KR101956018B1 - Piping Internal Repair Device - Google Patents

Abstract

Disclosed is a device for maintaining an inner portion of a pipe, the device comprising: a plurality of structural units having a hollow portion to have a shape corresponding to an inner peripheral surface of the pipe, and a plurality of first engaging bosses protruding inwardly from the pipe, at least a part of the structural unit being formed in contact with the inner peripheral surface of the pipe, and being spaced apart from the pipe in a longitudinal direction; a first engaging unit having a plurality of second engaging bosses which are meshed with the first engaging bosses, and a first fixing engaging portion and a first passage forming portion protruding inwardly from the pipe, the first engaging unit extending in a longitudinal direction of the pipe to engage with the whole structural units; and a second engaging unit having a second fixing engaging portion which is engaged to the first fixing engaging portion, and a second passage forming portion which is engaged to the first passage forming portion to form a connection passage therein, the second engaging unit being engaged to the first engaging unit, of which a surface facing the inner side of the pipe forms a new inner wall of the pipe.

Description

{Piping Internal Repair Device}

The present invention relates to an internal piping repair apparatus which can be installed inside a piping together with a separate supporting structure to form a flow path inside a pipe damaged by corrosion or breakage.

If various pipes such as sewage piping or good piping are damaged due to aging, earthquake, or external impact, additional repair work is required depending on the degree of damage.

Generally, if the degree of damage to the pipe is small, it is possible to repair the part by applying additional mortar or concrete to the inner surface. However, if the degree of damage is large or wide, the entire pipe should be replaced or repaired.

However, there are many situations in which it is practically difficult to replace the piping, so it is effective to repair the entire piping with the repairing material. Therefore, if the internal damage of the pipe is severe, a method of repairing the inside of the pipe is necessary.

Conventionally, as a method of repairing a pipe, there is a method in which a reinforcing bar or a frame is bent and installed inside the pipe, an additional resin plate is joined to the reinforcing bar to form a cylinder type partition, Curing methods have been widely used.

In the case of repair materials, ordinary cement or mortar is used, and the inside of the piping can be repaired by hardening them.

However, in such a method, it is difficult to keep the reinforcing bars or frame fixedly connected to the resin plate, and when installed in an area where frequent shocks occur from the earthquake or the outside, cracks are generated in the cured repairing material together with the vibration of the resin plate .

When cracks occur in the repairing material, the groundwater is submerged from the ground and the resin plate or the like is detached from the frame.

In addition, even if a flow path is formed in the piping by using the resin plate, the fluid penetrates into the repair material through the gap between the resin plates, so that the durability of the repair material is lowered and the repair cycle may be shortened.

In the pipe repairing apparatus used in the past, a resin plate was installed on the inner surface of the pipe, and the pipe was repaired by filling the repair material therebetween. However, even if the retaining force of the retainer plate is relatively weak, It is a difficult situation.

Therefore, a method for solving such problems is required.

Korean Patent Publication No. 10-2005-0041765

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a piping system capable of repairing the inside of a pipe effectively and quickly even when internal breakage of piping is severe, And to provide a device.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided an internal repair apparatus for a pipe, comprising: a plurality of first engaging protrusions formed on an inner side of the pipe so as to have a shape corresponding to an inner circumferential surface of the pipe, A plurality of structural units formed at least partially in contact with the inner circumferential surface of the pipe and spaced along the longitudinal direction of the pipe, a plurality of second engagement protrusions engaging with the first engagement protrusions, A first coupling unit including a protruded first fixed coupling unit and a first passage forming unit and formed elongate along the longitudinal direction of the piping and coupled over a plurality of structural units and a second coupling unit coupled to the second fixed coupling unit, And a second passage forming part coupled to the first passage forming part to form a connection passage therein, the first passage forming part being coupled to the first coupling unit, The side facing in a second coupling unit formed in an inner wall of the new pipe.

The first engaging protrusions and the second engaging protrusions may be formed to gradually increase in width as they go outward, and may be formed to be staggered with each other.

The connection unit may further include a connection unit formed to be elongated in the lengthwise direction and connected to the structural units whose both ends are spaced apart from each other along the longitudinal direction of the pipe to maintain the interval between the structural units.

