KR20180017726A - A apparatus for concreate structure of expansion Joint and construction method - Google Patents

Abstract

The present invention relates to an expansion joint device installed in a connection unit of a concrete unit structure and, specifically, to an expansion joint device for a structure, capable of having improved sealing performance and a strong expansion joint unit of a unit structure and preventing damage to main composition forming the expansion joint device by an external damage factor, and a construction method for an expansion joint unit. To achieve the purpose of the present invention, the expansion joint device for a structure comprises: an elastic member (200); an expansion member (300) having an expansion unit (310) and having left and right fixing plates (320, 330) at both ends of the expansion unit; a plate unit (400) comprising a first cover plate (410) having multiple sliding holes (411) in an extension unit (410a) covering the expansion unit (310), an overlapping unit (420a) overlapped with the extension unit, and a second cover plate (420) having multiple plate connection holes (421) in the overlapping unit; and a fixing pin (430) fixed by passing through the plate connection hole (421) and the sliding hole (411).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of constructing an expansion joint,

The present invention relates to a telescopic joint device installed at a connection portion of a concrete unit structure. More particularly, the present invention relates to a telescopic joint device for a telescopic joint device, And to a method of constructing the expansion joint of the structure.

In general, structures are characterized by the subsidence or creep of the ground (a phenomenon in which an object undergoes a slow deformation under a constant deformation), seasonal temperature changes, ie, when the temperature is high, such as during the summer, And when the temperature is low as in winter, the structure is shrunk and the spacing of the connection portion is widened. As a result, cracks are generated in the structure and the structural stability is lowered.

Therefore, in order to cope with deformation and expansion and contraction of the structure, a stretch joint device was installed between the unit structures in the construction process.

The apparatus for constructing the above-mentioned expansion joint should be constructed in consideration of workability, durability, waterproofing, ease of maintenance and the like in the expansion joint. Such a joint and expansion joint is formed by filling a single material such as a urethane sealant Or a stainless steel plate on the upper part of the joint so that the joint is not visually exposed to the outside It also closed.

However, the method using urethane sealant is a method which is simple in construction and low in construction cost, but weak in temperature and heat, and accordingly, changes and cracks are generated and cyclic repair is required. The method using stainless steel plate is a function to prevent visual exposure The function of other expansion joints could not be expected.

Therefore, as a conventional technique for solving the above-mentioned problems, Korean Patent Registration No. 0519931 (Sep. 30, 2005, Hybrid Expansion Joint Structure) is disclosed.

The present invention relates to a joint portion of a concrete structure having a ground surface finishing after finishing or grinding with a cross-sectional restoration material after chipping, comprising: a first expansion joint formed between spaced joint portions; And a second expansion joint material formed on the base surface so as to cover the joint portion, wherein the first expansion joint material of the joint portion having the ground surface finishing with the post-chipping section restoration material has a preformed backup Water expansion index material on ash; And a joint filler formed on the water expansion index restricting member, the second expansion joint material being formed on the base surface so as to cover the joint filler.

The hybrid expansion joint structure is designed to prevent defects caused by expansion and contraction of a structure by filling a sealant and a filler in advance in an expansion joint structure that has been shaped into a specific shape. However, it takes a work period due to chipping work, The second expansion joint is exposed to the outside and is damaged due to an external damage factor.

Patent Registration No. 0519931 (Sep. 30, 2005, Hybrid expansion joint structure)

An object of the present invention is to provide an expansion joint device which is installed in a connection portion of a unit structure so as to improve the hermeticity and prevent the main constituent of the expansion joint device from being exposed to the outside, And to provide a method of constructing the expansion joint and the expansion joint.

