KR101716675B1 - Connecting Structure of Steel Pipe with the Reinforced Joint and Bridge with the Same - Google Patents

Abstract

The present invention relates to a connecting structure of a steel pipe with a reinforced joint and a bridge provided with the same, which can improve constructability regardless of a steel pipe diameter, and maintain a more tightly connecting state when connecting a gap between steel pipes. The present invention relates to a connecting structure (1) of a steel pipe to connect a steel pipe (10) and another steel pipe (12), which comprises a fixing member (10b) and a reinforcing connection pipe (20).

Description

A steel pipe connection structure reinforced with joints and a bridge having such a steel pipe connection structure,

The present invention relates to a steel pipe connection structure reinforced with joints and a bridge including such a steel pipe connection structure. More particularly, the present invention relates to a steel pipe connection structure reinforced with a joint to improve the workability irrespective of the steel pipe diameter, will be.

Generally, there are many cases where steel pipes are installed in various construction or civil engineering sites. For example, when a bridge is constructed, a plurality of girders are usually provided on the lower part of the upper plate to support the bridge.

In a bridge, the girder can be divided into a reinforced concrete girder, a steel girder, and a filled steel pipe girder, and a load acting on the upper portion of the bridge and a vehicle load acting on the vehicle can be transmitted through a girder, It is a role to transmit alternately.

In this case, the concrete can be filled in the steel pipe girder of the girders applied to the bridge as required. First, steel pipes of predetermined lengths should be connected to each other to extend the length and be installed as a structure.

Therefore, conventionally, in the work site, the workers connected to each other by butt welding to connect the steel pipes to each other.

However, if the steel pipes are connected to each other only by the welding operation, the joining strength of the steel pipe may be weakened due to the quality of the weld, because the steel pipe is joined only by the joining force by welding.

In addition, when installed as a girder of a bridge, there is a high possibility that fatigue fracture occurs at joints between steel pipes connected by repeated vibrations or cracks occur due to welding defects.

Therefore, in order to reinforce the fragility of the joint, there is a structure in which the steel plate is welded to the outside of the steel pipe and the steel pipe is fixed with the bolt. However, there is a problem that the steel pipe is exposed to the outside.

In addition, as a conventional technique, a composite pipe connection structure disclosed in Korean Patent No. 10-947554 (hereinafter referred to as "Patent Document 1") has a structure in which a connection member or a connection member is provided in a steel pipe to be connected, Since the structure having the connecting member has a structure including a plurality of reinforcing vanes along the circumferential surface of the connecting member, the operation of attaching the reinforcing vane plate is cumbersome, the working time is delayed, and a great deal of precision is required in the production.

In addition, as another conventional technique, a steel pipe synthetic joint structure as disclosed in Korean Patent No. 10-945049 (hereinafter referred to as "Patent Document 2") is characterized in that when a joint body is provided, The structure is equipped with a frame and a diaphragm fixed to both ends of the frame. The structure is filled with concrete after being inserted into the steel pipe. Since the cylindrical frame is provided with a space inside the steel pipe, And it is hardly different from the case where reinforced concrete is filled with concrete.

In order to solve such a conventional problem, as disclosed in Korean Patent No. 10-1496413 (hereinafter referred to as "Patent Document 3"), a blocking plate and a fixing plate are fixed in advance in one of the steel pipes, In the steel pipe, a reinforcing connecting pipe is inserted into one of the steel pipes while fixing the clogging plate, and then the steel pipe is fixed by being coupled with the fixing plate. Then, the other steel pipe is inserted and the two steel pipes are brought into contact with each other. Pipe connection structure in which reinforcing bars are inserted in advance and concrete is filled in order to improve the rigidity and strength of joints. However, in Patent Document 3 The disclosed technique is a technique that can be applied only to a structure having a large diameter of a steel pipe, and it is difficult to use the steel pipe with a small diameter.

