KR100385130B1 - Expansion joint filler for concrete slab - Google Patents

Abstract

PURPOSE: An expansion joint filler for a concrete slab is provided to support the body firmly by setting the position of the expansion joint filler accurately, to accept change applied to the body in expanding and contracting concrete, and to improve the reliability by enlarging the waterproof area and preventing displacement. CONSTITUTION: An expansion joint filler comprises a support part(10) latticed and installed in the floor to vertically stand by supporting the lower part of a body(20); the body vertically mounted in the support part and contracted in expanding concrete and elastically restored in contracting concrete; and a waterproof part(30) horizontally mounted in the upper part of the body and contracted in expanding concrete and restored in contracting concrete to waterproof the body and both sides of the body. The reliability is improved with enlarging the waterproof area and preventing displacement.

Description

Expansion joints for concrete slab

The present invention relates to a support device for supporting a dowel bar of expansion joints for a concrete slab used to reduce the construction area of concrete by arranging a large concrete construction surface into several small areas.

In general, when concrete is installed in a place with a lot of water inflow from the outside such as roads, factory floors, parking lots, underground structures, underground roadways, tunnels, underground garages, underground water tanks, culverts, retaining walls, etc. In the process of curing concrete mixed with sand, gravel, and water, the evaporation of moisture in the concrete creates a gap in the micro space occupied by the water, and this crevice is caused by repeated shrinkage and expansion caused by atmospheric heat. Cracks are generated.

If cracks occur in the concrete as described above, water is introduced into the cracks, which causes various adverse effects on the building.

Therefore, in consideration of the occurrence of cracks in proportion to the construction area of concrete, a method of reducing the construction area of concrete has been devised.

As a method of reducing the construction area of concrete, the wide construction surface is divided into several small areas by using long timbers such as stools to reduce the construction area of concrete. Only very small cracks were generated that would not affect the desired objectives.

However, the expansion joints used to reduce and divide the large concrete construction area could only be manufactured with the same thickness and height, so the concrete could only be constructed in a horizontal state.

In this way, when the upper slab layer is constructed, not only rainwater or groundwater flows down but also a problem of slumping, and the concrete injected surface is attached to the space of expansion joints spaced apart by the concrete injected into the small space partitioned by the inclined angle. When the whole is in a connected state, there is a problem that cracks easily occur in the slab layer.

Therefore, the conventional expansion joints as described above are formed at the same height, so when the slab layer is inclined, the lower sides of the inclined expansion joints are joined to the concrete in the adjacent area and cracks are generated in the slab. In addition, in the case of conventional expansion joints, when the concrete slab in the partitioned space is contracted while the leading end of the expansion joint and the end of the slab layer are located on the same line, the parts of the concrete slab in contact with the expansion joint are spaced apart from each other. Rainwater seeps into the gap between The soaked rainwater is accumulated on the lower side of the expansion joint, and when it is winter, it freezes and becomes bulky, causing cracks in the concrete slab.

In order to solve this problem, the expansion joint for the concrete slab for preventing the crack of the concrete slab by dividing the concrete slab of a large area into several small space has been proposed and used.

However, the expansion joints as described above has the advantage that the slab can be installed horizontally or inclined by forming the cutout to allow horizontal installation and inclined installation of the expansion joints, but the sealing member coked to prevent moisture from penetrating into the expansion joints is The hardening phenomenon occurred due to the atmospheric temperature in winter, so the waterproof effect could not be expected.When the concrete plate expands in summer, the supports of the expansion joints do not suppress the expansion force of the concrete plates, causing cracks and installing the expansion joints. And it is not easy to join and detach with the fixing mortar when removing, there was a problem that can not arbitrarily select the height of the expansion joint according to the thickness of the concrete.

In order to solve this problem, the applicant of the present invention has been filed in 1996 Utility Model Registration Application No. 38642, the expansion joint for the concrete slab as shown in FIG.

