an efficient old pipe reinforcement work that can improve the flow rate coefficient.

1 is a plan view showing a structure in which an auxiliary device for reinforcing an old pipe according to an embodiment of the present invention is viewed from the side in a state in which the old pipe is disposed inside the old pipe;
2 is a front view showing a structure in which the old pipe reinforcement construction auxiliary device according to an embodiment of the present invention is viewed from the front in a state in which the old pipe is disposed inside the old pipe,
Figure 3 is a plan view showing the structure of the scraper means of the old pipe reinforcement construction auxiliary device according to an embodiment of the present invention,
Figure 4 is a front view showing the structure of the scraper means of the old pipe reinforcement construction auxiliary device according to an embodiment of the present invention,
5 is an enlarged view of the main part of FIG. 3;
It is a conceptual diagram for explaining the rotational driving of the scraper means of FIG. 3 of FIG. 6 .

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

1 is a plan view showing a structure in which an auxiliary device for reinforcing an old pipe according to an embodiment of the present invention is viewed from the side in a state in which an old pipe reinforcement construction auxiliary device is disposed inside an aged pipe, and FIG. It is a front view showing the structure in which the device is arranged inside the old pipe from the front, and FIG. 3 is a plan view showing the structure of the scraper means of the old pipe reinforcement construction auxiliary device according to an embodiment of the present invention, FIG. It is a front view showing the structure of the scraper means of the old pipe reinforcement construction auxiliary device according to an embodiment of the present invention, Figure 5 is an aged pipe using an impregnated sheet using the old pipe reinforcement construction auxiliary device according to an embodiment of the present invention It is a flowchart sequentially describing the method of reinforcement construction.

As shown in these drawings, the old pipe reinforcement construction auxiliary device according to the present invention is put into the inside of the old pipe (1) requiring reinforcement, and the epoxy primer on the inside of the old pipe for reinforcement on the inner surface of the old pipe (1) As an auxiliary device for reinforcing old pipe having a function of applying and molding fumigated silica reinforcing material by being in contact with each layer of the impregnated sheet, it is seated inside the old pipe (1) so as to be movable along the longitudinal direction of the old pipe (1) and is located on the front side a moving unit 100 provided with a rotation driving means 110 having a driving motor that is rotationally driven to the motor; A scraper support 200 having a function of applying and molding a fumed silica reinforcing material between the epoxy primer outer surface of the inner surface of the old pipe and each layer of the impregnated sheet while being connected to the rotation driving means 110 to rotate; consists of including.

The moving unit 100 is a member that provides a driving force to enable the aged pipe reinforcement construction auxiliary device to move along the longitudinal direction of the old pipe. A pair of non-powered wheels 130 for maintaining the horizontality of the wheel 130 are disposed to face each other, and the electric wheel 140 for generating power to enable the movement of the moving unit 100 is installed on the lower front side.

In the case of an auxiliary device for reinforcing old pipe according to an embodiment of the present invention, a pair of non-powered wheels 130 are provided and one motorized wheel 140 is installed, but on the contrary, non-powered wheels 130 is installed as one and the electric wheels 140 may be installed as a pair, and both the non-motorized wheels 130 and the electric wheels 140 may be installed as a pair.

In addition, a control panel 120 is provided on the front upper side of the moving unit 100 to adjust the moving speed of the moving unit 100 , and to control the rotation driving means 110 provided in the front of the moving unit 100 . It is preferable to adjust the rotation speed of the driving motor.

In addition, a separate sheet 150 is provided in the upper central region of the moving unit 100 so that a worker can seat and operate the control panel 120 while reinforcing the old pipe 1 .

In addition, a battery storage box 160 is provided at the rear of the upper surface of the moving unit 100 to store the battery therein and supply power to the rotation driving means 110 to rotate the driving shaft of the driving motor.

The overall width and height of the moving part 100 will have to be sized to be movable along the longitudinal direction of the old pipe 1 in a state in which the moving part 100 is seated inside the old pipe 1, and the seat 150 The height of is preferably formed so as to have a height at which the operator's head and the inner surface of the old pipe (1) do not interfere in the state in which the operator is seated.

And, although not shown in the drawings, a separate level is provided on one side of the upper surface of the rotation driving means 110 or the battery storage box 160 so that the moving unit 100 is horizontally seated inside the old pipe 1 . (1) It is effective to prevent the moving part 100 from deviate from a horizontal position while moving during the reinforcement operation so that an effective reinforcement operation can be made.

On the other hand, the scraper support 200 is connected to the rotation driving means 110 and rotated while one side is applied to the epoxy primer outer surface of the inner surface of the old pipe 1 and the fumigated silica reinforcement between each layer of the impregnated sheet and a scraper having a molding function. plays a supporting role.