And the structural unit may include a coupling hole to which the coupling unit is coupled.

The first fixing part may include a pair of first fixing protrusions facing each other, and the second fixing part may include a second fixing protrusion inserted and fixed between the pair of first fixing protrusions .

The first fixing part may further include an auxiliary protrusion protruding between the pair of first fixing protrusions, wherein the pair of second fixing protrusions is inserted between the pair of first fixing protrusions, And an insertion groove into which the auxiliary protrusion is inserted may be formed between the pair of second fixing protrusions.

The second passage forming part may include a pair of passage forming protrusions extending in the direction of the first passage forming part and spaced apart from each other to define the connecting passage.

The passage forming protrusion may have a latching groove formed therein, and the first passage forming unit may include a latching protrusion coupled to the latching groove.

Further, the first passage forming portion may include a recessed groove that is recessed toward the structure unit side and into which the pair of passage forming protrusions are inserted.

The plurality of first coupling units may be formed to be interconnected along the inner circumference of the structural unit.

The first coupling unit may include a first coupling unit coupled to the other end of the adjacent first coupling unit and a second coupling unit coupled to the other end of the first coupling unit adjacent to the first coupling unit, A second connection portion may be formed.

The first connection part may be formed as a protrusion protruding outwardly, and the second connection part may be formed as a groove into which the first connection part is inserted.

The plurality of second coupling units may be formed to be interconnected along the inner circumference of the first coupling unit.

The first and second ends of the second coupling unit may be formed with a contact portion which is in contact with another adjacent second coupling unit.

The contact portion may include a first extending portion extending in the direction of the first coupling unit, a second extending portion extending outwardly from the end of the first extending portion, and a second extending portion extending from the end of the second extending portion inward And a third extending portion.

And a fixing unit for wrapping and fixing a pair of contact portions of the pair of adjacent second coupling units which are in contact with each other.

In order to solve the above problems, the piping internal repair apparatus of the present invention has the following effects.

First, the present invention comprises a structural unit formed along the inner periphery of a pipe and spaced along the longitudinal direction of the pipe, a first coupling unit coupled to the structural unit, and a second coupling unit, So that the piping can be repaired by filling a separate filling material.

Second, a wide connection path is formed between the first coupling unit and the second coupling unit, and various structures such as pipes, optical cables, and the like can be accommodated therein.

Third, there is an advantage that it is possible to repair the inside of the pipe effectively and quickly even if the internal breakage of the pipe is severe.

Fourth, it is possible to have durability durability even after repairing, and there is an advantage that the inner circumferential surface of a newly formed pipe is formed flat without a step.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a state in which a structural unit is installed inside a damaged pipe in an internal piping maintenance apparatus according to an embodiment of the present invention; FIG.
FIG. 2 is a view showing a state in which a plurality of structural units of FIG. 1 are installed along a longitudinal direction in a repair area of a pipe;
3 is a schematic view of a structural unit in an internal piping maintenance apparatus according to an embodiment of the present invention;
FIG. 4 is a view showing a first coupling unit in an internal piping maintenance apparatus according to an embodiment of the present invention; FIG.
5 is a schematic view illustrating a piping internal repair apparatus according to an embodiment of the present invention, in which a first coupling unit is coupled to a structural unit;
FIG. 6 is a view showing a second coupling unit in a piping internal repair apparatus according to an embodiment of the present invention; FIG.
FIG. 7 is a view illustrating a piping internal repair apparatus according to an embodiment of the present invention, in which a second coupling unit is coupled to a first coupling unit; FIG.
FIG. 8 is a view showing a state in which a fixing unit is coupled to a pair of second coupling units adjacent to each other, in an internal piping maintenance apparatus according to an embodiment of the present invention;
9 is a view illustrating a state where a filler is injected between an internal surface of a pipe internal repair apparatus and a pipe according to an embodiment of the present invention; And
10 is a view showing a piping internal repair apparatus according to another embodiment of the present invention in which a second coupling unit is coupled to a first coupling unit.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

The piping internal repairing apparatus according to the present invention is a device for repairing piping P by forming a separate structure on the inner surface of piping P which is corroded or broken and forming a flow path and filling filler material I between the inner surface of piping P and the structure And will be described with reference to FIGS. 1 to 10 attached hereto.

