KR101580273B1 - Apparatus for connecting composite girders and abutments of Rahmen bridge and Rahmen bridge construction method using the same - Google Patents

Abstract

The present invention relates to an apparatus for connecting composite girders and abutments of a Rahmen bridge and a Rahmen bridge construction method using the same. An upper plate part comprises an upper flat plate in a square shape or a rectangular shape and a plurality of upper vertical plates protruding upward from the center of an upper plane of the upper flat plate, and is formed integrally in a lower concrete casing of a concrete composite girder. A lower plate part comprises a lower flat plate which has a square shape or a rectangular shape in the same size and shape as the upper flat plate, and has a plurality of bolts protruding upward, and a plurality of lower vertical plates protruding downward at the center of a lower plane of the lower flat plate, and is strongly coupled to a support of the abutment where the concrete composite girder is placed. The upper plate part and the lower plate part are strongly coupled as adhering to each other by a bolt combining method, and a slab is formed by pouring concrete onto an upper part of the concrete composite girder under the state that the concrete composite girder and the abutment are connected with each other. A connection part of the concrete composite girder and the abutment is integrally formed by pouring the concrete onto the connection part of the concrete composite girder and the abutment. The present invention can perform a work of connecting the concrete composite girder and the abutment easily because the upper plate part integrated in the lower concrete casing of the concrete composite girder is strongly coupled to the lower plate part strongly coupled the support of the abutment where the concrete composite girder is placed through the bolt combining method.

Description

Technical Field [0001] The present invention relates to a composite bridge girder bridging bridge,

The present invention relates to a ramen bridge construction technique, and more particularly, to a composite girder girder and an alternate connection apparatus of a ramen bridge and a ramen bridge construction method using the same.

The raymen bridge using a conventional composite girder girder as disclosed in Patent Document 1 or Patent Document 2 is constructed by placing a steel composite girder at an alternating right angular portion made of reinforced concrete and forming a steel composite girder A sole plate is installed between the lower surface of the girder by a bolt fastening method so that the alternating and composite girder is strongened.

However, in the conventional raymond bridges in which the sole plate is installed and the alternating and steel composite girders are installed as described above, when the bottom plate concrete is poured and the steel composite girder and the alternation are integrated, the position of the sole plate is deformed, There is a disadvantage that an angle of incidence occurs.

(Patent Document 1) KR10-2010-0102908 A

(Patent Document 2) KR10-2010-0025161 A

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and an object of the present invention is to provide an upper plate having a square or rectangular shape and a plurality of upper straight plates projecting upward from a central portion of the upper surface of the upper plate, The upper plate integrally formed with the lower concrete casing of the synthetic girder is formed into a square or rectangular shape having the same size and shape as the upper plate, a lower plate having a plurality of bolts protruding upward, and a plurality of A lower plate portion provided with a lower vertical plate and tightly joined to an alternate point portion where the steel composite girder is fixed, and a steel composite girder alternately connected to the steel composite girder and the alternation by a bolt- Device.

Another object of the present invention is to provide a steel composite girder comprising a steel composite girder and a steel composite girder, wherein the steel composite girder is integrally formed with the upper plate portion and the lower plate portion, The concrete is laid on the upper part of the steel composite girder to form a slab, and concrete is inserted into the alternating connection part with the steel composite girder so that the steel composite girder and the alternate connection part are integrally formed The present invention provides a method of constructing a ramen bridge using a steel composite girder and an alternating connection device.

In order to accomplish the object of the present invention, the steel composite girder and the alternating connection device according to the present invention are integrally formed with the lower concrete casing of the steel composite girder, and the alternating upper surface And at least two upper vertical plates protruding upward in parallel with a predetermined interval at an upper center portion of the upper surface of the upper flat plate, wherein the upper flat plate has through-holes on both sides in the longitudinal direction or on both sides in the left- An upper plate having holes formed at predetermined intervals; And bolts which are tightly fitted to alternate fulcrums where the steel composite girder is fixed and which are square and / or rectangular in shape and size and have the same size and shape as those of the upper flat plate and are fitted in a one- to-one correspondence with the through holes formed in the upper flat plate, A lower vertical plate and a lower vertical plate projecting downward in parallel at a predetermined distance from a lower central portion of the lower flat plate are provided in the same number as the upper vertical plate, And at least one or more through holes communicating with each other are formed at predetermined intervals.

And the end of the upper vertical plate is maintained in a state in which it is in close contact with the lower flange of the T-shaped steel or the I-shaped steel of the steel composite girder.

In the steel composite girder and the alternating connection device according to the present invention, the lower plate portion is reinforced by reinforcing bars inserted horizontally across the through holes formed in the respective lower vertical plates, and both ends of the reinforcing bars are T- And is reinforced by reinforcing bars exposed vertically on the upper surface of the alternating reinforced concrete by the L-shaped coupler, so that the reinforcing bars are strengthened at the alternate point portions where the steel composite girder is mounted.