This slab expansion joint is provided with a cutting portion 111 of the ordinary light lower strait and is provided with a support 112 that vertically connected the lower portion of the cutting portion 111 and the boundary line between the cutting portion 111 and the support 112. Comprising a cap 11 formed with a cutting groove 113 from the inside to the outside in the center of the upper portion, the insertion groove 121 is inserted so that the waterproof member 60 can be inserted at the time of the spaced apart spaced up and down on both sides The first body 10 is formed by integrally integrating the provided partition wall 12 into the lower portion of the cap 11.

In addition, a second body 20 is slidably inserted into the lower end of the first body 10 is configured, the lower body of the second body 20 is inserted into the slide type, the third body 30 is It is composed.

And the expansion joints configured as described above is vertically placed on the surface of the waterproofed slab, etc. as shown in Figure 2 and then cast concrete to the upper surface of the cap 11, when the concrete is cured the first body 10 cap After removing the cutout part (11), the backing material 40 having good buffering force, such as a sponge, is inserted into the space, and the sealing material 50 is filled in the space above the same surface as the surface of the concrete layer. To prevent rainwater from flowing along the expansion joints.

However, the waterproof structure of the conventional expansion joints as described above should be performed after the concrete is cured for the waterproof work process is cumbersome and the width of the sealing material is smaller than the width of the body, the sealing area is narrow and the sealing material exposed to the surface There is a concern that the separation easily from the concrete there is a problem that the reliability of the waterproof is lowered.

In addition, it is difficult to select the construction location of the expansion joints, and there is a risk that the expansion joints will fall when the concrete is placed after placing the expansion joints that are assembled to fit the body vertically to the construction floor. There is a problem in that to support the mortar or install a separate support means.

In addition, since the bodies are integrally molded and assembled, there is a problem in that the shrinkage and expansion width of the concrete cannot be accommodated smoothly.

The present invention has been made in view of the above-mentioned conventional defects, and an object thereof is to accurately set the construction position of the expansion joints, to firmly support the body, and to smoothly accommodate the change transmitted to the body during contraction and expansion of concrete. In addition, it is possible to expand the waterproof area and at the same time to prevent the escape by providing a stretch joint material that can increase the reliability of the waterproof.

The present invention expansion joint for achieving this object, the support is configured to be able to stand up and support the body at any position; A body that is contracted when the concrete is expanded and is elastically restored when the expanded concrete is contracted and is installed perpendicular to the support and embedded in the concrete; It is covered with a horizontal state on the top of the body is contracted when the concrete expands, is restored when the expanded concrete is contracted, and is composed of a waterproof portion that is covered in a horizontal state on the top of the body to waterproof to a predetermined width of both sides spaced apart from the body It is characterized by.

1 is a perspective view of a conventional expansion joint

Figure 2 is a side cross-sectional view showing a construction completion state of the conventional expansion joints

Figure 3 is a cross-sectional view showing a state of completing the construction of the present invention expansion joints

Figure 4 is an exploded perspective view of the support of the present invention

5 is a plan view showing an installation state of the support of the present invention

Figure 6 is an exploded perspective view of the body of the present invention

Figure 7 is an exploded perspective view of the waterproof portion of the present invention

<Explanation of symbols for the main parts of the drawings>

10: support portion 11: support member

12: connecting member 13: body receiving member

20: body 21: sealing material

22: sealing groove 23: buffer

30: waterproof part 31: buffer bar

32: upper plate 33: lower plate

34: waterproof member 35: cap

36: anchor bolt C: concrete

Hereinafter, the configuration of an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Figure 3 is a cross-sectional view showing a state of completing the construction of the present invention expansion joint.

The elastic joint member of the present invention is composed of a support portion 10 that can stand up to support the body 20, is installed perpendicular to the support portion 10 is composed of a body 20 embedded in concrete, the body 20 It is made up of a waterproof portion 30 to be covered in a horizontal state on the upper portion, which will be described in more detail as follows.

As shown in FIG. 4, the support part 10 is provided with a plurality of installation spaces 111 having a predetermined depth and width spaced at a predetermined interval by machining the iron plate by a press and opening the front and rear portions thereof. The side wall 112 between the 111 is formed with a support member 11 through which a plurality of gradient holes 113 are perforated.