The piping internal repair apparatus according to an embodiment of the present invention may include a structure unit 100, a first coupling unit 200, a second coupling unit 300, and a fixed unit 400. [

The structure unit 100 is installed in the pipe P in the first place and has a corresponding perimeter along the radius of the pipe P. At least a part of the structure unit 100 is disposed in contact with the inner surface of the pipe P. [

In the present embodiment, the pipe P has a circular section, but the present invention is not limited to this embodiment, and the piping internal repairing apparatus of the present invention may be applied to various types of piping P such as polygonal or horseshoe- Of course, can be applied.

At this time, as shown in FIG. 1, the structure unit 100 is configured to be adjustable in length corresponding to the inner shape and circumference of the pipe P.

In the present invention, the cross section of the pipe P is circular, and the structure unit 100 is configured to form the hollow A in a ring shape. Alternatively, the cross section of the pipe P Even if the shape is formed in various shapes such as a polygonal shape or a horseshoe shape, the shape can be adjusted correspondingly.

In the present embodiment, the structural unit 100 is formed in a ring shape and a hollow A is formed at the center, and the structural unit 100 is disposed along a circumference with a predetermined thickness in a part of the pipe P. [

Specifically, the structure unit 100 is formed so that the maximum diameter along the periphery is relatively smaller than the inner circumference of the pipe P in consideration of the inner surface step or protrusion of the pipe P, Respectively.

Of course, it may be preferable that the outer circumference of the structure unit 100 is configured to be close to the inner surface of the pipe P. However, since the inner surface state of the pipe P does not constitute a perfect surface, .

1 and 3, the structure unit 100 constructed as described above includes a plurality of first coupling protrusions 120 protruding inwardly of the pipe P, and at least a portion of the first coupling protrusions 120, And a plurality of structural forming units 110 may be installed along the longitudinal direction of the pipe as shown in FIG.

In the present embodiment, the structural unit 100 may be integrally formed and have a hollow (A) shape in a closed curve form, or alternatively may be formed of a plurality of unit members, each of which is connected to form a closed curve Lt; / RTI >

In the present embodiment, the unit member 110 is divided into a plurality of units along the circumferential direction of the structural unit 100, and each unit member is continuously connected by separate fixing means (not shown). The material is made of steel, Of high rigidity material can be used. Additional surface treatments may also be performed to improve durability.

The structure unit 100 includes a plurality of first coupling protrusions 120 protruding to the inside of the pipe P and the first coupling protrusions 120 are formed in the structure forming unit 110, And may be spaced apart from each other along the longitudinal direction of the frame. A first coupling groove 102 into which the second coupling protrusion 220 of the first coupling unit 200 to be described later is inserted may be formed between the first coupling protrusions 120 adjacent to each other.

Particularly, in the present embodiment, the first coupling protrusions 120 are formed so that the width gradually increases toward the outer side. Accordingly, when the second coupling protrusions 220 are inserted into the first coupling recesses 102, The first coupling protrusions 120 and the second coupling protrusions 220 can be held in a fixed state so as not to be stably separated from each other.

In this way, the structural unit 100 is constituted by a plurality of unit members, so that the entire circumferential length can be easily adjusted. Also, the structural unit 100 can be assembled outside the pipe P during installation or can be assembled directly in the pipe P.

The structure forming unit 110 is disposed along the circumferential direction of the pipe P and at least a part of the structure forming unit 110 is in contact with the inner surface of the pipe P. [

As shown in the figure, the structure forming unit 110 is formed with a contact surface 140 in a direction in which it contacts the pipe P so that the load acting on the inner surface of the pipe P is dispersed.

If the structure forming unit 110 makes point contact without making surface contact with the inner surface of the pipe P, additional damage to the inner surface of the pipe P due to the pressing of the structure unit 100 located at the lower portion Can occur.

Accordingly, the structure forming portion 110 is configured to be in surface contact with the inner surface of the pipe P by the contact surface 140, thereby further preventing the pipe P from being damaged.

The structure forming part 110 forms a communication space B without contacting the inner surface of the pipe P so that the filling material I can be easily injected between the inner surface of the pipe forming part 110 and the inner surface of the pipe P. You may.

