KR20220015681A - Expansion joint and its construction method - Google Patents

Abstract

The present invention relates to an expansion joint comprising: a pair of side girders separated from each other by a prescribed distance, installed to face each other, and having a long length and an L-shaped vertical cross section; an upper plate coupled to the upper surface of one of the pair of the side girders; at least two height adjustment frames coupled in the longitudinal direction of the side girders, fixed and coupled to the outer surface of the side girders to protrude downwards, and having a long hole formed in a vertical direction; and a support frame wherein one end thereof is connected to the height adjustment frames, the other end thereof is bent to be coupled to a concrete floor surface, and long holes are formed on the one end and the other end thereof. The present invention remedies the deformation by expansion caused by a temperature change of a concrete structure and drying contraction caused by aging of concrete to allow a person to easily pass over the concrete structure even if a gap in the concrete structure becomes large.

Description

Expansion joint and its construction method

The present invention relates to an expansion joint, and more particularly, to an expansion joint for finishing a floor surface together with a floor member while preventing cracks from occurring in joint joints between concrete structures, and a construction method thereof.

In general, a concrete structure deforms due to load, temperature change, concrete creep, drying shrinkage, etc., and to allow such deformation, the concrete structures are spaced apart while maintaining a predetermined distance, and an expansion joint is installed in the spaced-apart space above the concrete structure. To enable smooth driving of people and vehicles.

In the present invention, it is intended to develop an expansion joint installed between concrete structures to compensate for deformations such as expansion and contraction caused by temperature change and drying shrinkage according to the age of concrete, and to finish the floor surface together with the floor member and its construction method.

Registered Patent Publication No. 10-2117689

The present invention has been devised to solve this problem, and an object of the present invention is to provide an expansion joint for finishing the floor together with a floor member while preventing cracks from occurring in the joint joint between concrete structures and a construction method thereof.

The present invention relates to an expansion joint, consisting of a pair of side girders that are spaced apart from each other and installed to face each other, have a long length and have a vertical cross-section formed of a girder, and any one of the side girders composed of a pair The upper plate coupled to the upper surface of the side girder, at least two or more are coupled along the longitudinal direction of the side girder, and the height adjustment frame is fixedly coupled to the outer surface of the side girder to protrude downward and formed with a long long hole in the vertical direction , One end is connected to the height control frame, the other end is bent and coupled to the concrete floor, the one end and the other end characterized in that it comprises a support frame formed with a long hole, respectively.

In addition, the height adjustment frame and the support frame are fastened to each other by a second fastening member for height adjustment, and the second fastening member is a bolt, and the front surface of the bolt head has a guide step corresponding to the shape of the long hole. It is characterized in that the protrusion is formed.

In addition, a pair of side girders are spaced apart from each other and installed to face each other, have a long length and have a vertical cross-section formed by a girder; an upper plate coupled to the upper surface of any one of the side girders of the pair of side girders; a height adjustment frame coupled to at least two or more along the longitudinal direction of the side girder, fixedly coupled to protrude downwardly from the outer surface of the side girder, and formed with a long long hole in the vertical direction; One end is connected to the height adjustment frame, the other end is bent and coupled to the concrete floor, the one end and the other end of the support frame each having a long hole; Expansion joint for finishing the floor using an expansion joint comprising a In the construction method, the expansion joint construction method according to the present invention comprises mounting a pair of support frames to face each other on the upper surfaces of a pair of concrete structures spaced apart from each other, and then coupling and installing them to the concrete structure using bolts. A support frame for connecting a height adjustment frame and a side girder coupled to a height adjustment frame to the pair of support frames installed in a concrete structure through the ground installation step of the support frame and the ground installation step of the support frame using a second fastening member And the height adjustment frame combining step, the height adjustment step of adjusting the total height of the expansion joint by adjusting the overlapping degree of the support frame and the height adjustment frame that are mutually fastened through the support frame and the height adjustment frame combining step, a pair of and a first member removing step in which a first fastening member connecting the side girder to each other is removed.

Therefore, the present invention compensates for deformation caused by expansion and contraction due to temperature change of concrete structures and drying shrinkage according to the age of concrete, so that even if the gap between concrete structures becomes large, there is a remarkable effect that a person can smoothly pass through it. .

In addition, the present invention has a remarkable effect of protecting the floor member (finishing material) as well as interconnecting the structures.