In the steel composite girder and the alternating connection apparatus according to the present invention, the upper plate portion and the lower plate portion are connected to each other by the bolts of the upper plate and the lower plate, do.

In order to accomplish the object of the present invention as described above, a ramen bridge construction method using a steel composite girder and an alternate connection apparatus according to the present invention is characterized in that when a lower concrete casing of a steel composite girder is laid and cured, And at least two upper vertical plates protruding upward in parallel at a predetermined interval from an upper surface central portion of the upper flat plate and having a square or rectangular shape smaller than an alternate upper surface on which the steel composite girder is mounted at both ends, A first step of integrally forming an upper plate part in which through holes are formed at predetermined intervals on both sides in the front and rear direction of the upper flat plate or on both sides in the left and right direction; The bolts that are square or rectangular with the same size and shape as those of the upper plate and are fitted in one-to-one correspondence with the through holes formed in the upper plate, A lower vertical plate protruding downward in parallel with a predetermined distance from a central portion of a lower surface of the lower flat plate is provided in the same number as that of the upper vertical plate, and each of the lower vertical plates has a horizontal Wherein at least one or more through holes communicating with each other in a direction perpendicular to the longitudinal direction of the steel composite girder are formed at predetermined intervals, After the reinforcing bars are inserted, the both ends of the reinforcing bars inserted horizontally across the lower vertical plates are inserted into the T- A second stage in which reinforcing bars are vertically exposed to reinforcing bars at alternate points of the reinforced concrete using a L-shaped or L-shaped coupler; The steel composite girder produced in the first step is placed on the fulcrum portion at an alternate point portion where the lower plate portion is strong and the bolt of the lower flat plate is inserted into the through hole of the upper plate, A third step of tightening the upper plate portion and the lower plate portion in tight contact with each other in a bolt-fitting manner by tightening with a nut; And a fourth step of forming a slab by pouring concrete on the upper part of the steel composite girder following the third step and integrally forming a fulcrum portion between the steel composite girder and the alternating concrete by pouring concrete thereinto .

In the first step, the end of the upper vertical plate is connected to the lower flange of the T-shaped steel or the I-shaped steel of the steel composite girder by using the steel composite girder and the alternate connecting device according to the present invention. And the upper plate portion is integrally formed with the lower concrete casing of the steel composite girder.

Since the upper plate integrally formed with the lower concrete casing of the steel composite girder is simply and tightly joined to the lower plate portion and the bolt connection method which are strong at the alternate point portion where the steel composite girder is mounted, Can be easily performed.

In the present invention, since the upper end portion and the lower end portion are integrally formed by pouring the concrete between the steel composite girder and the alternating state in a state of being bolted to each other, There is an advantage that it hardly occurs.

According to the present invention, a sole plate is provided by a bolt fastening method between the upper surface of the alternating right corner portion and the lower surface of the steel composite girder, It is possible to solve the disadvantage that an angle of the member is generated more than a predetermined error as the position of the sole plate is deformed when the steel composite girder and the alternation are integrated.

1 is an exploded perspective view showing a steel composite girder and an alternate connecting device according to the present invention.
2 is a perspective view showing a combined state of a steel composite girder and an alternate connecting device according to the present invention.
3 is a view showing an embodiment of a ramen bridge construction method using a steel composite girder and an alternate connection apparatus according to the present invention.

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

1 and 2, the ramming bridge 100a and the alternating 100b connecting device 100 according to the present invention include an upper plate portion 110 and a lower plate portion 120. As shown in FIG.

The steel composite girder 100a is formed by integrally forming a lower concrete casing 110a on a T-shaped steel or an I-shaped steel.

The upper plate portion 110 is integrally formed with the lower concrete casing 110a of the steel composite girder 100a.

The upper plate 110 is spaced a predetermined distance from the upper plate 111 and the upper plate 111 in a square or rectangular shape smaller than the upper surface of the alternate 100b in which the steel composite girder 100a is mounted, And at least two upper vertical plates 112 protruding upward in parallel.

When the concrete is interposed between the end of the upper vertical plate 112 and the lower flange of the T-shaped steel or the I-shaped steel of the steel composite girder 100a, after the ramen bridge is subjected to the load externally applied, In order to prevent such a problem, the upper vertical plate 112 is connected to the T-shaped section of the steel composite girder 100a or to the I-shaped section of the steel composite girder 100a, It is preferable to maintain a state in which it is in close contact with the lower flange of the magnetic steel.

For reference, in the enlarged view of FIG. 2, the upper vertical plate 112 has a distal end which is in close contact with the lower flange of the I-shaped steel of the steel composite girder 100a.

