KR101578546B1 - Expansion joint device using fixed type anchors and construction method using the same - Google Patents

Abstract

The present invention relates to an expansion joint device and an expansion joint construction method using the same, and more specifically, to the expansion joint device capable of reducing material separation due to the deformation of an elastic packaging material and capable of improving durability of an expansion joint material by inhibiting the deformation of the elastic packaging material caused by the tension and compression due to the external temperature variation using a fixing anchor, and the expansion joint construction method using the same.

Description

[0001] The present invention relates to an expansion joint device and an expansion joint device using the same,

The present invention relates to an expansion joint device and a method for expanding and contracting a joint using the same, and more particularly, to a flexible joint device using a fixed anchor for restraining a flow of an elastic packaging material generated by tension and compression due to an external temperature change, And to improve the durability of the expansion joint material. The present invention also relates to an expansion joint construction method using the same.

Road constructions such as roads, underground roads, bridge roofs, river bridge structures, and parking lot floors are subject to variations due to expansion or contraction due to changes in temperature or passage of vehicles.

In order to prevent the road structure from being destroyed when such a variation is neglected, sufficient spacing is provided between the two top plates in consideration of expansion and contraction between the road structures. If such a separation between the two road structures is left unchanged, The water rises to the damaged and damaged part, and the water phenomenon becomes big in summer, and in the winter it becomes freezing, and the car accident happens.

In order to solve such a problem, generally, the separating part is provided with an expansion joint device for interconnecting the two upper plates and for expanding and contracting the upper plate.

The existing installation method of expansion joint is as follows.

First, a bundle pipe (a pipe) is installed to prevent groundwater backflow in a separation part, that is, a joint part of a concrete structure where the ascon installed in a joint section is removed, and a backup agent is installed thereon.

Thereafter, a primer is applied to an upper part of the concrete structure, a waterproof plate is installed and fixed with a sliding agent, and a bundle tube is installed at an upper corner part to exclude stormwater infiltrated from the ascon packed part.

After the above process, an elastic packaging material (sealant) is laid, and a non-slip material is applied to the top of the elastic packaging material to complete the installation of the expansion joint.

The expansion joint device installed by this process has a problem that the elastic packaging material is repeatedly stretched and compressed by the elongation and compression of the concrete structure occurring in summer and winter so that there is a great fear of breakage and the durability is low.

More specifically, in summer, the concrete structure is elongated due to the high temperature, so that the compressive force is generated due to the narrowed portion of the expansion and contraction, and the elastic packaging material laid on the upper portion thereof is pushed up by the compressive force, There is a possibility that damage may be caused by the vehicle passing through the vehicle.

Also, in winter, the concrete structure is compressed by the low temperature, so that the interval between the expansion joints is widened. As a result, a tensile force is generated in the elastic packaging material laid on the upper part, There is a possibility that the elastic packaging material may be damaged.

In addition, if the elastic packaging material is repeatedly stretched or compressed as described above, the elongation of the elastic packaging material may be reduced, which may result in failure in response to changes in the external temperature, resulting in breakage and inferior durability.

1. Korean Patent Registration No. 10-1476245 (issued on December 24, 2014) 2. Korean Patent Registration No. 10-1142195 (2012. 05. 07. Announcement)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to reduce the material separation phenomenon due to the flow of the elastic packaging material by restricting the flow of the elastic packaging material with a simple structure Thereby improving the durability of the expansion joint, and a method of expanding and contracting using the same.

According to an aspect of the present invention,

A method of constructing a telescopic joint device for telescopically connecting a space portion formed between two concrete structures installed so as to be spaced apart from each other by a predetermined distance, the telescopic joint device comprising: a backup material inserted in the space portion; And an elastic packaging material disposed on the upper portion of each of the concrete structures for restraining expansion and contraction of the elastic packaging material and filled in the upper end of the concrete structure.