The structural unit 100 constructed as described above is formed in a ring shape and contacts the inner surface of the pipe P, and each of the structural units 100 is disposed to be spaced along the longitudinal direction of the pipe P. [

At this time, the structural unit 100 is spaced apart along the longitudinal direction of the pipe P and the perimeter thereof can be adjusted corresponding to the inner surface of the pipe P at each point.

The connection unit 400 is disposed between the structural units 100 in the pipe P and supports the structural unit 100 in a plurality of units.

Specifically, the connection unit 400 is formed in a frame shape such as a rod or a pipe, and is fixedly coupled to the structural unit 100 with both ends thereof being spaced apart to support the structural unit 100.

That is, the connection unit 400 serves as a spacer for maintaining a spacing distance between the adjacent structural units 100 in the axial direction, and protrudes in the form of protrusions at both ends thereof, 112).

At this time, as shown in FIG. 2, the connection unit 400 may be provided along the inner circumference of the pipe P between adjacent structural units 100.

Although not shown in the drawings, the connection units 400 may be configured to have different lengths or to be adjustable in length in a pipe shape, so that the spacing distance between adjacent structural units 100 And can be actively combined.

The connection unit 400 supports the structure unit 100 so that the structure unit 100 can be installed on the inner surface of the pipe P while maintaining a predetermined gap therebetween.

In addition, when the pipe P is not formed in a straight line shape but has a slope or a curved line, the connection unit 400 is disposed between adjacent structural units 100 in correspondence with the degree of bending of the pipe P. [ Or may be adjusted to have different lengths.

Next, the first coupling unit 200 shown in FIG. 4 and FIG. 5 is formed as a component that can be coupled to the inside of the structure unit 100, and in particular, is formed long along the longitudinal direction of the pipe P And can be coupled over a plurality of structural units 100.

In this embodiment, the first coupling unit 200 is divided into a plurality of members and connected to each other along the inner circumference of the structure unit 100. The number of the first coupling units 200 May be suitably provided in accordance with the field conditions such as the diameter of the pipe (P).

Accordingly, a first connection portion 250a is formed at one end of the first coupling unit 200 and is coupled to the other end of the adjacent first coupling unit 200, and the other end of the first coupling unit 200 A second connection part 250b is formed to be coupled to one end of another adjacent first coupling unit 200.

In particular, in the present embodiment, the first connection part 250a is formed as a protrusion protruding outward, and the second connection part 250b is formed in a groove shape into which the first connection part 250a is inserted, The connection between the first coupling units 200 can be performed in a manner that the coupling unit 250a is inserted into the second coupling unit 250b of the other first coupling unit 200. [

The first coupling unit 200 includes a first base 210 and a second base 210 protruding from the first base 210 in the direction of the structure unit 100 and coupled with the first coupling protrusions 120 And includes a plurality of second coupling protrusions 220.

The second coupling protrusions 220 may be spaced apart from each other along the longitudinal direction of the first base 210 in the same manner as the first coupling protrusions 120 described above. A second coupling groove 212 into which the first coupling protrusions 120 of the structure unit 100 are inserted may be formed between the adjacent second coupling protrusions 220. [

5, the first coupling protrusions 120 are formed in the second coupling grooves 212 (see FIG. 5), and the second coupling protrusions 220 are formed in the second coupling recesses 212 The first engaging protrusions 120 and the second engaging protrusions 220 are engaged with each other and can be held in a fixed state so as not to be stably separated from each other.

The first coupling unit 200 may include a first fixing part 230 and a first passage forming part 240 protruding from the first base part 210 to the inside of the pipe.

6) of the second coupling unit 300 to be described later, so that the first coupling unit 200 and the second coupling unit 300 (see FIG. 6) The first passage forming part 240 is connected to the second passage forming part 340 of the second coupling unit 300 and the connecting passage S ). The connection passage S can accommodate various configurations of optical cables, pipes, and the like.

The first fixing part 230 includes a pair of first fixing protrusions 232 facing each other and the first fixing protrusion 232 protrudes from the first base part 210, A first fixing protrusion 232a protruding inward from the first fixing protrusion 232a and a first hook 232b bent at an end of the first fixing protrusion 232a to form a hook shape.