In order to accomplish the above object, according to the present invention, there is provided an expansion joint device of a structure, wherein a unit structure (100) is tightly fitted to a joint part (110) of a space between a unit structure and a unit structure to continuously shrink and expand (200); A stretchable and contractible portion 310 which is tightly fitted to one end of the joint portion 110 and has an opening for opening and contracting and expanding action is formed and both side ends of the stretchable and contractible portion are installed to overlap with a part of the surface of the adjacent two unit structures A stretching member 300 formed with left and right fixing plates 320 and 330; The extension portions 410a covering the expansion and contraction portions 310 are formed on the left and right fixing plates 320 and 330 and the sliding portions 411 are formed on the extension portions 410a, A plate portion 400 comprising a cover plate 410 and a second cover plate 420 having a superposition portion 420a overlapping the extension portion and having a plurality of plate coupling holes 421 formed in the superposition portion thereof; And a fixing pin 430 fixedly installed to penetrate the plate coupling hole 421 and the sliding hole 411.

In order to accomplish the above object, a method of constructing a flexible joint according to the present invention is a method of connecting a joining part 110, which is an interspace between unit structures 100,

Cleaning the outer surface of the unit structure 100 (S1);

(S2) tightly fitting the elastic member (200) to the joint portion (110) along the longitudinal direction of the joint portion;

The left and right fixing plates 320 and 330 formed on both side ends of the stretchable and contractible portion 310 in a state where the stretchable and contractible portion 310 is positioned on the inlet side of the joint portion 110 facing the elastic member 200, (S3) on the outer surface of the base plate 100, respectively;

A first cover plate 410 having an extended portion 410a having a sliding hole 411 formed on the outer surface of the left fixing plate 320 is fixed to the outer surface of the right fixing plate 330 and a plate coupling hole 421 (S4) fixing the second cover plate 420 having the overlapped portion 420a formed thereon with the overlap portion 420a overlapping the extended portion 410a;

And a step S5 of inserting the fixing pin 430 through the sliding hole 411 by being inserted into the plate engaging hole 421 from the outside of the overlapping portion 420a.

According to the expansion joint device and the construction method of the expansion joint of the structure having the above-described structure, since the plate portion is formed so that the elastic member and the elastic member are not exposed to the outside, and the main structure is not exposed to the outside, As the sliding holes are formed in the plate portion, the sliding movement of the sliding portion can be performed at regular intervals, thereby preventing the structure from being damaged by the expansion and contraction of the structure.

1 is a perspective view showing a state in which the expansion joint repairing apparatus of the present invention is installed,
2 is a state in which the expansion joint repairing apparatus of the present invention is separated,
3 is a perspective view illustrating a plate portion of the present invention,
4 is a schematic cross-sectional view showing the elongated state of the unit structure,
5 is a schematic cross-sectional view showing the shrunk state of the unit structure,
6 is a schematic cross-sectional view showing another embodiment of the elastic member.

Generally, the concrete structure is applied to the installation of a retaining wall or underground material installed for the construction of a road or a bridge, or to prevent soil from slope and slope, and the concrete structure is subjected to a change in temperature and external environment, .

The concrete structure is damaged by the above-mentioned expansion and contraction, and in order to prevent such problems or to repair defects occurring, the concrete joint structure of the present invention is applied to the unit structures of the concrete structure.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an expansion joint of a structure according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The expansion joint device of the structure of the present invention is formed by including an elastic member 200, a stretching member 300, and a plate portion 400 that are inserted into the joint portion 110 of the unit structure 100.

The elastic member 200 is tightly fitted in the longitudinal direction of the surface of the unit structure 100 facing the joint 110 of the space between the unit structures 100 installed in succession by pouring concrete, And is made of a material having elasticity so that the shape of the unit structures 100 can be compressed or restored as the gap between the unit structures 100 becomes narrower or wider due to the temperature change and the external environment.

The elastic member 200 may have a columnar shape fitted into the joint portion 110 and may have a hollow shape or a cylindrical shape, an elliptical shape, or a square shape with four or more angles.

At this time, any material having an elasticity and a restoring force may be used as the material of the elastic member 200, but it is most preferable to use foamed silicone to improve the restoring force and the elastic force.