1 is a perspective view of an expansion joint according to the present invention.
2 is an exploded perspective view of an expansion joint according to the present invention.
3 is a cross-sectional view of an expansion joint according to the present invention.
4 is a view showing another embodiment of the expansion joint according to the present invention.
5 is a photograph of a concrete structure to which the present invention is applied.
6 is a photograph of a state in which the expansion joint according to the present invention is installed.
7 is a flowchart of an expansion joint construction method according to the present invention.

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

Since the accompanying drawings are only examples shown to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

Fig. 1 is a perspective view of an expansion joint according to the present invention, Fig. 2 is an exploded perspective view of an expansion joint according to the present invention, and Fig. 3 is a cross-sectional view of the expansion joint according to the present invention.

1 and 3 , the expansion joint 100 according to the present invention includes a side girder 120 , an upper plate 140 , a height adjustment frame 160 , and a support frame 180 .

First, the side girder 120 is composed of a pair of left and right, spaced apart from each other by a predetermined distance, and installed to face each other.

The side girder 120 has a vertical cross-section formed of a girdle and has a long length, and the side girder has a horizontal frame 122 arranged in a horizontal direction, and is formed to be bent 90 degrees downward from the end of the horizontal frame. Includes a vertical frame (124).

In addition, as shown in FIG. 2 , through-holes 126 are formed at both ends of the vertical frame.

The through hole 126 is an element to which the first fastening member 128 is fastened, and the first fastening member serves to connect the pair of side girders to provisionally assemble the pair of side girders.

The first fastening member is a bolt, and in the present invention, a nut (N) is fixed to the side of the through hole by welding, but a threaded surface is formed on the inner periphery of the through hole, and the nut may be omitted. It is not limited to the invention.

And, since the through hole 126 is for adjusting the distance between the pair of side girder 120, at least two or more are formed along the longitudinal direction of the side girder to increase the spacing between both ends of the pair of side girder. should be able to control

Meanwhile, as another embodiment of the present invention, as shown in FIG. 4 , an elastic member 190 may be further mounted in the space between the pair of side girders 120 .

'형상으로 형성된다. The elastic member has a long length, and has a vertical cross section so that it can be stretched and contracted in the width direction.

'formed in the shape.

The elastic member 190 is fitted between the pair of side girders to support the side girders, allow the side girders to be relatively uniformly spaced by temperature, etc., and absorb the shock transmitted from the side girders It serves to support the girder.

The elastic member has a length slightly shorter than that of the side girders, and is fitted between the side girders so that it is preferable to expand and contract together as the distance between the pair of side girders is adjusted.

At this time, support pieces (not shown) for supporting the elastic member are respectively protruded from opposite surfaces of the pair of side girders 120 .

The support piece may be formed to be elongated along the longitudinal direction of the side girder, or a plurality of pieces may be formed to be spaced at equal intervals along the longitudinal direction of the side girder. The support pieces are formed so as to have different heights from each other.

For this reason, even if the pair of side girders are close to each other, the respective support pieces are provided so as not to abut and contact each other so as not to interfere with the adjustment of the spacing of the pair of side girders.

In addition, the support piece may also be provided as an elastic member, and when the support piece is an elastic member, for easy coupling with the side girder, a seating groove is formed on the opposite surface of the side girder along the longitudinal direction of the side girder. and a support piece is provided to be press-fitted to the seating groove.

In addition, the support piece and the seating groove may be firstly fixed to each other by an adhesive or the like, and may be more stably fixed by force-fitting secondarily.

Then, the upper plate 140 is coupled to the upper surface of any one of the pair of side girders 120, and even if the gap between the pair of side girders is widened or narrowed, the upper surface of the side girders It is a protective element.

A plurality of fastening holes 142 are formed in the upper plate to be spaced at equal intervals along the longitudinal direction of the upper plate.

The fastening hole 142 is for fastening with one side girder, and a fastening hole (not shown) is formed at a position corresponding to the fastening hole 142 in the upper plate fastened to the upper plate, and the upper plate As the fastening member is fastened through both the fastening hole of the plate and the fastening hole of the side girder, the upper plate and the side girder are coupled to each other.

In addition, both sides of the upper plate 140 in the width direction are bent downward at a predetermined angle.

More specifically, both sides of the upper plate are bent by about 8 to 10 degrees, and accordingly, the edge in the longitudinal direction of the upper plate has the effect of stably contacting the upper surface of the horizontal frame, and thus the upper plate is Prevents noise and impact caused by colliding with the horizontal frame.

