KR20020089693A - A method of construction mounting an elasticity board using a temperature compensator - Google Patents

Abstract

PURPOSE: An installation method of an elastic support using a temperature compensation rest thereof is provided to restrict various defects of a bridge due to the expansion and constriction of a length depending on the variation of seasons. CONSTITUTION: In an elastic support of a bridge installed between a concrete slab beam and a pier, the elastic support is able to change its installation form according to the operation of a temperature compensation rest. The temperature compensation rest comprises the elastic support(54) installed inside a base(56) and a support body(58), and the support body is installed with a hydraulic jack(60) and a handle(62). The support body is connected to the one side of an adjusting boom(64) and the other side of the boom is coupled to an adjusting frame(66). The hydraulic jack is actuated according to the manipulation of the handle to move the adjusting boom forward or backward at an angle of 15 degree.

Description

A method of construction mounting an elasticity board using a temperature compensator

The present invention relates to an elastic bearing for supporting a slab beam of a bridge, and more particularly, it is possible to suppress the defects of the bridge to the maximum when the length is expanded or contracted according to the seasonal change, and the slab crack and the elastic bearing for a short time. The torsional phenomenon does not occur at all, and thus it is related to the elastic support installation method using the elastic support temperature compensation stage having an enhanced structure in terms of safety and maintenance of the bridge.

In general, the elastic bearing of the bridge constructed of concrete structure performs the function of increasing and narrowing the slab according to the temperature change of the bridge slab and at the same time absorbs the shock caused by the vibration generated during the passage of the car, and takes charge of all the fatigue and activity functions of the bridge. And a major part that plays a safety role.

When the construction of the elastic bearing is wrong, it is necessary to pay attention to the construction because defects are generated up to the bridge beam and the slab beam of the bridge.

FIG. 1 is a view showing a state in which an elastic bearing is installed in a general bridge without considering seasonal and temperature changes, and is placed vertically between the slab beam 22 and the bridge 24 of the bridge 20. The elastic bearing 26 is installed.

The elastic support 26 is formed of a steel plate and rubber so as to properly respond to the temperature change according to the seasonal change during the spring, summer, autumn and winter.

The elastic bearings of the conventional general concrete structures described above are often installed only vertically on the upper part of the bridge without considering the amount of expansion in summer and the amount of shrinkage in winter. As a result, the slab was pushed out, which hindered the bridge's function.In particular, the elastic bearing is installed only in a vertical state without being flowed together according to the change of the bridge. As the slab of the bridge cracked due to temperature change, there were many problems in terms of repair and safety.

The present invention has been made to solve the above problems, the elastic bearing according to the present invention can suppress the failure of the bridge as much as possible and short-term slab cracking and torsion of the elastic bearing does not occur, thereby the bridge The purpose of the present invention is to provide an elastic support installation method using an elastic support temperature compensation stand whose structure is improved to be strengthened in terms of safety and maintenance.

The present invention has been made in order to achieve the above object, the present invention, in the elastic support of the bridge provided between the concrete slab beam and the pier, wherein the elastic support is in a state in which the temperature is corrected according to the season It is installed on the top of the pier 74 and the elastic support can change the installation form according to the operation of the elastic support temperature compensation, while the elastic support temperature compensation stand is formed on the bottom of both sides of the support body and the The support body of the hydraulic jack, the handle and the adjusting boom stage is installed at each of the upper corners, respectively, the support body is spaced apart by the length of the elastic foot is formed an adjustment frame, the support body and the adjustment frame the upper end is adjusted It is connected to the boom and the bottom is connected to the base, and the support, the support body and the adjusting frame is mounted on the inner elastic support, The bearing is equipped with a hydraulic jack actuated by the operation of the handle so that the adjusting boom moves forward or backward at an angle of about 15 ° to install the resilient bearing in an inclined shape, and then install the slab concrete beam. It provides an elastic bearing installation method using the elastic bearing temperature compensation stand.