In addition, the connecting member 12 is provided with a hook 121 on both sides so as to surround both sides of the installation space 111 of the support member 11 and have a connecting groove 122 opened in the front and rear in the center thereof. Is composed.

In addition, the upper and both sides of the opening are inserted into the connection groove 122 of the connection member 12 to accommodate the lower end of the body 20, and the body accommodating the gradient holes 132 are formed at predetermined intervals on both side walls 131. The member 13 is comprised.

As shown in FIG. 6, the body 20 has a width and a predetermined height, the upper part of which is closed and the lower part is opened, and which can be accommodated in the connecting groove 122 of the connecting member 12. When both sides of the sealing groove (21) is provided with a sealing groove (22) inwardly indented to fill the sealing material 21, and when the concrete expands in a suitable position in the inner center of the sealing groove 22 is contracted and the expansion force is released A buffer 23 to be restored is constituted.

The shock absorbing portion 23 allows the inner wall of the sealing groove 22 to penetrate the pin hole 231 so that both sides thereof face each other, and an unevenness is formed on the outer circumferential surface thereof, and the spring is provided with a support 232. 233 is provided between the two sealing grooves 22 so as to match the center of the pin hole 231, and the fixing pin 234 is inserted from one side thereof to sequentially sequential the spring 233 and the supporting member 11. Penetrate through to draw out to the other side. And it is provided with a starch material pin 235 that becomes a liquid when the water is melted into the end of the fixing pin 234 drawn out into the sealing groove 22 on one side through the pin hole 231 as described above.

After the assembly of the buffer part 23 is completed through this process, the sealing material 21 is filled in the sealing groove 22 so as to be flush with the side wall of the body 20 to be waterproofed.

The waterproof portion 30, as shown in Figure 7 by processing a stainless steel plate in a press to bend the front end to a predetermined height toward the bottom and bend inward again, inwardly spaced at regular intervals of the cross-section bent inwardly The top plate 32 which extends the stepped guide 321 in two stages to the position which was made, and the back stage was bent stepwise downward, and extended further back to a predetermined width is comprised. The buffer bar 31 is inserted into the space created by the bending of the tip of the upper plate 32, and is inserted to surround the buffer member 322 on the end side of the guide 321.

In addition, the stainless steel plate is processed by a press to bend the rear end upward to a predetermined height and then bent forward again to the vertical bending surface 331, the buffer member 322 wrapped in the guide 321 of the upper plate 32 The lower plate 33 is formed to pass through the guide hole 332 to be inserted into the front rear slideable. The lower plate 33 is inserted into the guide hole 332 by inserting the guide 321 surrounded by the buffer member 322 in the guide hole 332 to be horizontal to the lower end of the upper plate 32 ( The upper plate 32 and the lower plate 33 are assembled by inserting the fixing pin 324 at the upper end of the 321.

In addition, by using a material having a waterproof function and a buffer function, the bottom surface of the upper plate 32 and the lower plate is in contact with the horizontal and filled in the inner space of the upper plate 32 and the guide 321 slides freely in the horizontal direction. The waterproof member 34 is formed so that the guide groove 341 is formed. The waterproof member 34 inserts the guide 321 into the guide groove 341 and adheres to the bottom of the upper plate 32 and the lower plate 33, and then the rear end of the upper plate 32 and the tip of the lower plate 33. Passing through the anchor bolt 36 to the rear end of the upper plate 32 and the lower end of the lower plate 33 to be matched with the waterproof member 34.

In addition, the elastic groove 351 is formed on the upper and lower surfaces of a rubber plate made of a rectangular parallelepiped corresponding to the space 323 formed at the rear end of the upper plate 32 and the space 333 formed at the tip of the lower plate 33. The cap 35 is configured. The cap 35 is attached to the side surface of the rear end space 323 of the upper plate 32 and the lower plate 33 is inserted into the anchor bolt 36 with an adhesive.