In this case, the restraining means includes a plurality of fixed anchors installed vertically on the upper end of the concrete structure, and a connecting member connected between the fixed anchors.

The fixed anchors are spaced apart from each other by a predetermined distance, and the connecting members are connecting lines connecting and fixing the anchoring anchors installed in the respective columns.

Further, a supporting member is integrally formed on the upper end of the fixed anchor.

In addition, a second bundle tube fixed to the upper end edge of the concrete structure by a fixing tape is installed.

Meanwhile, according to the present invention,

A method of constructing and expanding joints using an expansion joint, comprising the steps of: cutting and crushing an ascon layer formed on an upper portion of two concrete structures installed to be spaced apart from each other by a predetermined distance, thereby forming a space for installing the expansion joint; A restricting means for restricting elongation and contraction of the elastic packaging material on the upper portions of the respective concrete structures; Installing a first bundle tube and a backup material in a space formed between the two concrete structures; A primer applying step of applying a primer to the upper surface of the concrete structure and a cut surface of the ascon layer, and an elastic packaging material placing step of installing an elastic packing material on the upper part of the concrete structure coated with the primer.

At this time, in the step of installing the restraining means, a fixing anchor installation step of installing a plurality of fixing anchors at predetermined intervals on each of the concrete structures and a fixing anchor connection step of fixing the fixing anchors to each other using a connection member .

And a second bundle tube installation step of installing a second bundle tube on one end side of an upper portion of the concrete structure abutting the cut surface of the ascon layer after the primer application step.

The method may further include a surface treatment step of forming an anti-slip layer on the elastic packaging material and the adjacent ascon layer after the step of installing the elastic packaging material.

According to the present invention, it is possible to reduce the material separation phenomenon due to the flow of the elastic packaging material by restricting the flow of the elastic packaging material by a simple constitution using the fixing anchor and the connecting member installed on the upper part of the concrete structure, So that the durability of the expansion joint can be improved.

1 is a perspective view showing a road structure provided with an expansion joint according to the present invention;
2 is a front sectional view showing a road structure equipped with the expansion joint device according to the present invention.
3 (a) to 3 (e) are views schematically showing a construction process of the expansion joint device by the expansion joint construction method according to the present invention.
4 is a flowchart sequentially illustrating a method of constructing and expanding a joint according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the expansion joint apparatus and the expansion joint construction method using the same according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a road structure provided with the expansion joint apparatus according to the present invention, FIG. 2 is a front sectional view showing a road structure equipped with the expansion joint apparatus according to the present invention, FIGS. 3 (a) FIG. 4 is a flowchart illustrating a method of constructing an expansion joint according to an embodiment of the present invention. Referring to FIG.

The present invention relates to a method and apparatus for restraining the flow of an elastic packaging material caused by tension and compression due to external temperature changes using a fixed anchor, thereby reducing material separation due to the flow of the elastic packaging material, The present invention relates to a stretch joint device and a stretch joint device using the stretch joint device. The stretch joint device 100 according to the present invention comprises a backup material 110, (120), restricting means (130), and elastic packaging material (140).

More specifically, the backup material 110 is inserted into a space formed between the two base concrete structures 10, which are installed so that the expansion and contraction of the road structure is spaced apart from each other by a predetermined distance, And prevents foreign matter and water from being introduced into the structure 10 and supports the expansion and contraction of the foundation concrete structure 10 to some extent according to changes in the external temperature.

As the backup material 110, a material such as a crosslinked foam having elasticity and excellent heat resistance is used. The backing material 110 is formed to have a width larger than the width of the space portion formed between the two base concrete structures 10, It is preferable to support the elasticity of the two base concrete structures 10 to some extent and to prevent foreign matter, water, and the like from being introduced into the inside of the space portion.

Next, the first bundle pipe 120 is inserted into the space portion formed between the two base concrete structures 10 under the backup material 110 to prevent the groundwater from flowing into the space portion. And at the same time discharging the infiltrated water to the inside of the space, it is possible to use an S-type multi-tube or a plate-type multi-tube which is superior in drainage performance as compared with a general type.