The reason why the elastic member 200 is formed of the foamed silicone material as described above is that it is a material having excellent heat resistance, easy weight, light weight, flexible construction, excellent restoring force and low compressibility.

The elastic member 300 is inserted into the joint part 110 and tightly fitted to one end of the unit structure 100 in the outward direction than the elastic member 200 inserted in the joint part 110, A left and right fixing plates 320 and 330 provided so as to overlap with the surface portions of the unit structures 100 on both sides adjacent to both ends of the expansion and contraction unit 310, .

The left and right fixing plates 320 and 330 may be deformed by thermal deformation and external light so as to prevent moisture from penetrating the surface of the unit structure 100 overlapping the joint 110 and the left and right fixing plates 320 and 330. [ It is also possible to fix the sealant adhesive 340 on the surface of the unit structure 100 by using a sealant adhesive 340 having excellent watertightness.

The shape of the stretchable and contractible portion 310 is limited to a shape that is inserted into the joint portion 110 and is not damaged when the structure is stretched or shrunk. The shape of the stretchable portion 310 may be a U- Although not shown in the figure, it may be formed in a V-shape or a W-shape.

In addition, the elastic member 300 installed in the above-described manner also serves as an auxiliary plate for blocking the inflow of rainwater or moisture into the joint portion 110 in addition to the contraction and expansion action.

The stretchable member 300 constructed as described above may be formed of a flat elastic rubber plate and may be inserted into the stretchable and contractible portion 310 by bending or bending it during construction or may be a finished product molded into a desired shape using a mold, The material may be rubber material generally used in construction or civil engineering field, but it is the rubber-like elastic body made by polymerizing them with ethyneene and propylene as main components, and it is best to use ethylene propylene rubber (EPDM) having excellent heat resistance and weatherability desirable.

As described above, the left and right fixing plates 320 and 330 are formed by extending from both left and right ends of the stretchable and contractible portion 310 in the form of a flat plate, so that the stretchable and contractible portion 310 fitted to the joint portion 110 can be stably fixed It plays a role.

The plate portion 400 is fixedly attached to the outer surfaces of the left and right fixing plates 320 and 330 so as to be close to each other and covers the opening portion of the expansion and contraction portion 310, A first cover plate 410 having a plurality of sliding holes 411 spaced apart from each other by a predetermined distance and an overlapping portion 410a overlapping the extending portion 410a, And a second cover plate 420 in which a plurality of plate coupling holes 421 are formed in the superposed portion 420a.

At this time, the shape of the sliding hole 411 is formed to be rectangular or elliptical in the elongating and contracting direction between the unit structures 100 so that the extended portion 410a and the overlapping portion 420a are slidable in correspondence with the elongation and contraction of the unit structure 100 .

The starting portion of the overlapping portion 420a is bent by the thickness of the extending portion 410a such that the extending portion 410a and the overlapping portion 420a which are slidingly overlapped with each other are closely positioned without mutual exfoliation .

It is preferable that the elastic members 300 and the plate portion 400 are fixed by using the coupling means B so as to be more rigidly installed with respect to the unit structure 100 and the fixing method thereof is as follows.

The coupling means B includes an anchor bolt fixed to the unit structure 100 and a nut fastened to the anchor bolt. The anchor bolt mainly uses a set anchor or a stud anchor.

The first and second cover plates 410 and 420 are also installed through the anchor bolts, and the anchor bolts 320 and 330 are installed through the left and right fixing plates 320 and 330, respectively, As shown in FIG.

The first cover plate 410, the second cover plate 420, and the left and right fixing plates 320 and 330 may be provided with a coupling hole (not shown) at a position corresponding to the anchor bolt for shortening the construction time and facilitating the operation, 321, 331, 412, 422 may be formed.