The following describes the construction process of the present invention expansion joints configured as described above.

First, the process of installing the support 10 on the bottom surface on which the expansion joints are constructed, as shown in FIG. 5, arranges the support members 11 on the construction surface in a lattice shape that is shifted from each other. At this time, the installation space 111 provided at a predetermined interval on each support member 11, so that the horizontal direction and the vertical direction is in a straight line.

When the support member 11 is arranged in a lattice shape, the installation member 111 of the support member 11 corresponding to the area in which the expansion joint is installed is determined to determine the installation member 111 in the installation space 111 at the determined position. After each of the parts 12), the receiving member 13 is inserted into the connecting member 12.

When the receiving member 13 is installed in all directions through this process, the lower end of the body 20 is inserted into the receiving member, and the upright member is vertically placed. At this time, the lower portion of the buffer portion 23 of the body 20 may be optionally filled with a fire barrier (not shown).

As such, when the body 20 is installed, the concrete C is poured to the same height as the upper surface of the body 20, and the waterproof portion 30 is seated in a “T” shape at the center of the upper surface of the body 20. Plastering is performed by pouring concrete (C) to the same height as the surface so that the surface of the upper plate 32 of the portion 30 to the outside.

As described above, after performing the plastering work, the upper plate 32 of the waterproof part 30 exposed to the surface of the concrete C in the state where the concrete C is cured has good aesthetics due to the inherent luster of the stainless steel plate. Let's do it.

And when water flows into the surface of the concrete (C) due to rain or water cleaning, the water is first blocked by the cap 35 provided on both sides of the waterproof portion 30, the waterproof member 34 inside Is blocked secondarily. In addition, the water passing through the waterproof member 34 is blocked in the third by the sealing material 21 filled in the upper both sides of the body (20). At this time, the water passing through the sealing material 21 having a third waterproof function is introduced into the pin 235 plugged into the other end of the fixing pin 234, and the water wick pin 235 has a characteristic of a material made of starch. Melt down to release the fixing pin 234. At this time, the forced pressing force applied to the spring 233 is released, so that the elasticity of the spring 233 strongly acts outward.

When the construction of the expansion joint is completed and the spring (233) of the buffer portion 23 is freely placed in the summer temperature rises and the concrete (C) is expanded anchor bolts embedded in the concrete (C) 36 The upper plate 32 and the lower plate 33 integrally formed with the anchor bolt 36 are pushed toward the center of the body 20 by being moved toward the body 20 side with the concrete (C). At this time, the cap 35 provided on the upper plate 32 and the lower plate 33 and the waterproof member 34 interposed between the upper plate 32 and the lower plate 33 are compressed and the upper plate 32 Guide 321 formed at the front end of the slide along the guide grooves 341 of the waterproof member 34, the waterproof portion 30 accommodates the width of the change caused by the expansion of the concrete (C) elastically.

When the expanded concrete C presses the body 20, the springs 233 of the shock absorbing part 23 are compressed, and both partition walls of the body 20 are contracted inward.

Meanwhile, when the expanded concrete C is contracted due to the increase in the atmospheric temperature, the anchor bolt 36 embedded in the concrete C moves to the outside of the body 20 so that the upper plate of the waterproof part 30 is formed. 32) and the bottom plate move in opposite directions along the concrete (C). At this time, the contracted waterproof member 34 is restored and the guide 321 inserted into the guide groove 341 is moved outwardly.

As the concrete C moves outward, the pressing force is released from the partition wall of the body 20, thereby restoring the compressed spring 233 to return both sides of the body 20 to the original state. And it will be in the same state as after the initial construction.

The present invention is to support the body to stand in any position to stand up, and when the concrete is expanded and the body is retracted and elastically restored when the expansion force is released vertically installed on the support, the horizontal state on the top of the body When the concrete is expanded, it contracts when it expands, and when the expansion is released, it is elastically restored, and by installing a waterproof part configured to be waterproof to a predetermined width on both sides spaced from the body, the construction position of the expansion joint is accurately set and the body is firmly supported. When the contraction and expansion of the body can be accommodated to the change smoothly, it is possible to increase the waterproof area and to prevent the escape by increasing the reliability of the waterproof.