In other words, since the diameter of the steel pipe is so small that it is difficult for an operator to insert the tool into the steel pipe, it is extremely inconvenient to work to fix the stationary plate to one end of the reinforcing connection pipe provided inside the steel pipe through the plurality of bolts, .

Further, when the diameter of the conventional steel pipe is small and the length is long, it is difficult to perform a plurality of bolt fastening operations for joining the reinforcing connecting pipe.

Korean Patent No. 10-947554 (Notification Date: March 12, 2010) Korean Patent No. 10-945049 (Published on Mar. 05, 2010) Korean Patent No. 10-1496413 (Published on Feb. 27, 2015)

Accordingly, the present invention has been made to solve the above-mentioned problems of the related art, and it is an object of the present invention to provide a method of manufacturing a steel pipe which can improve the workability irrespective of the diameter of the steel pipe, A steel pipe connection structure reinforced with a joint to increase the rigidity and strength of the joint of the steel pipe by filling the concrete with the arrangement of the steel bars and the steel pipe connection structure, And to provide a bridge.

According to an aspect of the present invention, there is provided a steel pipe connecting structure for connecting a steel pipe with a steel pipe,
A fixing member fixed to the inner circumferential surface of the one steel pipe at intervals along the circumferential direction; And a reinforcing connecting pipe inserted into the steel pipe to be connected,
Wherein the reinforcing connector comprises:
A body portion,
And one or more cutting grooves formed in one side of the main body in the circumferential direction to insert and fix the fixing member fixed to the inner circumferential surface of the steel pipe,
Wherein the cutout groove comprises a first cutout formed along the longitudinal direction of the reinforced connecting pipe and a second cutout formed in a circumferential direction from an inner end of the first cutout,
An insertion hole is formed on an upper surface of the main body of the reinforced connecting pipe so as to detachably connect the operation handle,
Wherein an injection hole for injecting concrete is formed on the upper surface of the steel pipe and the upper surface of the main body portion of the reinforced connecting pipe,
Wherein flange portions are formed at both ends of the main body portion of the reinforced connecting pipe at intervals along the circumferential direction so that the filled concrete smoothly flows into the steel pipe and is filled therein,
Wherein the flange portion is formed with a plurality of through holes through which a reinforcing bar is inserted,
The injection hole is provided with a temporary fixing wedge member for temporarily fixing the reinforcing connecting pipe so as not to swing inside the steel pipe.
In addition, the fixing member may be formed of a bolt.
Further, the reinforcing bars may be arranged differently depending on the section of the steel pipe.
The reinforcing bars are only inserted into the flange formed on the upper portion of the reinforcing connecting pipe when the section of the steel pipe is the leg section, and only the flange formed on the lower portion of the reinforcing connecting pipe when the section is the upper section.
Further, the present invention provides a bridge having the steel pipe connecting structure as described above.

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As described above, according to the present invention, when a steel pipe as a girder used for constructing a bridge is connected, a pair of steel pipes having a predetermined unit length and a reinforcing connecting pipe are inserted into the pair of steel pipes, So that a reliable connection state can be maintained.

Further, according to the present invention, when the reinforcing connecting pipe is coupled to the inside of the steel pipe, a blocking plate and a fixing member are formed in the inside of one of the steel pipes, and at least one cut groove is formed along the circumferential direction on one side of the reinforcing connecting pipe, The fixing member is inserted into the cutout groove of the reinforced connecting pipe and is then rotated in one direction so as to engage the reinforcing connecting pipe and the reinforcing bar is inserted through the through hole of the flange portion formed at both ends of the reinforcing connecting pipe And the concrete is filled. Thus, the construction work of the steel pipe can be carried out easily, and it is possible to surely perform it more reliably when the steel pipes are connected regardless of the diameter of the steel pipe.

In the present invention, after the reinforcing connecting pipe is inserted into the steel pipe and then rotated, the temporary fixing wedge member is inserted so that the reinforcing connecting pipe is temporarily fixed, and then the reinforcing pipe is inserted through the inside of the reinforcing connecting pipe The position of the reinforcing connecting pipe can be maintained without changing the position of the reinforcing connecting pipe.

