KR102154015B1 - Jig apparatus for restoring a buried pipe and Method thereby - Google Patents

Abstract

According to one aspect of the present invention, a jig device for restoring a buried pipe comprises: a main body (20) having a central hole (25) on a gripping stand (21) of one end, through which a buried pipe passes, and gripping the buried pipe with a clamp member interposed therein; an operating table (40) rotatably coupled to the other end of the main body (20); a spiral shaft (43) spirally engaged with the operating table (40) to be moved forward and backward toward the central hole (25) of the main body (20); and a flexible tube (50) formed to be in close contact with an end of the spiral shaft (43) and inducing restoration by entering the buried pipe. Accordingly, in a buried piping work of a complex building, a deformed part is induced to be restored by a rapidly inputting and pushing method on the basis of a relatively thin and simple structure such that damage is prevented, labor is reduced and convenience is improved.

Description

Jig apparatus for restoring a buried pipe and method thereby}

The present invention relates to restoration of buried pipes, and more particularly, to a jig device for restoration of buried pipes and a restoration method thereof for application to the construction of pipes embedded in concrete of an aggregate building.

In recent years, in apartments, offices, apartment-type factories, officetels, row houses, multi-family houses, etc., there is an increasing tendency to embed a copper pipe for refrigerant circulation of an air conditioner in concrete with insulation. In this case, the refrigerant pipe is not exposed to the outside so that the aesthetics are not impaired. On the other hand, if a problem occurs in the refrigerant circulation due to deformation or crack, repair or removal and replacement of the refrigerant pipe is involved. In particular, because deformation occurs in the curved path of the pipe, separate restoration work is frequently required.

As prior art documents that can be referred to in this regard, the following Korean Utility Model Publication No. 0303329 (Prior Document 1), Korean Patent Application Publication No. 2061602 (Prior Document 2), and the like are known.

Prior Document 1 is inserted into the inner periphery of the inlet side of the pie, and the front side spreads outward according to the insertion depth of the piston that moves due to the operation of the hydraulic cylinder, pushing the inner periphery of the pipe outward to restore the crushed pipe inlet. . Therefore, if the inlet side of the pipe used at the construction site is crushed, it is expected to be simple and easily restored to its original state at the site.

However, since this is applied only to the end, which is the inlet of the embedded pipe, it is difficult to put it into the pipe, and the utility is limited.

Prior Document 2 is a linear portion provided with a material capable of bending to pass through the interior of the buried pipe; A 1-1 pressing part fixed to one side of the linear part and having a first inclined surface formed on an outer surface thereof; A 2-1 pressing part having a second rotation guide groove formed on the inner surface of the other end; It includes; a central portion in which the rotation induction protrusion is formed. Accordingly, in response to damage to the pipe embedded in the wall, it is expected to be easily and simply restored without generating noise.

However, since this is a method of restoring while pulling the linear portion that has passed through the end of the pipe, the input length is relatively long and time is required.

Korean Utility Model Publication No. 0303329 "Pipe Entrance Side Restoration" (Publication date: 2003.02.07.) Korean Registered Patent Publication No. 2061602 "Restoration method and apparatus for buried air conditioner pipe" (Publication date: 2020.01.03)

An object of the present invention for improving the conventional problems as described above is a buried piping that induces the restoration of a deformed part in a way that is quickly input and pushed out based on a relatively light, thin and compact structure in a piping work buried in concrete of an aggregate building. It is to provide a restoration jig device and a restoration method thereof.

In order to achieve the above object, according to one aspect of the present invention, in a jig device for restoring a buried pipe: having a central hole through which the buried pipe passes through a holding stand of one end, and gripping the buried pipe through a clamp member main body; A movable table rotatably coupled to the other end of the main body; A helical shaft that is helically engaged with the movable table so as to move forward and backward toward the central hole of the main body; And a flexible tube formed to be in close contact with the end of the spiral shaft and entering the buried pipe to cause restoration.

As a detailed configuration of the present invention, the main body is characterized in that it comprises a locking groove for detachably mounting a known first clamp, a mounting groove for detachably mounting a known second clamp, and a lock lever.

As a modified example of the present invention, the main body is a pressing plate mounted in a central hole of the gripper so as to be forward and backward, an operating rod that is elastically supported by the gripper and engaged with the pressing plate, and the operation rod rotates on the outer surface of the gripper. It characterized in that it further comprises an arc-shaped lever to control the pressure.