When the unit structure is elongated or contracted due to a temperature change and a change in the external environment, the expansion joint repairing apparatus configured as described above may be constructed such that the first cover plate 410 and the second cover plate 410, The extended portion 410a of the fixing hole 420 and the overlapping portion 420a are reciprocally slidable and when the spacing exceeds the length of the sliding hole 411, 411 so as to restrain further sliding movement.

A void of the joint part 110 formed in the space between the elastic member 200 and the elastic member central part 310 assists in the expansion and contraction of the elastic member 200 and prevents the moisture passing through the elastic member 300 from further penetrating. (500).

The method of filling the urethane sealant 500 is most easily performed in the intermediate step of installing the elastic member 200 and the elastic member 300. That is, The elastic member 300 may be provided after the member 200 is fitted and the urethane sealant 500 is filled in a certain amount.

According to the present invention configured as above, a plate portion composed of the first cover plate and the second cover plate is formed so that the elastic member and the elastic member are not exposed to the outside, so that the elastic member and the elastic member are damaged As the sliding holes are formed in the first cover plate, it is possible to reciprocate the sliding movement at a predetermined interval, thereby preventing damage to the device due to the expansion and contraction of the structure.

Hereinafter, a method of constructing a telescopic joint according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The method of constructing the joint part of the structure according to the present invention is a method of connecting the joint part 100 by a stretching action generated in a joint part 110 which is an interspace between the unit structures 100,

Cleaning the outer surface of the unit structure 100 (S1);

(S2) tightly fitting the elastic member (200) to the joint part (110);

The stretchable and contractible portion 310 is tightly fitted to the joint portion 110 to the outside of the unit structure 100 more than the elastic member 200 and the left and right fixed plates 320, and 330, respectively, on the outer surface of the unit structure 100;

A first cover plate 410 having an extension 410a covering the stretchable and contractible portion 310 and a plurality of sliding holes 411 formed in the extension 410a thereof and a cover plate 410 overlapping the extension 410a, (S4) attaching and fixing a second cover plate having a plurality of plate coupling holes (421) on the left and right fixing plates (320, 330) and the overlapping portion (420a) thereof, respectively;

(S5) of installing a fixing pin 430 so as to pass through the plate-engaging hole 421 and the sliding hole 411.

In step S1, the outer surface of the unit structure 100 is cleaned so that the respective components installed in the unit structure 100 can be installed neatly on the surface from which the foreign substances have been removed. In order to install the conventional expansion joint, Which is different from the chipping operation performed on the surface of the wafer.

The elastic member 200 inserted into the joint part 110 in step S2 is formed by joining the joint part 110 of the space between the unit structures 100 in which the unit structure 100 is installed, Tightly fit in the longitudinal direction to perform shrinkage and expansion, and is made of a material having elasticity so that the shape of the unit structures 100 can be compressed or restored as the distance between the unit structures 100 becomes narrower or wider due to the temperature change and the external environment May be used.

The stretchable and contractible portion 310 is inserted into one end portion of the unit structure 100 in the outward direction than the elastic member 200 inserted in the joint portion 110 in the step S2 to contract and expand.

It is preferable that the left and right fixing plates 320 and 330 are extended from both left and right ends of the elastic part 310 in a flat plate shape and the elastic part 310 fitted to the joint part 110 is stably fixed To be able to do so.

The sliding hole 411 is formed in a shape of a rectangle or an oval in the direction of expansion and contraction between the unit structures 100 so that the extension portion 410a and the overlapping portion 420a are slid in accordance with the expansion and contraction of the unit structure 100 .

The start portion of the overlapping portion 420a is bent by the thickness of the extending portion 410a so that the extended portion 410a and the overlapping portion 420a that are overlapped and slid as described above are closely positioned without mutual exertion, .

When the unit structure is elongated or contracted due to a change in temperature and an external environment by providing the fixing pin 430 so as to pass through the plate coupling hole 421 and the sliding hole 411 in the step S5, The extended portion 410a of the first cover plate 410 and the overlapping portion 420a of the second cover plate 420 are reciprocally slidable by a length corresponding to the length of the sliding hole 411, The fixing pin 430 is supported at the end of the sliding hole 411 to prevent further sliding movement.