In addition, the present invention can selectively arrange the reinforcing bars according to moment moments of bridges, and when the reinforced concrete pipe is filled with concrete due to the spacing between flanges formed at both ends of the reinforced connecting pipe, So that the concrete can be charged quickly and reliably.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1A is a perspective view of a steel pipe connection structure according to an embodiment of the present invention; FIG.
FIG. 1B is a perspective view showing a half of a steel pipe cut in the state of FIG. 1A. FIG.
FIG. 2 is an exploded perspective view of FIG.
3A is a perspective view of a reinforcing connecting pipe of a steel pipe connecting structure according to an embodiment of the present invention.
FIG. 3B is an enlarged view of the incision groove of FIG. 3A.
3C is an enlarged view of a cutting groove of another modification of Fig. 3B.
4A is an assembled cross-sectional view of a steel pipe connection structure according to an embodiment of the present invention.
4B is an assembled cross-sectional view of a state in which concrete is injected from FIG. 4A and a blocking plate is attached and finished.
5A is a sectional view taken along the line AA in Fig. 4A.
Fig. 5B is an enlarged view of part B in Fig. 4A.
6A to 6D are assembly flowcharts of a steel pipe connection structure according to an embodiment of the present invention.
7 is a schematic explanatory view showing that the arrangement of reinforcing bars is varied according to the section of the steel pipe.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1A is an assembled perspective view of a steel pipe connection structure according to an embodiment of the present invention, FIG. 1B is an assembled perspective view illustrating a half of a steel pipe in a state of FIG. 1A, and FIG. 2 is an exploded perspective view of FIG. 1A.

As shown in the drawings, a steel pipe connection structure 1 according to an embodiment of the present invention includes a plurality of steel pipe connecting structures (bridges) (not shown) For example, a pair of steel pipes 10 and 12 should be installed to extend the length of the bridge to match the length of the bridge.

When the pair of steel pipes 10 and 12 are connected to each other, the reinforcing connecting pipe 20 is inserted into one of the steel pipes 10 and the other steel pipe 12 is inserted into the reinforcing connecting pipe 20 exposed from the steel pipe 10, (20), and then the steel tubes (10) and (12) are welded and fixed by welding.

As shown in FIG. 3A, the reinforced connecting pipe 20 has a shape adapted to the shape of the steel pipes 10 and 12. The shape of the steel pipes 10 and 12 is cylindrical Accordingly, the reinforcing connecting tube 20 also has a cylindrical shape to form the main body 21.

In addition, both ends of the main body 21 constituting the reinforced connecting tube 20 are opened, and a plurality of cut-out grooves 22 are formed at one end side with intervals along the circumferential direction .

3B, the cutout groove 22 includes a first cutout 22a formed along the longitudinal direction of the main body 21 and a second cutout 22b extending from the end of the first cutout 22a in the circumferential direction And a second cut-out portion 22b formed of a second cut-out portion.

The first and second incisions 22a and 22b may be formed to have the same width in a straight line, but more preferably in a different structure as shown in FIGS. 3B and 3C.

That is, as shown in FIG. 3B, the first incision portion 22a is formed so as to be wider as it goes inward from the entrance side on which the fixing member 10b enters, and the second incision portion 22b is formed so as to be wider So that the width becomes smaller as the distance from the point where it comes into contact with the first incision part 22a.

At this time, the region 22c where the first cutout 22a and the second cutout 22b meet has an expanded area.

3C, the first cut-out portion 22a is formed to have a smaller width as it goes from the entrance side, and the second cut-out portion 22b is formed so as to have a width And the area 22c in which the first cutout 22a and the second cutout 22b meet is formed to have an inclined face 22d on the inner side of the area 22c Lt; / RTI >

The flange portions 23 may be formed at both ends of the main body portion 21 in the radial direction with a gap S therebetween.