As a detailed configuration of the present invention, the spiral shaft is characterized in that it has a socket portion at one end and a square portion and a tool groove at the other end.

As a detailed configuration of the present invention, the flexible tube is a structure in which a wire is twisted, and a conical part is provided at the front end, and a push rod concentrically coupled to the rear end is further provided.

According to another aspect of the present invention, there is provided a method for restoring a buried pipe by using the jig device of claim 1, comprising: (A) clamping the end of the buried pipe to a gripper; (B) attaching the oil supply cloth to the tip of the flexible tube and then inserting it into the end of the buried pipe; And (C) rotating the helical shaft to advance the flexible tube.

As a detailed configuration of the present invention, the step (B) is characterized in that the push rod is fitted to the rear end of the flexible tube and engaged with the socket part of the spiral shaft, and the lubrication oil is wetted in the oil supply cloth.

As described above, according to the present invention, in the buried piping work of the collective building, the effect of inducing the restoration of the deformed part by promptly inputting and pushing it out based on a relatively light, thin and compact structure prevents damage, reduces labor and improves convenience. There is.

1 is a block diagram showing a main part of a device according to the present invention
2 is an image showing the main parts of the device according to the present invention
Figure 3 is a schematic diagram showing a modified example of the device according to the present invention
4 is a schematic diagram showing an example of using the device according to the present invention
5 is a schematic diagram of a construction example using the device according to the present invention

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

According to an aspect of the present invention, a jig device for restoring a buried pipe is proposed. The purpose of this is the construction of pipes for air conditioning refrigerants buried in the concrete of a collective building, but is not limited thereto. Throughout the city of the present invention, buried piping is indicated by the symbol BP.

For reference, when the refrigerant copper pipe is buried and piped, deformation such as crushing is likely to occur in the curved path adjacent to the end during the construction process.

According to the present invention, the main body 20 for gripping the buried pipe through the clamp member has a central hole 25 through which the buried pipe passes through the holding table 21 at one end. The main body 20 is a round bar structure having a small diameter and is provided with a gripper 21 having a large diameter round bar structure at one end. The central hole 25 of the gripper 21 is formed in a diameter that can be accommodated by passing a buried pipe of any standard (outer diameter). The clamp member substantially gripping the end of the buried pipe may be provided on the gripper 21 in various ways, as described later.

As a detailed configuration of the present invention, the main body 20 is a fitting groove 22 for detachably mounting a known first clamp 11, and a mounting for detachably mounting a known second clamp 16 It is characterized by having a groove (23) and a lock lever (26).

Referring to FIG. 1, as an example of a clamp member, a first clamp 11 and a second clamp 16 used in a refrigerant piping pipe construction are shown. The first clamp 11 is a so-called'dead clamp' and clamps the pipe on the gripping body 13 using the knob 14. The first clamp 11 has a gripping jaw 12 on one side of the gripper 13. The second clamp 16 is used in a so-called'copper pipe expander' and clamps the pipe with gripping holes 18 having a plurality of dimensions formed in a rod connected by a hinge. The second clamp 16 is provided with a plurality of fastening grooves 17 on the outer surface of the rod. A circular engaging groove 22 is formed at one end of the gripper 21 and a rectangular mounting groove 23 is formed at the other end.

Thus, as shown in FIGS. 1 and 2, the first clamp 11 is inserted into the engaging groove 22 formed at the end of the gripper 21 and rotated at a certain angle to maintain a close engagement, and the second clamp 16 is mounted. It fits into the groove 23, selects a specific gripping hole 18, and then presses the lock lever 26 into the fastening groove 17 at a corresponding position to maintain close engagement. In either case, if the first clamp 11 or the second clamp 16 is selected and mounted on the gripper 21, the end of the buried pipe can be clamped.

As a modified example of the present invention, the main body 20 is a pressing plate 30 mounted to be back and forth in the central hole 25 of the holding table 21, while being elastically supported by the holding table 21, the pressing plate It is characterized in that it further comprises an operating rod 32 engaged with (30) and an arc-shaped lever 36 that intercepts the pressure of the operating rod 32 while rotating on the outer surface of the gripper 21.