The first fixing part 230 may further include auxiliary protrusions 234 protruding between the pair of first fixing protrusions 232.

These are components for stable engagement with the second fixed engaging part 330 (see FIG. 6), which will be described in the second engaging unit 300 part.

On the other hand, an expansion member R may be provided on a surface of the first fixed coupling portion 230 that is in contact with the second fixed coupling portion 330 when the first fixed coupling portion 230 is engaged with the second fixed coupling portion 330.

The expansion member R is made of elastic rubber or synthetic resin or water inflatable material that can be inflated by moisture so that the expansion member R is inflated after the engagement of the first fixed engaging part 230 and the second fixed engaging part 330 A larger bonding force can be obtained and watertightness can be maximized.

Although the expansion member R is formed in the first fixed coupling unit 230 in the present embodiment, the expansion member R may be selectively provided on the contact surfaces of all the coupling structures in this embodiment. Of course it is.

The first passage forming part 240 includes a pair of locking protrusions 242 facing each other and the locking protrusion 242 protrudes from the first base part 210 to the inside of the pipe P And has a hooking protrusion 242a and a hooking hook 242b bent at the end of the hooking protrusion 242a to form a hook shape.

At this time, the height of the locking protrusion 242 may be lower than the height of the first fixing protrusion 232.

Next, the second coupling unit 300 shown in FIGS. 6 and 7 is a component that is formed to be engageable with the inner side of the first coupling unit 200. Like the first coupling unit 200, May be formed to be long along the longitudinal direction of the pipe P and may be coupled to the plurality of structural units 100.

Also, in the present embodiment, the second coupling unit 300 is divided into a plurality of members, and is formed to be mutually connected along the inner circumference of the first coupling unit 200, May be suitably provided according to the field conditions such as the diameter of the pipe (P).

Accordingly, at one end and the other end of the second coupling unit 300, a contact portion 350 that is in contact with another adjacent second coupling unit 300 may be formed. The contact portion 350 will be described later.

In this embodiment, the second coupling unit 300 includes a second base 310, a second fixed coupling 330 coupled to the first fixed coupling 230, And a second passage forming part 340 coupled to the second passage forming part 240 to form a connecting passage S therein.

The second fixing part 330 may include a second fixing protrusion 332 inserted and fixed between a pair of first fixing protrusions 232 formed in the first fixing part 230, The second fixing protrusion 332 includes a second fixing protrusion 332a protruding from the second base 310 in the direction of the first coupling unit 200 and a second fixing protrusion 332b protruding from the end of the second fixing protrusion 332a And a second hook portion 332b that is bent in the hook shape to form a hook shape.

7, the second fixing protrusions 332 are inserted between the pair of first fixing protrusions 232 through the first hook portion 232b and the second hook portion 332b, And the first coupling unit 200 and the second coupling unit 300 can be engaged with each other.

At this time, the second base portion 310 forms a new inner wall of the pipe.

Meanwhile, between the pair of second fixing protrusions 332, an insertion groove into which the auxiliary protrusion 234 of the first coupling unit 200 described above is inserted may be formed. Accordingly, have.

The second passage forming part 340 is extended in the direction of the first passage forming part 240 and includes a pair of passage forming protrusions 342 spaced apart from each other and forming the connecting passage S therebetween .

The passage forming protrusion 342 includes a first passage extending portion 342a extending from the second base portion 310 toward the first coupling unit 200 and a second passage extending portion 342b extending from the passage extending portion 342a, And a second passage extending portion 342b formed at an end of the first passage forming portion 240. The first passage forming portion 240 is formed on the outer side between the first passage extending portion 342a and the second passage extending portion 342b And a latching groove 343 to which the latching protrusion 242 is engaged is formed.

7, the first passage forming part 240 and the second passage forming part 230 are coupled to each other through the coupling between the locking protrusion 242 and the locking groove 343, And the second coupling unit 300 can be improved.

As described above, the present invention is characterized in that a wide connecting passage S is formed between the first coupling unit 200 and the second coupling unit 300 by the first passage forming unit 240 and the second passage forming unit 230 So that various configurations of the optical cable C and the like can be received therein.

As described above, the contact unit 350 may be formed at one end and the other end of the second coupling unit 300 to be in contact with another adjacent second coupling unit 300.