Claims (6)

A support part 10 installed in a lattice shape on a construction floor and configured to vertically support a lower part of the body 20; A body 20 configured to be resiliently contracted when the concrete C is expanded and elastically restored when the expanded concrete C is contracted, and installed perpendicular to the support 10; When the concrete (C) is expanded in a horizontal state to the upper portion of the body 20 is contracted, and is restored when the expanded concrete (C) is contracted, it is covered in a horizontal state on the upper portion of the body 20 spaced apart from the body Stretch joints for concrete slabs, characterized in that consisting of a waterproof portion 30 to waterproof up to a predetermined width of both sides. The support part 10 of claim 1, It is provided with a plurality of installation spaces 111 of a predetermined depth and width with the front and rear openings spaced apart at regular intervals, and a plurality of gradient holes 113 are provided in the side walls 112 between the installation spaces 111. The member 11 is configured, and the engaging groove 121 is provided at both sides so as to surround and install both sides of the installation space 111 of the support member 11, and the connecting groove 122 opened in the front and rear at the center thereof. The connecting member 12 is provided, the upper and both sides are opened to accommodate the lower end of the body 20 is inserted into the connecting groove 122 of the connecting member 12, the gradient hole on both side walls 131 Stretch joints for the concrete slab, characterized in that the body receiving member 13 is formed at a predetermined interval (132). The body 20 of claim 1, The upper part is closed and the lower part is opened, and has a width and a predetermined height that can be accommodated in the connection groove 122 of the connection member 12, and inward to fill the sealing material 21 on both side walls of the upper part. A sealing groove 22 recessed in a predetermined depth is provided, and a shock absorbing portion 23 which is contracted when the concrete expands at a proper position in the inner center of the sealing groove 22 and is restored when the expansion force is released is constituted. 22) expansion joint for the concrete slab, characterized in that the sealing material 21 is filled. The buffer unit 23 of claim 3, Both sides of the sealing groove 22 penetrate the inner side of the pin hole 231, the outer peripheral surface is formed with an uneven (凹凸) and the center through the support hole 232 and the spring provided with a pin 233 ( Interposed between the two sealing grooves 22 so as to coincide with the center of the 231 and inserting the fixing pin 234 on one side thereof, the spring 233 and the support member 11 are sequentially passed through and drawn out to the other side. An extension joint for the concrete slab, characterized in that the pin 234 is fixed by inserting the starch pin 235, which becomes a liquid to melt when water is introduced into the end of the pin 234. The method of claim 3, wherein Expansion joints for concrete slabs, characterized in that the fire protection rock (not shown) is filled in the lower space of the buffer unit 23 of the body 20. The waterproof portion 30 of claim 1, The tip is bent downward and bent inward again to insert the shock absorbing bar 31, and the guide 321 is extended to be spaced at a predetermined interval of the cross section bent inward to surround the shock absorbing member 322. An upper plate 32 having a rear end stepped downward to extend a predetermined width in the rearward direction; The rear end is bent upward to a predetermined height and then bent forward again so that the buffer member 322 wrapped in the guide 321 of the upper plate 32 is inserted in the vertical bending surface 331 so as to be slidable backwards and forwards. A lower plate 33 through which the guide hole 332 is through; Guide grooves 341 are formed to be in contact with the bottom surface of the upper plate 32 and the lower plate 33 and to fill the inner space of the upper plate 32 and the guide 321 to slide freely in the horizontal direction. A waterproof member 34 in close contact with the bottom surfaces of the upper plate 32 and the lower plate 33 and having the anchor bolt 36 passed through the rear end of the upper plate 32 and the tip of the lower plate 33; It is provided with a cap 35 formed with an elastic groove 351 on the upper surface and the lower surface and attached to the side of the rear end space 323 of the upper plate 32 and the side of the front end space 333 of the lower plate 33. Expansion joints for concrete slabs