In addition, the elastic support temperature compensation stand is inserted into the groove of the adjustment frame is inserted into the groove of the adjustment frame and the pedestal coupled to the adjustment frame and the adjustment boom stand to be fixed to the connection ring bearing and the lower bearing, the connection ring bearing and The lower bearing has a circular handle formed at the end thereof, and the elastic support temperature compensation stand is installed in the state where the elastic support is deformed according to the season, while the circular handle formed at one end of the link bearing and the lower bearing. Pulling out, the connecting ring bearing and the lower bearing coupled to the connecting ring of the pedestal and the adjusting boom stand are dismantled from the connecting ring, so that the adjusting frame is disassembled and the elastic support is installed in a seasonal form at the bottom of the slab beam.

1 is a view showing a state in which a resilient bearing is installed in a general bridge without considering seasons and temperature changes.

Figure 2 is a view for explaining the elastic support is installed deformed according to the seasonal change using the elastic support temperature compensation stand of the present invention.

3 is a view showing a state of deforming the shape of the elastic support using the elastic support temperature compensation stand of the present invention.

Figure 4 is a view showing a state in which the temperature correction for the elastic bearing according to the season using the elastic bearing temperature correction stand.

5 is a view for explaining a state in which the elastic support is coupled to the elastic support using the temperature compensation stand of the present invention.

FIG. 6 is an exploded view of part B of FIG. 5;

<Brief description of symbols for the main parts of the drawings>

50: elastic support temperature compensation table 54: elastic support

56: pedestal 58: support body

60: hydraulic jack 62: handle

64: adjusting boom stand 66: adjusting frame

68: lower bearing 70: connecting ring bearing

72: slab concrete beam 74: pier

76: link 78: round handle

80: groove

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the present invention.

Figure 2 is a view for explaining the elastic support is installed in accordance with the change of the season using the elastic support temperature correction stand of the present invention, in the figure on the left in the standard temperature (spring, autumn) elastic support 54 In the figure on the right, the state in which the elastic bearing 54 is installed during the winter and summer is shown.

Reference numeral 72 is a concrete slab beam, and reference number 74 is a pier.

3 is a view showing a state of deforming the shape of the elastic support installed in the summer using the elastic support temperature compensation stand of the present invention, the elastic support temperature compensation stand 50, the base 56 and the support body 58 An elastic support 54 is seated on the inner side of the support body 58, the hydraulic jack 60 and the handle 62 is installed, the support body 58, one side of the adjusting boom 64 is The adjusting boom stand 64 is coupled to the other side of the adjusting frame 66.

In other words, the hydraulic jack 60, the handle 62 and the adjusting boom 64 is formed on both sides of the support body 58 by one set to operate simultaneously.

The elastic support temperature compensation table 50 has a structure in which the hydraulic jack 60 is operated in accordance with the operation of the handle 62 so that the adjusting boom stand 64 moves forward or backward at an approximately 15 ° angle.

4 is a view showing a state in which the temperature correction for the elastic support according to the season using the elastic support temperature correction stand, the elastic support 54 installed in the spring and autumn, the temperature correction + 0 ~ 20 It is installed in the vertical state by applying the ℃ limit, the elastic support 54 to be installed in the summer, the upper part of the elastic support is inclined to the outside by applying a temperature correction + 30 ℃ limit, the elastic support to be installed in the winter (54) is installed so that the upper portion of the elastic support is inclined inward by applying the temperature correction -20 ℃ limit.

This is for the elastic base 54 is installed in a state of correcting the type installed according to the expansion and contraction of the slab beam.

5 is a view for explaining a state in which the elastic support is coupled using the elastic support temperature compensation stand of the present invention, Figure 6 is an exploded view of the portion B of FIG.

As can be seen in Figure 5, the elastic support temperature compensation table 50 is largely the elastic support 54, the base 56, the support body 58, the hydraulic jack 60, the handle 62, adjustment It consists of the boom stand 64 and the adjustment frame 66.

The elastic support temperature compensation table 50 forms a support body 58 on one side on which the pedestal 56 is installed, and the support body 58 has a handle 62 and a hydraulic jack 60 on both sides thereof. ), The hydraulic jack 60 is coupled to the adjusting boom stand 64, respectively, so that the adjusting boom stand 64 is operated at the same time when the hydraulic jack 60 is operated.