The upper plate 110 is formed with through holes 111-1 at predetermined intervals on both sides of the upper plate 111 in the front-rear direction or on both sides in the left-right direction.

2, four through holes 111-1 are formed at predetermined intervals on both sides in the front-rear direction of the upper plate 111. As shown in FIG.

The lower plate portion 120 is tightened on a support of the alternation 100b where the steel composite girder 100a is mounted.

The lower plate 120 has a square or rectangular shape having the same size and shape as the upper plate 111 and has bolts 121- The lower vertical plate 121 protruding upward and the lower vertical plate 122 protruding downward at a predetermined distance from the lower center of the lower flat plate 121 in the same number as the upper vertical plate 112 Respectively.

2, four bolts 121-1 fitted in a one-to-one correspondence with four through holes 111-1 formed on both sides in the front-rear direction of the upper plate 111 are connected to the lower plate 121 And is protruded upward.

Each of the lower vertical plates 122 of the lower plate 120 is formed with at least one through hole 122-1 communicating with the neighboring lower vertical plate 122 in a horizontal direction at predetermined intervals.

For reference, FIG. 2 shows an embodiment in which 15 through holes 122-1 are formed in a 3 × 5 matrix in the lower vertical plate 122.

The lower plate portion 120 is reinforced by reinforcing bars 110b inserted horizontally across the through holes 122-1 formed in the respective lower vertical plates 122. Both ends of the reinforcing bars 110b A point portion of the alternation 100b where the steel composite girder 100a is stuck with the reinforcing bars 130b vertically exposed on the upper surface of the alternation 100b made of reinforcing concrete by the T-shaped or L-shaped coupler 120b, .

The upper plate portion 110 and the lower plate portion 120 are in close contact with each other in a bolt connection manner between the upper plate 111 and the lower plate 121 to thereby connect the alternating steel 100a with the steel composite girder 100a .

A ramen bridge construction method using the steel composite girder and alternate connection apparatus 100 according to the present invention constructed as above will now be described.

As shown in FIG. 3, the ramen bridge construction method (S100) using the steel composite girder and alternate connection apparatus 100 according to the present invention comprises the first step (S110) to the fourth step (S140).

Among these, a first step S110 of forming the upper plate part 110 integrally with the lower concrete casing 110a of the steel composite girder 100a and the second step S110 of joining the lower plate part 120 to the steel composite girder 100a The third step S130 and the fourth step S140 may be performed in the first step S110 and the second step S120 may be performed sequentially or in reverse order or concurrently. And the second step (S120) are completed.

In the first step S110, when the lower concrete casing 110a of the steel composite girder 100a is poured and cured, the upper plate 110 is integrally formed at both ends of the steel composite girder 100a.

At this time, if the concrete intervenes between the end of the upper vertical plate 112 and the lower flange of the T-shaped steel or the I-shaped steel of the steel composite girder 100a, after the ramen bridge is applied, In order to prevent such a problem, the upper end of the upper vertical plate 112 is connected to the T-shaped section of the steel composite girder 100a so as to prevent deformation of the slab portion of the ramming bridge, Or the lower flange of the I-shaped steel while maintaining the upper plate 110 integrally with the lower concrete casing 110a of the steel composite girder 100a.

For reference, in the enlarged view of FIG. 2, the upper vertical plate 112 has a distal end which is in close contact with the lower flange of the I-shaped steel of the steel composite girder 100a.

In the second step S120, the lower plate 120 is made stronger at the point of the alternation 100b where the steel composite girder 100a is mounted, The reinforcing bars 110b are inserted horizontally across the lower vertical plates 122-1 and then the opposite ends of the reinforcing bars 110b inserted horizontally across the lower vertical plates 122 are connected to each other using T- Thereby reinforcing the reinforcement 130b exposed vertically to the fulcrum portion of the alternation 100b made of reinforced concrete.

After the first step S110 and the second step S120 are performed as described above, the steel composite girder 100a manufactured in the first step S130 is inserted into the fulcrum portion 120, The bolts 121-1 of the lower flat plate 121 are inserted into the through holes 111-1 of the upper flat plate 111 and the bolts 121-1 of the lower flat plate 121 are tightened with nuts, (110) and the lower plate part (120) in tight contact with each other by a bolt connection method (S130).

After the upper plate 110 and the lower plate 120 are tightly coupled to each other as described above, concrete is put into the upper portion of the steel composite girder 100a to form a slab, and the steel composite girder 100a is alternated with the steel composite girder 100a. (100b) are integrally formed by pouring concrete to complete the ramen bridge installation (S140).

As described above, according to the embodiment of the present invention, the upper plate portion 110 formed integrally with the lower concrete casing 110a of the steel composite girder 100a is disposed at the point of the shift 100b where the steel composite girder 100a is mounted The steel composite girder 100a and the alternation 100b can be easily connected to each other by simply joining the lower plate portion 120 to the steel composite girder 100a.