In addition, as the upper plate is formed to be bent, the upper plate has an effect of compensating for this even if it is stretched or contracted by the surrounding environment such as temperature.

In addition, a plurality of elastic members (not shown) are attached to the bottom edge of the upper plate at equal intervals along the longitudinal direction of the upper plate, thereby preventing noise and impact caused by the upper plate hitting the side girder.

In this case, the elastic member is preferably attached to a position corresponding to the side of the side girder separated from the upper plate. (See FIG. 2, the elastic member is attached to the lower right edge of the upper plate.)

Next, the height adjustment frame 160 is fixedly coupled to the outer surface of the pair of side girder 120 to protrude downward, respectively.

At least two or more height adjustment frames 160 are coupled along the longitudinal direction of the side girder, and it is preferable that the number increases as the length of the side girder increases.

The height adjustment frame 160 has a rectangular plate shape having a length, and a long hole H is formed in the height adjustment frame in the vertical direction.

The long hole (H) is an element for fastening with a support frame 180 to be described later, and the height adjustment frame and the support frame are fastened and separated from each other by a second fastening member 162 .

In particular, the second fastening member 162 is a bolt, and a guide step 164 corresponding to the shape of the long hole is formed on the front surface (in the direction of the screw part) of the bolt head to protrude forward, so that the support frame has the effect of being movable in the vertical direction even in a state coupled to the height adjustment frame by the second fastening member.

The thickness of the bolt head is formed to be the same as the thickness of the vertical frame of the side girder, so that the bolt does not interfere with the adjustment of the spacing of the side girder.

In addition, the vertical section of the guide step 164 is the same as the vertical section of the long hole, but the length is shorter than that of the long hole. It is an element that easily adjusts the folding degree (height adjustment) of the support frame and the height adjustment frame, and when the height adjustment frame and the support frame are fastened, it is stably fixed inside the long hole to strengthen the combination of the height adjustment frame and the support frame.

And two washers (W) are used between the second fastening member and the nut (N), one of which is a flat washer and the other is a lock washer. The control frame was made to be more firmly fastened to each other so that there is no loosening even in the case of vibration and shock.

And as an embodiment according to the fastening of the side girder and the height adjustment frame 160, guide grooves are formed on both sides of the side girder along the longitudinal direction of the side girder, and guide projections on the height adjustment frame corresponding to the guide groove. Is formed so that the height adjustment frame can be provided to be movable along the longitudinal direction of the side girder.

In addition, at this time, since the guide groove and the guide protrusion must be fixed according to the needs of the user, fastening holes are respectively formed at positions corresponding to each other in the guide groove and the guide protrusion, and a separate fastening member is fastened through all the fastening holes. It would be preferable to do so.

Finally, the support frame 180, one end is connected to the height adjustment frame 160, the other end is an element coupled to the floor surface of the concrete structure.

The support frame includes a first plate 182 connected to the height adjustment frame, and a second plate 184 formed to be bent outwardly of the first plate.

Long holes H are formed in the first plate and the second plate, respectively.

The long hole formed in the first plate is for height adjustment of the expansion joint 100 of the present invention, and the long hole (H) of the second plate is a long hole (H) of the second plate because the expansion joint 100 is opened or closed by the expansion and contraction of the concrete structure. It is for guiding the movement of the expansion joint when it is removed.

Hereinafter, a method for constructing an expansion joint according to the present invention will be described.

7, the expansion joint construction method includes a support frame ground installation step (S100), a support frame and a height adjustment frame coupling step (S200), a height adjustment step (S300), a first member removal step ( S400).

The support frame ground installation step (S100) is a step of mounting the support frame 180 according to the present invention on the upper surface of the concrete structure 10, and then coupling and installing the support frame 180 to the concrete structure using anchor bolts or the like.

At this time, as shown in FIG. 5 , the concrete structures are spaced apart from each other by a predetermined distance, and at least one pair of the support frames 180 should be disposed to face each other.

In addition, the support frame is placed on the upper surface of the concrete structure, and the fastening member penetrates the long hole formed in the support frame and is fixed to the concrete structure. Accordingly, the support frame is installed on the concrete structure.