The restraining means 130 restrains the expansion and contraction of the elastic packing material 140 installed on the concrete structure 10 and is disposed on each of the concrete structures 10, It is possible to prevent the occurrence of accidents or breakage of the elastic packaging material 140 by preventing the elastic packaging material 140 from being pushed up or down by the external temperature change, And the durability of the elastic wrapping material 140 can be improved by minimizing the deterioration of the elongation due to aging.

1 and 2, the restraining unit 130 includes a fixed anchor 132 and a connecting member 134. The fixed anchor 132 is disposed on each of the concrete structures 10 And are arranged in a vertical direction.

The connection member 134 connects the plurality of fixed anchors 132 installed on the upper portion of the concrete structure 10 to each other to fix the interval between the fixed anchors 132 so as not to be widened or reduced.

That is, after a plurality of fixed anchors 132 are installed on each of the concrete structures 10, the fixed anchors 132 are connected to each other by using the connecting member 134, So that it is possible to restrict the expansion and contraction of the concrete structure 10 in which the fixed anchor 132 is installed and the elastic packing material 140 to be installed in the upper portion of the concrete structure 10.

At this time, the fixed anchor 132 is installed in a direction parallel to the space portion along the longitudinal direction of the space portion formed between the two concrete structures 10, The fixed anchors 132 provided in the same column are connected to each other by using the connecting lines 134 having no elasticity or elasticity so that the distance between the fixed anchors 132 is not changed.

It is also possible to improve the effect of restricting expansion and contraction of the concrete structure 10 and the elastic wrapping material 140 by using the fixed anchors 132 by using a plurality of connection lines 134 connecting the fixed anchors 132 to be.

According to another embodiment of the expansion joint 100 according to the present invention, the fixed anchor 132 may further include a support member 136 integrally formed at the upper end thereof, 136 are intended to improve the effect of restricting the elasticity of the elastic wrapping material 140.

2, by extending the support member 136 in the vertical direction on the upper end of the fixed anchor 132, the cross-sectional area of the fixed anchor 132 contacting the elastic wrapper 140 is widened, So that the expansion and contraction of the packaging material 140 can be more effectively restricted.

In this case, the support member 136 may be formed in various shapes such as a straight shape, a cross shape, a plate shape, a sphere shape, and the like.

A connecting member 134 for connecting the fixed anchor 132 or the supporting member 136 provided in the neighboring concrete structures 10 to each other may be additionally provided so that the elastic packaging material 140 may be stretched longitudinally In addition, it is also possible to constitute it so as to restrict the expansion and contraction in the transverse direction.

Next, the elastic packing material 140 is installed on the upper end of the concrete structure 10, and a normal sealant having elasticity and excellent water tightness may be used.

Before the elastic packing material 140 is installed on the upper end of the concrete structure 10, the upper surface of the concrete structure 10 and the cut surface of the asconc layer 20 cut for installation of the expansion joint 100 are coated with primer It is preferable to form the primer layer 160 so that the elastic packing material 140 can be well bonded to the upper portion of the concrete structure 10.

2, the second joint pipe 150 may include a concrete structure 10, a second joint pipe 150, a second joint pipe 150, Which is provided at one edge of the upper surface of the ascon layer 20, that is, at the corner portion where the concrete structure 10 and the ascon layer 20 are in contact with each other to discharge infiltration water penetrating between the elastic casing 140 and the ascon layer 20, As with the first bundle 120, an S-type bundle or a plate bundle can be used.

At this time, the second bundle pipe 150 is fixedly installed with a fixing tape having a waterproof performance such as a butyl tape, and the fixing tape is provided with a plurality of through holes (not shown) .

Also, it is needless to say that the second bundle pipe 150 may be installed on both upper and lower edges of the concrete structure 10, though not shown.