The first cover plate 410 and the second cover plate prevent the elastic member 200 and the stretchable and contractible portion 310 from being exposed to the outside and being damaged.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that the invention may be practiced.

In addition, although the length of the structure of the present invention shown in the drawings is limited for ease of illustration, it can be manufactured and constructed according to the structure in actual use.

Similarly, although the left and right fixing plates and the first cover plate and the second cover plate are limited to the left or right for the sake of easy description, the left and right configurations may be symmetrically formed It is free.

It is therefore to be understood that one embodiment described above is illustrative in all aspects and not restrictive.

100: unit structure 110: joint part
200: elastic member 300: elastic member
310: extensible portion 320,330: left and right fixing plate
400: plate portion 410: first cover plate
420: second cover plate 430: fixing pin
500: urethane sealant

Claims (8)

An elastic member (200) tightly fitted to the joint part (110) of the space between the unit structure and the unit structure to be connected to the unit structure (100) so as to shrink and expand;
A stretchable and contractible portion 310 which is tightly fitted to one end of the joint portion 110 and has an opening for opening and contracting and expanding action is formed and both side ends of the stretchable and contractible portion are installed to overlap with a part of the surface of the adjacent two unit structures A stretching member 300 formed with left and right fixing plates 320 and 330;
The extension portions 410a covering the expansion and contraction portions 310 are formed on the left and right fixing plates 320 and 330 and the sliding portions 411 are formed on the extension portions 410a, A plate portion 400 comprising a cover plate 410 and a second cover plate 420 having a superposition portion 420a overlapping the extension portion and having a plurality of plate coupling holes 421 formed in the superposition portion thereof;
And a fixing pin (430) fixedly installed through the plate coupling hole (421) and the sliding hole (411).
The method according to claim 1,
Characterized in that the elastic member (200) is a foamed silicone hose (210) having a shape of a cylinder, an ellipse, Joints.
The method according to claim 1,
Wherein the contraction portion (310) has a cross-sectional shape in any one of a U-shape, a V-shape, and a W-shape.
The method according to claim 1,
Wherein the left and right fixing plates (320, 330) are fixed by using an adhesive (340) on the surface of the unit structure (100) to improve watertightness.
The method according to claim 1,
And a urethane sealant (500) is filled in the void space of the joint portion (110) between the elastic member (200) and the contractible portion (310) .
The method according to claim 1,
Wherein the extension part (410a) is bent at the beginning of the overlap part (420a) by the thickness of the extension part (410a).
A method of connecting a joint part (110) which is a space between unit structures (100)
Cleaning the outer surface of the unit structure 100 (S1);
(S2) tightly fitting the elastic member (200) to the joint portion (110) along the longitudinal direction of the joint portion;
The left and right fixing plates 320 and 330 formed on both side ends of the stretchable and contractible portion 310 in a state where the stretchable and contractible portion 310 is positioned on the inlet side of the joint portion 110 facing the elastic member 200, (S3) on the outer surface of the base plate 100, respectively;
A first cover plate 410 having an extended portion 410a having a sliding hole 411 formed on the outer surface of the left fixing plate 320 is fixed to the outer surface of the right fixing plate 330 and a plate coupling hole 421 (S4) fixing the second cover plate 420 having the overlapped portion 420a formed thereon with the overlap portion 420a overlapping the extended portion 410a;
And a step S5 of inserting the fixing pin 430 through the sliding hole 411 by being inserted into the plate engaging hole 421 from the outside of the overlapping portion 420a. .
8. The method of claim 7,
After the step (S2), the method further comprises a step (S6) of filling the empty space of the joint provided outside the elastic member (200) with the urea sealant (500) before the step (S3) The method comprising the steps of:

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