The contact portion 350 may include a first extension portion 352 extending from the second base portion 310 in the direction of the first coupling unit 200, A second extension 353 extending outwardly from an end of the extension 352 and a third extension 354 extending from the end of the second extension 353 inward of the pipe P And an auxiliary hook 355 bent at an end of the third extending portion 354. As shown in FIG.

That is, the contact portion 350 may be formed to have a generally U-shaped shape, and the second coupling unit 300 adjacent to the contact portion 350 may be connected to the third extending portions 354 in contact with each other.

In this embodiment, the fixing unit 400 may further include a pair of contacting portions 350 of the pair of second coupling units 300 adjacent to each other.

The fixing unit 400 is formed in a shape corresponding to a space formed between a pair of contact portions 350 adjacent to each other. More specifically, the fixed unit 400 includes a first insertion portion 410 inserted between the pair of first extension portions 352, and a second insertion portion 410 inserted between the first extension portion 352 and the third extension portion 354 And a pair of third extensions (352) adjacent to each other between the pair of second insertions (420), and a pair of second inserts A locking groove 430 into which the hook 354 is inserted may be formed.

When the fixed unit 400 is wrapped around and fixed to a pair of contact portions 350 of the pair of second coupling units 300 adjacent to each other, The outer surfaces of the second base portion 310 of the second coupling unit 300 may be formed to be flat.

9, after the structure unit 100, the first coupling unit 200, and the second coupling unit 300 are installed inside the pipe P as described above, Can be filled with a separate filler (I).

Specifically, the piping internal repair apparatus according to the present invention is installed in the order of the structure unit 100, the first coupling unit 200, and the second coupling unit 300, As shown in FIG. Accordingly, a filling space may be formed between the inner surface of the pipe P and the inner maintenance device of the pipe.

In the present embodiment, the filling space has a shape divided by the structural unit 100 along the longitudinal direction of the pipe P, and the filling material I is further injected into the filling space of this type, As the inside of the filling space is filled, the pipe internal repairing apparatus according to the present invention is fixed integrally with the pipe P.

At this time, the filler (I) may be a curable material such as mortar, cement or concrete, or a curable material such as an unsaturated polyester resin or an epoxy resin.

The filling material I injected from one side along the longitudinal direction of the region where the piping internal repairing apparatus according to the present invention is installed and the filled filling material I injected into the communicating space 100 formed by the structural unit 100 B, see FIG. 1) into the space between the inner surface of the pipe P and the inner pipe repair apparatus.

Meanwhile, the first coupling unit 200 and the second coupling unit 300 may be made of PVC, synthetic resin, thermoplastic resin, thermosetting resin, or the like, and may be formed to have a certain level of elasticity.

The coupling between the structural unit 100, the first coupling unit 200, and the second coupling unit 300 may be performed by various methods such as a pressing method or a sliding method.

As described above, the piping internal repair apparatus according to the present invention includes the structural unit 100 having the hollow A in the damage area inside the pipe P, and the structure unit 100 is provided with the first coupling unit 200 and the second coupling unit 300 are coupled and supported together and the inner surface of the pipe P can be repaired by filling the filler I between the inner surfaces of the pipe P. [

The piping P and the piping internal repairing device thus repaired are reinforced by the cured filling material I so that the strength of the piping P is increased and the fluid flowing inside the piping P Can flow in contact with the second coupling unit 300 and the fixing unit 400 to prevent corrosion of the additional filling material I. [

Since the circumference of the structural unit 100 is adjusted corresponding to the size of the inner surface of the pipe P, the space between the pipe P and the structural unit 100 is minimized, Of course, can be fixed.

10 is a view illustrating a state in which the second coupling unit 300 is coupled to the first coupling unit 200 in the piping internal repair apparatus according to another embodiment of the present invention.

10, the first passage forming portion 260 of the first coupling unit 200 and the second passage forming portion 360 of the second coupling unit 200 The shape is formed differently from the above-described embodiment.

Specifically, in the present embodiment, the first passage forming part 260 includes a recessed groove 262 having a shape recessed toward the structure unit 100, and accordingly, the position of the first passage forming part 260 The first coupling protrusions 120 of the structure unit 100 corresponding to the depressions 122 may include depressed depressions 122 corresponding to the depressions 262.