The upper portion of the elastic wrapping material 140 prevents water from penetrating through the space between the elastic wrapping material 140 and the ascon layer 20 and prevents slipping of the vehicle passing through the upper portion. The anti-slip layer 170 may be formed of a conventional anti-slip material.

As shown in FIG. 4, the method for constructing and expanding joint using the expansion joint 100 according to the present invention includes a cutting and crushing step S10, a constraining means installing step S20, a backup reinstalling step S30, , A primer application step (S40), and an elastic packaging material installation step (S60).

More specifically, the cutting and crushing step S10 cuts and / or breaks the ascon layer 20 formed on the upper portions of the two concrete structures 10, The two lines spaced apart from each other at regular intervals around the space between the concrete structures 10 are cut using a cutting machine or the like, and then the cut lines are cut using equipment such as a breaker, The ascon layer 20 is crushed and removed to form a space in which the expansion joint device 100 is installed.

At this time, after the asbestos layer 20 is crushed and removed as described above, the asbestos fragments remaining on the upper portion of the concrete structure 10 are removed.

Next, in the step S20 of installing the restraining means, the concrete structure 10 and the restraining means 130 for restraining the expansion and contraction of the elastic packaging material 140 are formed on the upper portions of the two concrete structures 10 from which the asconion layer 20 is removed. And includes a fixed anchor installation step (S22) and a fixed anchor connection step (S24).

More specifically, the fixed anchor installation step S22 is a step of installing a plurality of fixed anchors 132 at predetermined intervals on each of the concrete structures 10, and the fixed anchors 132 are installed on the concrete structures 10 so as to be installed in at least one row so as to be parallel to each other in the longitudinal direction of the space portion formed between the concrete structures 10.

Next, the fixed anchor connection step S24 relates to a step of connecting the fixed anchors 132 to each other using the connecting member 134, and one or more connecting lines 134 having no elasticity as described above are used It is possible to restrict the distance between the fixed anchors 132 from being changed by connecting the fixed anchors 132 installed in the same column so that the concrete structure 10 and the elastic packaging material 140 are elastically stretched Can be minimized.

Next, the backup re-installation step S30 is a step of sequentially installing the first bundle pipe 120 and the backup material 110 in the space formed between the two concrete structures 10, A first bundle tube 120 is installed to prevent the groundwater from flowing into the space and to discharge the infiltrated water to the inside of the space. Then, the first bundle tube 120 having elasticity and excellent heat resistance The ash 110 is installed to block the introduction of foreign matter and water into the space portion.

At this time, the backup material 110 is formed to have a width larger than the width of the space portion, and the space portion can be completely closed after the insertion material is installed. The upper surface of the backup material 110 is aligned with the upper surface of the concrete structure 10 do.

Next, in the primer application step S40, a primer layer 160 is formed on the upper surface of the two concrete structures 10 and the side surface of the ascon layer 20 by applying a primer to a portion where the elastic packaging material 140 is installed The step of installing the elastic packaging material S60 is a step of increasing the adhesion of the elastic packaging material 140 to the upper surface of the concrete structure 10 in which the primer layer 160 is formed, And fills the space formed in the cutting and crushing step S10.

The surface treatment step S70 may further include a surface treatment step S70 in which the elastic packaging material 140 is planarized so as to have the same height as the ascon layer 20, The anti-slip layer 170 is formed on the upper part of the elastic packaging material 140 and the upper part of the asconic layer 20 in contact with the elastic packaging material 140 by using a slip prevention packing material.

That is, by forming the anti-slip layer 170 on the elastic packaging material 140 and the adjacent ascon layer 20, the slip of the vehicle passing over the anti-slip layer 170 is prevented, and the elastic packaging material 140 and the ascon layer 20, it is possible to prevent the water, that is, the road surface water, from being infiltrated.