The flange portion 23 may be welded and fixed to both end portions of the main body portion 21.

The flange portion 23 has a structure in which a plurality of through holes 23a are formed.

A plurality of holes, preferably two holes, are formed in the upper surface of the main body portion 21 at intervals. One hole is an injection hole 24 through which concrete can be injected, Is an insertion hole 25 that can be detachably inserted.

As shown in FIG. 4A, the injection hole 10c (24) is provided with a temporary fixing wedge member 32 for temporarily fixing the reinforcing connecting pipe 20 so as not to swing inside the steel pipe 10 Can be.

The temporary fixing wedge member 32 may be made of wood or steel.

Each of the pair of steel pipes 10 and 12 to be joined is fastened to the inside of the steel pipe 10 by a work such as welding or the like, A plurality of fixing members 10b can be fixed.

The fixing member 10b may be formed of a bolt or the like and may be fixed to the inner surface of the steel pipe 10 through a welding operation.

The steel pipe connection structure 1 having such a configuration according to an embodiment of the present invention is assembled in the order shown in Figs. 6A to 6D. That is, when a pair of steel pipes 10 and 12 are to be connected, first the blocking plate 10a and the plurality of fixing members 10b are fixed inside the one steel pipe 10, 20) is inserted (see Fig. 6A).

The fixing member 10b fixed to the inner circumferential surface of the one steel pipe 10 is inserted into one or more incision grooves 22 formed along the circumferential direction on one side of the reinforcing connecting pipe 20 .

The cutout groove 22 has a first cutout 22a formed so as to be linearly wider and longer along the longitudinal direction of the reinforced connecting pipe 20 and a second cutout 22b formed at an inner end of the first cutout 22a And the second cutout portion 22b formed so as to have a narrower width along the circumferential direction so that the fixing member 10b first enters through the first cutout portion 22a and the fixed member 10b The reinforcing connecting tube 20 is rotated in the direction in which the second cut portion 22b is formed (see FIG. 6B).

In other words, when the reinforcing connector 20 is inserted into the steel pipe 10, when the fixing member 10b enters and moves into the first cutout 22a, the insertion operation is performed more easily, Since the second incision portion 22b has a structure in which the width of the second incision portion 22b decreases from the extended region 22c, when the reinforced connecting tube 20 rotates, So that the rotation of the reinforcing connector 20 is facilitated.

In the case of forming the cutout groove 22 having the structure as shown in FIG. 3C, since the entrance side where the fixing member 10b enters for the first time is formed wider, the insertion operation of the fixing member 10b is made easier After moving along the first incision groove 22a and then stopping at the extended region 22c and then rotating the reinforcing connector tube 20 in the direction of entering the second incision 22b (A state in which it is not moved in the longitudinal direction of the reinforced connecting pipe 20) can be achieved easily.

When the reinforcing connecting pipe 20 is rotated, the manipulating handle 30 is inserted into the insertion hole 25 formed in the upper surface of the reinforcing connecting pipe 20 and is fixed in the second cutting portion 22b. The member 10b enters and the reinforcing connecting pipe 20 is engaged in the steel pipe 10 without flowing in the longitudinal direction.

Thereafter, the temporary fixing wedge member 32 is inserted through the injection hole 10c of the one steel pipe 10 and inserted into the injection hole 24 of the reinforced connecting pipe 20 so that the reinforcing connecting pipe 20 The reinforcement 40 is reinforced through the through hole 23a of the flange surface 23 formed at both ends of the reinforcing connection pipe 20, And inserted through the inside of the connector tube 20 (see FIG. 6C).

Therefore, since the reinforced connecting pipe 20 is securely fixed in the inside of the one steel pipe 10, the operation is smoothly performed without changing the position of the reinforcing connecting pipe 20 at the time of inserting the reinforcing bars 40 can do.