The scraper support 200 is connected to the drive shaft of the rotation drive means 110 and rotates together according to the rotation of the drive shaft, the main shaft 210, and the main shaft 210 on the circumferential surface of the main shaft 210. A plurality of scraper support shafts 220 that are formed to extend a certain length along the radial direction of the main shaft 210 and are provided to be spaced apart at regular intervals along the longitudinal direction of the main shaft 210, the scraper support shaft 220 and the scraper support shaft 220 It is provided between the ends and is configured to include a scraper 230 for supporting the impregnated sheet.

The main shaft 210 is a member that is connected to the drive shaft of the drive motor which is the rotation drive means 110 and rotates together according to the rotation of the drive shaft, and is preferably arranged at the end of the drive shaft in parallel along the longitudinal direction of the drive shaft .

The scraper support shaft 220 extends a certain length along the radial direction of the main shaft 210 so as to be disposed perpendicular to the circumferential surface of the main shaft 210, and is spaced apart by a predetermined distance along the length direction of the main shaft 210. A member disposed opposite to the position.

Although the four scraper support shafts 220 of the old pipe reinforcement construction auxiliary device according to the present invention are arranged in a '+' shape to form mutually perpendicular, the load is distributed according to the amount and weight of the reinforcing material input to the inner surface of the old pipe 1 Of course, it may be installed in five or six or more so as to make it possible.

The plurality of scraper support shafts 220 are preferably installed so that the scraper 230 can come into contact with the inner surface of the old pipe 1 according to the diameter of the old pipe 1 so that the length can be adjusted.

The scraper support shaft 220 is formed to be adjustable in length, so that even when repairing old pipes 1 having various diameters, there is no need to replace the scraper support 200 without replacing the scraper support part 200 using a single scraper support shaft ( 220) by adjusting the length of the old pipe (1) has an effect that can be made so that the reinforcement work.

In order to enable the length adjustment of the scraper support shaft 220, the scraper support shaft 220 is formed in an antenna structure in which a plurality of shafts overlap with each other to be drawn in and out, and it is effective that a cylinder 240 is installed on one side for drawing in and out. am.

The cylinder 240 has one end fixed to any one shaft among a plurality of shafts and the other end fixed to the other shaft so that the length of the scraper support shaft 220 can be adjusted in an automatic manner by driving the cylinder 240 . This can improve usability.

And, after adjusting the length of the scraper support shaft 220 according to the diameter of the old pipe 1 to be reinforced, the scraper 230 is in close contact with the epoxy primer outer surface and the impregnated sheet on the inner surface of the old pipe 1 during the reinforcement operation. It is effective to form a portion of the end region of the scraper support shaft 220 to be elastically supported.

The scraper 230 is installed between the scraper support shaft 220 and the scraper support shaft 220 to disperse and apply the reinforcing material attached to the epoxy primer outer surface and the impregnated sheet on the inner surface of the old pipe 1 , the scraper 230 is supported by a separate scraper holder 231 installed at the end of the scraper support shaft 220 .

The scraper holder 231 may be fixedly coupled to the end of the scraper support shaft 220 by a separate fixing bolt 231a.

In addition, the scraper 230 is effectively arranged to be inclined with respect to the imaginary line (a) passing through the center along the longitudinal direction of the main shaft 210, which is an obsolete pipe ( 1) The residual fumed silica reinforcing material attached to the outer surface of the epoxy primer on the inner surface can be easily recovered by moving along the inclined surface of the scraper 230 and gathering at a predetermined position, and the remaining fumed silica reinforcing material is continuously spread to a predetermined thickness It has an effect that can induce it to be applied in the form.

To this end, it is preferable that the scraper angle adjusting unit 250 capable of adjusting the inclination angle formed by the scraper 230 with respect to the main shaft 210 is installed in both end regions of the scraper 230 .
This scraper angle adjustment unit 250 is formed on one edge and the other edge of the coupling plate 253 of the end of the scraper support shaft 220 to which the end of the scraper holder 231 is coupled, respectively, with an arc structure long hole 251 and , which penetrates through the long hole 251 and is respectively fastened to a coupling hole (not shown) of the main shaft 210 so that the scraper 230 is inclinedly disposed.

That is, the long hole 251 formed on one edge and the other edge of the coupling plate 253 of the end of the scraper support shaft 220, respectively, and the fastening bolt 252 in the coupling hole (not shown) formed in the main shaft 210. is fixed, the scraper 230 can be arranged to form an inclination with respect to the main shaft 210, and the degree of inclination can be adjusted according to the position where the fastening bolt 252 is fastened to the long hole 251 of the arc structure. let it be

delete

The process of reinforcing the old pipe using the old pipe reinforcement construction auxiliary device according to an embodiment of the present invention having such a configuration is as follows.

First, the moving unit 100 is driven so that the old pipe reinforcement construction auxiliary device of the present invention is moved to the inside of the old pipe 1 to be reinforced. It is preferable to arrange it horizontally inside.