The method of constructing a joint according to the present invention may further include a second bundle tube installation step (S50) after the primer application step (S40), wherein the second bundle tube installation step (S50) A fixing tape having a waterproof performance such as a butyl tape is applied to one or both upper edges of the concrete structure 10 in which the concrete structure 10 and the ascon layer 20 are formed, The second bundle pipe 150 discharges infiltration water permeated between the elastic packaging material 140 and the ascon layer 20.

Therefore, according to the expansion joint device 100 and the expansion joint construction method using the same according to the present invention as described above, a simple anchor 132 and a connection member 134, which are installed on the upper portion of the concrete structure 10, It is possible to reduce the material separation phenomenon due to the flow of the elastic packing material 140 by restricting the flow of the elastic packing material 140 by the constitution and to improve the durability of the expansion / .

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will readily appreciate that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of this invention.

The present invention relates to an expansion joint device and a method for expanding and contracting a joint using the same, and more particularly, to a flexible joint device using a fixed anchor for restraining a flow of an elastic packaging material generated by tension and compression due to an external temperature change, And to improve the durability of the expansion joint material. The present invention also relates to an expansion joint construction method using the same.

10: concrete structure 20: ascon layer
100: expansion joint device 110: backup material
120: first bundle tube 130: restraining means
132: fixed anchor 134: connecting member (connecting wire)
140: Elastic packing material 150: Second bundle tube
152: Fixed tape 160: Primer layer
170: non-slip layer S10: cutting and crushing step
S20: Constraining means installing step S22: Fixing anchor installing step
S24: Fixed anchor connection step S30: Backup reinstallation step
S40: Primer application step S50: Second bundle tube installation step
S60: Elastic packaging material installation step S70: Surface treatment step

Claims (9)

A telescopic joint device for telescopically connecting a space formed between two concrete structures installed so as to be spaced apart from each other by a predetermined distance,
A backup material inserted in the space portion,
A first bundle tube installed at a lower portion of the backup material,
Restraining means provided on each of the concrete structures for restraining expansion and contraction of the elastic packaging material,
An elastic packing material filled in an upper end portion of the concrete structure,
And a second bundle tube installed at one upper end edge of the concrete structure and fixed by a fixing tape,
Wherein the restraining means comprises a plurality of rows of fixed anchors spaced apart from each other by a predetermined distance in a vertical direction on the upper end of the concrete structure,
And a connection line which does not have at least one elasticity for restricting the expansion and contraction of the elastic packaging material by connecting the fixed anchors provided in the same column to each other to restrain the distance between the fixed anchors from being changed,
Wherein the support member is integrally formed at the upper end of the fixed anchor and the support members respectively provided at the neighboring concrete structures are connected to each other by a connecting line to restrict the expansion and contraction of the elastic packaging material in the transverse direction.
delete delete delete delete A method of constructing an expansion joint using an expansion joint device,
A cutting and crushing step of cutting and crushing an ascon layer formed on an upper portion of two concrete structures installed so as to be spaced apart from each other by a predetermined distance to form a space for installing the expansion joint device;
A restricting means for restricting elongation and contraction of the elastic packaging material on the upper portions of the respective concrete structures;
Installing a first bundle tube and a backup material in a space formed between the two concrete structures;
A primer applying step of applying a primer to an upper surface of the concrete structure and a cut surface of the ascon layer;
A second bundle tube installation step of installing a second bundle tube on one end surface of an upper part of the concrete structure abutting the cut surface of the ascon layer;
A step of installing an elastic packing material on the top of the concrete structure coated with the primer, and
And a surface treatment step of forming an anti-slip layer on the elastic packaging material and the ascon layer adjacent thereto,
Wherein the step of installing the restraining means includes a step of installing a plurality of fixed anchors, each having a support member integrally formed at an upper end thereof, on a plurality of concrete structures,
And a fixed anchor connection step of connecting the fixed anchor provided in the same column and the supporting member provided respectively in the neighboring concrete structure to each other using a connecting line having no elasticity so that the distance between the fixed anchors is not changed A method of constructing an expansion joint.

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