If the temporary fixing wedge member 32 is not inserted, the reinforcing connecting pipe 20 is not securely fixed inside the steel pipe 10, so that when the reinforcing pipe 40 is inserted, 20 can be rotated in the direction opposite to the direction of rotation inside the steel pipe 10 so that the reinforcing connecting pipe 20 is temporarily fixed by interposing the temporary fixing wedge member 32 do.

In this state, the other steel pipe 12 is inserted into the exposed portion of the reinforced connecting pipe 20 (half of the entire length of the reinforcing connecting pipe 20) inserted into the one steel pipe 10, .

A pair of steel pipes 10 and 12 and a reinforcing connecting pipe 20 are inserted and assembled so that a pair of steel pipes 10 and 12 are welded to the joint portion 14 abutted to each other.

5B, when the welding is performed on the joint portions 14 of the steel pipes 10 and 12, reinforcement in the inside of the steel pipes 10 and 12, as well as the steel pipes 10 and 12, The outer surface of the connecting pipe 20 is also joined, so that the steel pipes 10 and 12 and the reinforcing connecting pipe 20 are coupled and fixed.

Thereafter, the temporarily fixing wedge member 32 inserted into the injection hole 10c of the one steel pipe 10 is separated and the concrete C is injected through the open injection hole 10c of the steel pipe 10 The concrete C is injected into the reinforcing connecting pipe 20 through the injection hole 24 of the reinforcing connecting pipe 20 coupled to the inside of the steel pipe 10. The reinforcing connecting pipe 20, The steel pipe 10 and 12 are filled with the concrete C through the openings of both end portions of the reinforcing connecting pipe 20.

The flange 23 is formed at both ends of the reinforcing connecting pipe 20 at the time of filling the concrete C and the gap S is formed between the flange 23, (10a) (12a) fixed to the inside of the steel pipe (10) (12) smoothly flows through the gap (S) to the steel pipe (10) (12) without any interference will be.

After the concrete C is filled in the steel pipes 10 and 12 and then cured and hardened, the blocking plate 10d is attached (welded) to the injection hole 10c of the opened steel pipe 10 to be sealed (See FIG. 6D).

The blocking plate 10d may be formed of a member for forming the injection hole 10c of the steel pipe 10.

As described above, according to the embodiment of the present invention, when the reinforcing connecting pipe 20 is fixed to the inside of the steel pipe 10 (12) unlike the prior art, the inner circumferential surface of the steel pipe 10 is protruded The reinforcing connecting pipe 20 is fixed in the fixing member 10b so that the reinforcing connecting pipe 20 is inserted and fixed in the fixing pipe 10b, Even if the diameter of the steel pipe 10 is small, it is not necessary for the operator to approach the inside of the steel pipe 10 and to connect the reinforcing connecting pipe to the fixing plate by bolts at all, The insertion of the reinforcing connecting pipe 20 and the joining of the steel pipe can be performed very easily.

In other words, since the reinforcement connecting pipe 20 is inserted into the steel pipe and rotated from the outside without inserting a tool or the like into the steel pipe to perform the tightening operation, the diameter of the steel pipe is large as well as the small diameter The joining of the reinforcing connecting pipe and the joining of the steel pipe can be easily performed without any problem.

When the operation handle 30 is inserted through the insertion hole 25 formed on the upper surface of the reinforcing connecting pipe 20 when the reinforcing connecting pipe 20 is inserted into the inside of the one steel pipe 10 and rotated in one direction So that the insertion of the reinforced connecting pipe 20 and the rotation of the reinforced connecting pipe 20 and the switching of the reinforced connecting pipe 20 to the engaged state are more simple, Since the operation handle 30 can be easily separated from the insertion hole 25 of the reinforcing coupling pipe 20 after the reinforcing coupling pipe 20 is rotated, a series of the construction work can be performed very easily It is.