Then, the support frame and the height adjustment frame coupling step (S200) is to combine the side girder combined with the height adjustment frame and the height adjustment frame to the support frame 180 installed in the concrete structure through the support frame ground installation step (S100) is a step

At this time, the height adjustment frame is in a state of being fastened to the side girder and the upper plate, and when the pair of side girder is coupled to the concrete structure, they are mutually fastened by the first fastening member 128 to provide a provisionally assembled state. do.

In addition, at this time, an elastic member is mounted in the space between the pair of side girders.

That is, the pair of side girders are respectively coupled to different concrete structures 10, and as shown in FIG. 5, the concrete structures are spaced apart from each other by a predetermined distance.

Next, the height adjustment step (S300) is a step of adjusting the total height of the expansion joint by adjusting the overlapping degree of the support frame and the height adjustment frame.

The support frame and the height adjustment frame are mutually fastened by a second fastening member 162 , and an operator adjusts the total height of the expansion joint by using the second fastening member 162 .

At this time, the total height of the expansion joint is adjusted according to the thickness of the floor member 20 laid on the upper surface of the concrete structure (10).

The height adjustment step (S300) may be performed simultaneously with the support frame and the height adjustment frame coupling step (S200), or may be adjusted after going through the support frame and the height adjustment frame coupling step (S200).

Finally, the first member removing step ( S400 ) is a step in which the first fastening member connecting the pair of side girders to each other is removed.

When the first fastening member is removed, the side girder is movable, such as moving closer to or farther away from the concrete structure, and thus plays a role, so the first fastening member is removed at the last stage of construction.

On the other hand, the present invention may further include the side girder spacing adjusting step (S200).

The side girder spacing adjustment step may be applied between the support frame ground installation step (S100) and the support frame and the height adjustment frame coupling step (S200), and the spacing of a pair of side girders mutually fastened by the first fastening member. This is the step of adjusting to fit the spacing of the concrete structure.

At this time, the operator rotates the first fastening member clockwise or counterclockwise to adjust the overall width of the expansion joint to fit the concrete structure 10 to be installed.

Therefore, the present invention compensates for deformation caused by expansion and contraction caused by temperature change of concrete structures and drying shrinkage according to the age of concrete, so that even if the gap between concrete structures increases, a person or vehicle can smoothly pass through it. there is

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only for explaining the invention, and various modifications or equivalents from the detailed description of the invention to those of ordinary skill in the art to which the present invention pertains It will be appreciated that one embodiment is possible.

Therefore, the true scope of the present invention should be determined by the technical spirit of the claims.

10: concrete structure
20: floor member
100: Expansion joint and its construction method
120: side girder
122: horizontal frame
124: vertical frame
126: through hole
128: first fastening member
140: upper plate
142: fastening hole
160: height adjustable frame
162: second fastening member
164: guide step
180: support frame
182: first plate
184: second plate
190: elastic member
H: long hall
N: Nut
W: washer
S100: Support frame ground installation stage
S200: Support frame and height adjustment frame combining step
S300: height adjustment step
S400: first member removal step

Claims (3)

Side girders composed of a pair, spaced apart from each other and installed opposite to each other, having a long length and having a vertical cross-section formed by a girder;
an upper plate coupled to the upper surface of any one of the side girders of the pair of side girders;
a height adjustment frame coupled to at least two or more along the longitudinal direction of the side girder, fixedly coupled to protrude downwardly from the outer surface of the side girder, and formed with a long long hole in the vertical direction;
Expansion joint comprising a; one end is connected to the height control frame, the other end is bent and coupled to the concrete floor, the one end and the other end are each formed with a long hole.
According to claim 1,
The height adjustment frame and the support frame are fastened to each other by a second fastening member for height adjustment,
The second fastening member is a bolt, and an expansion joint characterized in that a guide step corresponding to the shape of the long hole is protruded from the front surface of the bolt head.
A support frame ground installation step of mounting a pair of support frames to face each other on the upper surfaces of a pair of concrete structures spaced apart from each other, and then fixing and installing the support frames to the concrete structure using anchor bolts;
The height adjustment frame and the height adjustment frame are coupled to the pair of support frames installed in the concrete structure through the ground installation step of the support frame, and the height adjustment frame and the side girder coupled to the height adjustment frame are mutually coupled using a second fastening member. step;
a height adjustment step of adjusting the total height of the expansion joint by adjusting the overlapping degree of the support frame and the height adjustment frame coupled to each other through the step of combining the support frame and the height adjustment frame;
Expansion joint construction method comprising a; a first member removing step of removing the first fastening member interconnecting the pair of side girders.

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