Referring to FIG. 3, as a modified example of the clamp member, a pressing plate 30, an operation rod 32, a spring 34, an arc lever 36, and the like are shown. This is useful when the first clamp 11 and the second clamp 16 are absent, or when the refrigerant is applied with the usual dimensions of the buried pipe. The pressing plate 30 is formed in an arc shape having the same curvature as the central hole 25 and is mounted to be exposed or concealed by the central hole 25. The working rod 32 has a larger outer diameter than the inner side and is mounted to the gripper 21 to enable radial movement. The outer end of the operating rod 32 is expanded in a spherical or hemispherical shape, and the spring 34 acts an elastic force in the direction of concealing the pressing plate 30. The arc-shaped lever 36 is formed in an L-shape when viewed in one direction and a U-shaped when viewed in the other direction, and is rotatably mounted to the gripper 21 through a hinge.

Thus, when the arc-shaped lever in FIG. 3 is laid at the position of 36, the pressing plate 30 is concealed in the central hole 25 to release the clamping function, and when it is set to the position of 36′, the operating rod 32 is pushed and the pressing plate The gripping force of the buried pipe is generated by (30). Of course, even if the clamp member of FIG. 3 is applied, the first clamp 11 and the second clamp 16 may be used.

In addition, according to the present invention, the movable table 40 is rotatably coupled to the other end of the main body 20. In FIG. 1, a movable table 40 is installed at an end of the main body 20 on the opposite side to the gripping table 21. The movable table 40 is connected to the center of the main body 20 via a hinge shaft, and may allow or restrict rotation using a butterfly bolt 41. Rotation of the movable table 40 increases the convenience of work as will be described later,

In addition, according to the present invention, the spiral shaft 43 has a structure in which the movable table 40 is helically engaged with the movable table 40 so as to be able to move forward and backward toward the central hole 25 of the main body 20. In FIGS. 1 and 2, a spiral shaft 43 having a length substantially similar to that of the main body 20 is engaged with the movable table 40. When the movable table 40 is fixed in the correct position, the spiral shaft 43 and the central hole 25 are concentric. The forward motion of the spiral shaft 43 acts as a restoring force to shape the deformed part of the buried pipe.

As a detailed configuration of the present invention, the spiral shaft 43 is characterized in that it has a socket part 45 at one end and a square part 44 and a tool groove 47 at the other end.

Referring to FIG. 4, it shows a state in which the socket portion 45, the square portion 44, and the tool groove 47 are formed at both ends of the spiral shaft 43. The socket portion 45 closely grips the rear end of the flexible tube 50 to be described later to induce a stable forward motion. The square portion 44 is formed in a structure that can be engaged with the box wrench mounted on the power tool. The tool groove 47 formed in the square portion 44 is used for turning by hand by inserting a driver or the like. When the spiral shaft 43 is rotated with a power tool, the speed of the forward motion of the flexible tube 50 can be increased.

In addition, according to the present invention, the flexible tube 50 formed to be in close contact with the end of the spiral shaft 43 enters the buried pipe to form a structure that causes restoration. As described above, it is important to use the flexible tube 50 capable of bending in order to pass the curved path where deformation is likely to occur in the buried pipe. The flexible tube 50 may be selected in consideration of the inner diameter dimension of the buried pipe.

As a detailed configuration of the present invention, the flexible tube 50 is a structure in which the wire 51 is twisted, and has a conical portion 52 at the front end, and further includes a push rod 55 concentrically coupled to the rear end. To do.

In FIG. 4, the wire 51 and the cone 52 constituting the flexible tube 50 are clearly revealed. If the wires 51 are twisted in close contact, axial linear motion as well as radial bending are possible. Forming the tip of the flexible tube 50 with the conical portion 52 is to consider the smooth movement and gradual restoring force action in the buried pipe.

According to another aspect of the present invention, a method for restoring a buried pipe using the jig device of claim 1 is proposed. The jig device includes the main body 20, the movable table 40, the spiral shaft 43, and the flexible tube 50 as main components, and other detailed configurations described above may be applied in the same manner.

Step (A) according to the present invention proceeds with a process of clamping the end of the buried pipe to the gripper 21. In a state in which the movable table 40 is rotated out of position by loosening the butterfly bolt 41, the clamp member is mounted in the engagement groove 22 or the mounting groove 23, and the gripper 21 is cut to the cut end of the buried pipe. ) And clamping while inserting the center hole (25).

Step (B) according to the present invention goes through a process of fitting the oil supply cloth 60 to the tip of the flexible tube 50 and then fitting it to the end of the buried pipe. The tip of the flexible tube 50 is pushed into the buried pipe while the oil supply cloth 60 is coupled to the conical part 52 of the flexible tube 50. The flexible tube 50 uses a length enough to reach the curved path of the buried pipe.