The reinforcing connecting pipe 20 is inserted into the reinforcing connecting pipe 20 by inserting the temporary fixing wedge member 32 through the one steel pipe 10 and fixing the reinforcing connecting pipe 20 therein. The insertion operation of the reinforcing bar 40 can be performed easily without rocking of the reinforcing bars 40. [

When the concrete (C) filled in the steel pipe is subjected to warping, cracks are generated in the tensile side, and sudden brittle fracture occurs at the time of fracture. In other words, since the concrete is resistant to compression but weak in tensile force, it is possible to place a reinforcing bar at a position where tensile force acts to resist the external force.

As shown in Fig. 7, in the case of a steel pipe which is a bridge installation girder which receives a bending moment, the momentum acts on the vicinity of the point of the steel pipe, and the momentum acts between the point and the point. That is, the lower end of the section of the steel pipe corresponds to the tension side between the point and the point in the steel pipe, and the upper end of the steel pipe section corresponds to the tension side in the vicinity of the point.

Therefore, when the joint portion of the steel pipe is located in the section of the momentum, the reinforcement 40 is disposed at the upper end portion of the end face, and when the reinforcement 40 is located at the end portion of the section, Efficient reinforcement of joints of steel pipes can be achieved.

7, when the reinforcing bar 40 is positioned at the lower end of the reinforcing connecting pipe 20, the flange portion 23 of the reinforcing connecting pipe 20 is positioned at the lower portion. The grooves 22 and the fixing member 10b fixed to the inner circumferential surface of the steel pipe 10 can be arranged at different positions.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, But fall within the scope of the appended claims.

C: Concrete
S: Spacing
1: Steel pipe connection structure
10, 12: Steel pipe
10a, 12a: blocking plate
10b: Fixing member
10c: injection ball
10d: blocking plate
14: joint
20: Reinforcing connector
21:
22: incision groove
22a: first incision section
22b: second incision section
22c: area
22d:
23: flange portion
23a: Through hole
24: Injection ball
25: Insertion ball
30: Operation handle
32: temporary fixing wedge member
40: Rebar

Claims (10)

A steel pipe connection structure (1) for connecting a steel pipe (10) and a steel pipe (12)
A fixing member 10b fixed to the inner circumferential surface of the one steel pipe 10 at intervals along the circumferential direction;
And a reinforcing connecting pipe (20) inserted into the steel pipe (10) (12) to be connected,
The reinforced connecting pipe (20)
A body portion 21,
And at least one incision groove 22 formed at one side of the main body 21 along the circumferential direction to insert and fix the fixing member 10b fixed to the inner circumferential surface of the steel pipe 10,
The incision groove 22 has a first incision 22a formed along the longitudinal direction of the reinforced connecting tube 20 and a second incision 22a formed in the circumferential direction from the inner end of the first incision 22a. (22b)
An insertion hole 25 is formed on the upper surface of the main body 21 of the reinforced connecting pipe 20 so that the operation handle 30 can be detachably coupled.
The upper end of the steel pipe 10 and the upper surface of the main body 21 of the reinforcing connecting pipe 20 are provided with concrete Injection holes 10c and 24 are formed respectively,
At both ends of the main body 21 of the reinforced connecting pipe 20, the concrete to be filled is smoothly moved to the inside of the steel pipes 10 and 12, 23 are formed,
The flange portion 23 is formed with a plurality of through holes 23a through which reinforcing bars 40 are inserted,
Characterized in that a temporary fixing wedge member (32) for temporarily fixing the reinforcing connecting pipe (20) so as not to swing inside the steel pipe (10) is fitted in the injection hole (10c) Steel pipe connection structure.
delete The method according to claim 1,
Wherein the fixing member (10b) is formed of a bolt.
delete delete delete delete The method according to claim 1,
Wherein the reinforcing bars (40) are arranged differently according to the section of the steel pipe.
The method of claim 8,
The reinforcement 40 is inserted only in the flange portion 23 formed on the upper portion of the reinforcing connecting pipe 20 when the section of the steel pipe is the moment section, Is inserted only in the flange portion (23) formed in the steel pipe connection structure.
A bridge comprising the steel pipe connection structure according to any one of claims 1, 3, 8 and 9.

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