In this embodiment, the second passage forming part 360 has a pair of passage forming protrusions 362, but the passage forming protrusions 362 of the present embodiment are formed to have a longer length, As shown in FIG.

Accordingly, the present embodiment can enlarge the size of the connection passage S and accommodate more various structures in the connection passage S.

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them. Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

100: Structure unit
110: Structure forming part
120: first engaging projection
200: first coupling unit
210: a first base portion
220: second engaging projection
230: first fixed engaging portion
240, 260: first passage forming portion
250a: first connection portion
250b: second connection portion
300: second coupling unit
310: second base portion
330: second fixed engaging portion
340, 360: a second passage forming portion
350:
400: fixed unit
P: Piping
A: hollow
B: Communicating space
I: filler

Claims (16)

A plurality of first coupling protrusions protruding to the inside of the pipe and having at least a portion thereof formed to be in contact with an inner circumferential surface of the pipe, A plurality of structural units spaced apart along the longitudinal direction;
A plurality of second coupling protrusions engaging with the first coupling protrusions, a first fixed coupling portion protruding inward of the piping, and a first passage forming portion, A first coupling unit coupled across the unit; And
And a second passage forming unit coupled to the first passage forming unit to form a connection passage therein, the second passage forming unit being coupled to the first coupling unit, A second coupling unit in which an inwardly facing surface of the pipe forms a new inner wall of the pipe; / RTI >
The second passage forming portion includes a pair of passage forming protrusions extending in the direction of the first passage forming portion and spaced apart from each other to define the connecting passage,
Wherein the passage forming protrusion is formed with an engaging groove, and the first passage forming portion includes an engaging protrusion engaged with the engaging groove. The method according to claim 1,
Wherein the first coupling protrusions and the second coupling protrusions are formed to gradually increase in width as they go outward, and are staggered with each other. The method according to claim 1,
Further comprising a connecting unit formed to be elongated in the lengthwise direction and connected to the structural units whose both ends are spaced apart from each other along the longitudinal direction of the pipe to maintain an interval between the structural units. The method of claim 3,
Wherein the structural unit includes a coupling hole to which the coupling unit is coupled. The method according to claim 1,
Wherein the first fixing part includes a pair of first fixing protrusions facing each other and the second fixing part includes a second fixing protrusion inserted and fixed between the pair of first fixing protrusions, Device. 6. The method of claim 5,
Wherein the first fixed engaging portion further includes an auxiliary protrusion protruded between the pair of first fixing protrusions,
Wherein the second fixing protrusions are provided in pairs and inserted between the pair of first fixing protrusions, wherein an insertion groove into which the auxiliary protrusions are inserted is formed between the pair of second fixing protrusions. delete delete The method according to claim 1,
Wherein the first passage forming portion is recessed toward the structure unit side and includes a recessed groove into which the pair of passage forming protrusions are inserted. The method according to claim 1,
The first coupling unit includes:
Wherein the plurality of structural units are interconnected along the inner circumference of the structural unit. 11. The method of claim 10,
The first coupling unit may include a first coupling unit coupled to the other end of the adjacent first coupling unit and a second coupling unit coupled to the other end of the first coupling unit adjacent to the first coupling unit. 2 Internal repair of piping with connections. 12. The method of claim 11,
The first connection part may be formed as a protrusion protruding outwardly,
And the second connection portion is formed in a groove shape into which the first connection portion is inserted. The method according to claim 1,
The second coupling unit includes:
And a plurality of the first and second coupling units are connected to each other along the inner circumference of the first coupling unit. 14. The method of claim 13,
Wherein the first and second end portions of the second coupling unit are formed with contact portions that are in contact with other adjacent second coupling units. 15. The method of claim 14,
The contact portion
A first extension extending in the direction of the first coupling unit;
A second extension extending outwardly from an end of the first extension; And
A third extension extending from an end of the second extension to an inner side of the pipe;
Wherein the piping internal repair device includes: 15. The method of claim 14,
Further comprising: a fixing unit that surrounds and fixes a pair of contact portions that are in contact with each other of a pair of adjacent second coupling units.

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