As a detailed configuration of the present invention, in the step (B), a push rod 55 is fitted at the rear end of the flexible tube 50 and engaged with the socket portion 45 of the spiral shaft 43, and the lubrication cloth 60 is used for lubrication. It is characterized by moistening oil.

As shown in Fig. 4, the push rod 55 has a structure having a head portion 57 whose diameter is increased at one end. When the push rod 55 is pushed into the end of the flexible tube 50, only the head portion 57 is exposed to the outside. When the socket portion 45 of the spiral shaft 43 is engaged with the head portion 57 and the spiral shaft 43 is rotated with a power tool, the entry and movement of the flexible tube 50 due to the mediation of the push rod 55 It's smooth. In addition, if the lubrication cloth 60 soaked with lubrication oil is coupled to the conical part 52 of the flexible tube 50, it is advantageous to prevent resistance and damage during the restoration process as well as the movement of the flexible tube 50 into the buried pipe.

Step (C) according to the present invention proceeds with a process of moving the flexible tube 50 by rotating the spiral shaft 43. After rotating the movable table 40 to the correct position, the butterfly bolt 41 is tightened and the power tool coupled to the square portion 44 is operated.

Referring to FIG. 5, it can be seen a state in which the flexible tube 50 and the oil supply stream 60 pass through the curved path of the buried pipe and cause smooth restoration. Since it is a method of restoring by pushing the flexible tube 50, a relatively short length is sufficient, and it is easy to withdraw the flexible tube 50 by the oil applied to the buried pipe.

It is apparent to those of ordinary skill in the art that the present invention is not limited to the disclosed embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such variations or modifications will have to belong to the claims of the present invention.

11: first clamp 12: jaw
16: second clamp 17: fastening groove
20: main body 21: gripper
22: engaging groove 23: mounting groove
25: central hole 26: lock lever
30: pressing plate 32: operating rod
34: spring 36: arc lever
40: movable table 41: butterfly bolt
43: spiral shaft 44: square portion
45: socket portion 47: tool groove
50: flexible tube 51: wire rod
52: cone 55: push rod
57: head part 60: oil supply cloth

Claims (7)

In the jig device for restoring buried piping:
It is provided with a central hole 25 through which the buried pipe passes through the gripper 21 of one end, and the first clamp 11 of the publicly known (aka'Saragi clamp') and the article of the publicly known (aka'dongle pipe expander') A main body 20 for gripping the buried pipe through a clamp member that can be configured of two clamps 16;
A movable table 40 rotatably coupled to the other end of the main body 20;
A helical shaft 43 that is helically meshed with the movable table 40 so as to be able to move forward and backward toward the center hole 25 of the main body 20; And
Including a flexible tube 50 formed to be in close contact with the end of the spiral shaft 43 and causing restoration by entering the buried pipe,
The main body 20 is a locking groove 22 for detachably mounting the first clamp 11 on the gripper 21, and a mounting groove 23 for detachably mounting the second clamp 16 And a lock lever 26,
The flexible tube 50 is a structure in which the wire 51 is twisted, and a jig device for restoring buried pipes, characterized in that it has a conical part 52 at its tip. delete The method according to claim 1,
The main body 20 is a compression plate 30 mounted to the central hole 25 of the gripper 21 so as to move forward and backward in the radial direction thereof, while being elastically supported by the gripper 21, the compression plate 30 A jig device for restoring buried pipes, characterized in that it further comprises an operating rod 32 engaged with the gripper 21 and an arc-shaped lever 36 that intercepts the pressure of the operating rod 32 while rotating on the outer surface of the gripper 21. The method according to claim 1,
The spiral shaft 43 is a jig device for restoring buried pipes, characterized in that having a socket portion 45 at one end and a square portion 44 and a tool groove 47 at the other end. The method according to claim 1,
The flexible tube 50 is a jig device for restoring buried pipes, characterized in that it further comprises a push rod (55) concentrically coupled to the rear end. In the method of restoring the buried pipe using the jig device of claim 1:
(A) clamping the end of the buried pipe to the gripper 21 via a clamp member;
(B) a step of fitting the oil supply cloth 60 to the tip of the flexible tube 50 and then inserting it into the end of the buried pipe; And
(C) the step of advancing the flexible tube 50 by rotating the spiral shaft 43; buried pipe restoration method comprising a. The method of claim 6,
The step (B) is characterized in that the push rod 55 is fitted to the rear end of the flexible tube 50 and engaged with the socket part 45 of the spiral shaft 43, and the lubrication oil is wetted in the lubrication cloth 60. How to restore landfill pipes.

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