And, by adjusting the length of the scraper support shaft 220 using the cylinder 240 so as to have the same length as the radius of the old pipe (1), the scraper 230 is in close contact with the inner surface of the old pipe (1).
A fumed silica reinforcing material is applied to the inner surface of the aged pipe 1 to be reinforced, but the scraper 230 provided at the end of the scraper support shaft 220 is driven by driving the driving motor of the scraper support 200 to rotate. The reinforcing material is continuously spread to a certain thickness, and at the same time it is applied and molded to a certain thickness by the scraper 230 disposed at an angle. .
Unwind the impregnated sheet wound on the roller and cut it to the length required for the inner surface reinforcement work of the aged tube 1, and attach the cut impregnated sheet to the inner surface of the aged tube 1 (the surface of the coated layer of the fumed silica reinforcement) .

delete

delete

delete

When the attachment of the impregnated sheet to one side of the inner surface of the old pipe 1 is completed, the moving unit 100 is driven to move the old pipe reinforcement construction auxiliary device along the longitudinal direction of the aged pipe 1, and then the impregnated sheet is removed while repeating the above process. Reinforcement work is completed by attaching.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention as noted should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea with the root are all included in the scope of the present invention.

1: old pipe 100: moving part
110: rotation driving means 120: control panel
130: non-powered wheel 140: electric wheel
150: seat 160: battery storage box
200: scraper support 210: main shaft
220: scraper support shaft 230: scraper
231: scraper holder 231a: fixing bolt
240: cylinder 250: scraper angle adjustment unit
251: long hole 252: fastening bolt

Claims (10)

When the impregnated sheet for reinforcement is put into the inside of the old pipe (1) that requires reinforcement and is attached to the inner surface of the old pipe (1), a fumed silica reinforcing material is applied and molded between the outer surface of the epoxy primer and every layer of the impregnated sheet Reinforcement of the old pipe As a construction aid,
a moving part 100 installed with a rotation driving means 110 seated inside the old pipe 1 so as to be movable along the longitudinal direction of the old pipe 1 and having a driving motor which is rotationally driven on one side of the front side;
While being connected to the rotation driving means 110 and driving the rotation, one side of the old pipe 1 has a function of applying and molding the fumed silica reinforcement material between the outer surface of the epoxy primer and the impregnated sheet between each layer Scrapper support 200) cast; including,
The scraper support part 200 is connected to the drive shaft of the rotation driving means 110 and rotates with the main shaft 210 according to the rotation of the drive shaft, and the main shaft ( A plurality of scraper support shafts 220 that are formed to extend a certain length along the radial direction of 210 and are provided to be spaced apart at regular intervals along the length direction of the main shaft 210, the scraper support shaft 220 and the scraper support It is provided between the ends of the shaft 220 and includes a scraper 230 having a function of applying and molding a fumigated silica reinforcing material between the epoxy primer outer surface of the inner surface of the old pipe and every layer of the impregnated sheet,
The scraper 230 is supported by a separate scraper holder 231 installed at the end of the scraper support shaft 220,
The scraper 230 has ends of the scraper 230 on the left and right sides based on an imaginary line a passing through the center in the longitudinal direction of the main shaft 210, so that the imaginary line a) It can be easily recovered by moving along the inclined surface of the scraper 230 and collecting the residual fumed silica reinforcing material by the scraper 230 inclined with respect to By adjusting the lengths of the plurality of scraper support shafts 220 so as to have the same length as the radius of 1), the plurality of scrapers 230 are in close contact with the inner surface of the old pipe 1, so that the fumed silica reinforcing material has a certain thickness Auxiliary device for reinforcing old pipe, characterized in that it guides it to be applied. delete According to claim 1,
A plurality of the scraper support shaft 220 is installed so that the length of the scraper 230 can be in contact with the inner surface of the old pipe 1 according to the diameter of the old pipe 1 is adjustable. Device. 4. The method of claim 3,
To enable the length adjustment of the scraper support shaft 220, the scraper support shaft 220 is formed in an antenna structure in which a plurality of shafts are drawn in and overlapped with each other, and a cylinder 240 is installed on one side for drawing in and out Auxiliary device for reinforcing old pipes. delete delete According to claim 1,
Old pipe reinforcement construction auxiliary device, characterized in that the scraper angle adjustment unit 250 capable of adjusting the inclination angle formed by the scraper 230 with respect to the main shaft 210 is installed in both end regions of the scraper 230 . delete According to claim 1,
A pair of non-powered wheels 130 for maintaining the horizontality of the moving unit 100 are disposed opposite to each other on the lower rear side of the moving unit 100, and the moving unit 100 generates power at the front lower side. An auxiliary device for reinforcing old pipe, characterized in that the electric wheel 140 is installed to enable the movement of the old pipe. According to claim 1,
A control panel 120 is provided on the front upper side of the moving unit 100 to adjust the moving speed of the moving unit 100 and to control the rotation driving means 110 to adjust the rotation speed of the driving motor. An auxiliary device for reinforcing old pipes, characterized in that

Images