Particularly, according to the embodiment of the present invention, concrete is installed in a spot portion between the steel composite girder 100a and the alternating portion 100b while the upper plate portion 110 and the lower plate portion 120 are bolted to each other, There is an advantage that almost no member angle is generated at a point between the steel composite girder 100a and the alternation 100b with a predetermined error or more.

Also, according to the embodiment of the present invention, a sole plate is installed by a bolt fastening method between the upper surface of the alternating right corner part and the lower surface of the steel composite girder, It is possible to solve the disadvantage that an angle of the member is generated more than a predetermined error as the position of the sole plate is deformed when the steel composite girder and the alternation are integrated by the method.

The steel composite girder and the alternate connecting device according to the present invention described above are not limited to the above-described embodiments, There is a technical spirit to the extent that anyone with knowledge can make various changes.

100: Steel composite girder with alternating connection with ramen bridge
100a: Steel composite girder 110a: Lower concrete casing
100b: Alternating 110b, 130b: Reinforcing
120b: coupler 110: upper plate
111: upper plate 111-1: through hole
112: upper vertical plate 120: lower plate portion
121: Lower flat plate 121-1: Bolt
122: Lower vertical plate 122-1: Through hole

Claims (6)

And an upper flat plate integrally formed with the lower concrete casing of the steel composite girder and made smaller in the square or rectangular shape than the alternate upper surface on which the steel composite girder is mounted and the lower flat plate which is protruded upward Wherein at least two upper vertical plates are provided and through holes are formed on both sides in the front-rear direction or in the lateral direction of the upper flat plate at predetermined intervals, and the distal end of the upper vertical plate is connected to the T- An upper plate portion maintaining a state of being in tight contact with the lower flange of the section steel; And
Wherein the steel composite girder is rigid on an alternate point portion where the steel composite girder is mounted and has bolts which are square or rectangular in shape and shape identical in size and shape to each other and which are fitted one to one with the through holes formed in the upper plate, A lower vertical plate protruding downward in parallel at a predetermined distance from a central portion of a lower surface of the lower flat plate is provided in the same number as that of the upper vertical plate, and each of the lower vertical plates is communicated with another adjacent lower vertical plate horizontally At least one through hole is formed at a predetermined interval and the through holes formed in the respective lower vertical plates are pressed together by a reinforcing bar inserted horizontally and both ends of the reinforcing bars are connected to a T- The reinforcing steel is vertically exposed to the upper surface of the alternation of the reinforcing concrete, Lower plate is ganggyeol to shift the fulcrum portion of the castle girders mounted;
And a steel composite girder and an alternating connection device. delete delete 2. The composite girder according to claim 1, wherein the upper plate portion and the lower plate portion are in close contact with each other in a bolt-joining manner between the upper plate and the lower plate, . When placing and curing the lower concrete casing of the steel composite girder, the gap between the upper flat plate, which is smaller than the alternating upper surface in which the steel composite girder is mounted at both ends of the steel composite girder, and the upper plate, A first step of integrally forming an upper plate part having at least two upper vertical plates projected upward and side by side and having through holes at predetermined intervals on both sides in the longitudinal direction or on both sides in the left and right direction of the upper flat plate;
The bolts that are square or rectangular with the same size and shape as those of the upper plate and are fitted in one-to-one correspondence with the through holes formed in the upper plate, A lower vertical plate protruding downward in parallel with a predetermined distance from a central portion of a lower surface of the lower flat plate is provided in the same number as that of the upper vertical plate, and each of the lower vertical plates has a horizontal Wherein at least one or more through holes communicating with each other in a direction perpendicular to the longitudinal direction of the steel composite girder are formed at predetermined intervals, After the reinforcing bars are inserted, the both ends of the reinforcing bars inserted horizontally across the lower vertical plates are inserted into the T- A second stage in which reinforcing bars are vertically exposed to reinforcing bars at alternate points of the reinforced concrete using a L-shaped or L-shaped coupler;
The steel composite girder produced in the first step is placed on the fulcrum portion at an alternate point portion where the lower plate portion is strong and the bolt of the lower flat plate is inserted into the through hole of the upper plate, A third step of tightening the upper plate portion and the lower plate portion in tight contact with each other in a bolt-fitting manner by tightening with a nut; And
A fourth step of forming a slab by placing concrete on the upper part of the steel composite girder and forming a fulcrum part between the steel composite girder and the alternating part by integrally forming concrete;
And a ramming bridging method using a steel composite girder and an alternating connection device. [7] The method as claimed in claim 5, wherein in the first step, the end of the upper vertical plate is kept in close contact with the lower flange of the T-shaped steel or I-shaped steel of the steel composite girder, And the casing is integrally formed with the steel composite girder and the alternating connection device.

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