As can be seen from the enlarged detail of part A of FIG. 5 and FIG. 6, the pedestal 56 and the adjustment boom stage 64 coupled to the adjustment frame 66 are disposed at their ends coupled to the adjustment frame 66. The link ring 76 is formed, respectively, the link ring bearing 70 is coupled to the upper portion of the pedestal 56 and the link ring 76 of the adjustment boom stand 64, and the lower bearing 68 is attached to the lower portion, respectively. Combined, the connecting ring bearing 70 and the lower bearing 68 is formed at each end of the circular handle 78 is formed.

In the adjusting frame 66, grooves 80 are formed at portions where the pedestal 56 and the adjusting boom stand 64 are coupled to the side thereof.

The adjusting frame 66 is a structure in which the connecting ring bearing 70 and the lower bearing 68 are respectively disassembled and dismantled. The connecting ring bearing 70 and the lower bearing 68 Pulling the circular handle 78 formed at one end portion, the connecting ring bearing 70 and the lower bearing 68 coupled to the connecting ring 76 of the base 56 and the adjusting boom 64, the connecting ring 76 It is dismantled in the structure and the control frame 66 is disassembled.

The pedestal 56 and the adjusting boom stand 64 are given the same reference numerals to the connecting rings 76 formed at the ends thereof. In the adjusting frame 66, the grooves 80 are assigned the same reference numbers. Given.

In addition, the adjustment boom stand 64 is shown as a circular bar type in the drawings, it will be obvious that the shape can be produced in a shape having a circular and square cross-section.

As can be seen in the configuration of the present invention described above, the elastic support temperature compensation table 50 is the hydraulic jack 60 is operated by adjusting the handle 62 formed on the support body 58 in the forward direction The boom stand 64 is moved forward and at this time the adjusting frame 66 coupled with the adjusting boom stand 64 is moved forward by an angle of about 15 °, and the elastic support 50 is also the handle 62 If you push backward), it is configured to move in reverse.

In addition, in the case of installing the elastic support 54 using the elastic support temperature compensation table 50, in accordance with the change of the season in the summer, the elastic support 54 is installed in consideration of the temperature change of + 30 ℃ in winter In consideration of the temperature change of-20 ℃ in relation to the installation of the elastic support 54, even if the slab beam is extended in the contracted or contracted state in the extended state to the outside can effectively respond to the construction effect can be increased.

Effects of the configuration and operation of the present invention described above will be described.

The elastic bearing of the present invention can absorb the impact transmitted from the upper part of the concrete slab beam to the maximum to reduce the fatigue generated in the bridge as much as possible, and the elastic bearing is also suitable for the temperature change according to the seasonal change in its structure. Since the structure is formed to be able to respond, it can have an excellent effect in terms of safety and maintenance of the bridge.

In addition, since the elastic support is installed on the upper part of the piers in a state of correcting the temperature before constructing the concrete slab beam, the elastic support prevents any occurrence of short-term slab cracking and elastic support at all. do.

Claims (2)

In the elastic support of the bridge installed between the concrete slab beam and the pier, the elastic support 54 is installed on the top of the pier 74 in a state in which the temperature is corrected according to the season and the elastic support 54 is provided. ) May change the installation form according to the operation of the elastic support temperature compensation table 50, while the support 56 is formed on both lower ends of the support body 58 in the elastic support temperature compensation table 50, The support body 58, the hydraulic jack 60, the handle 62 and the adjustment boom stand 64 are respectively installed at the upper edge portions on both sides, the support body 58, the length of the elastic base 54 Spaced apart by the adjustment frame 66 is formed, the support body 58 and the adjustment frame 66, the upper end is connected to the adjustment boom stand 64 and the lower end is connected to the pedestal 56, the pedestal of the 56, the support body 58 and the adjustment frame 66, the elastic support 54 is seated on the inside, while the elastic support The temperature compensation table 50 is operated by the hydraulic jack 60 according to the operation of the handle 62 so that the adjusting boom stand 64 moves forward or backward at an approximately 15 ° angle so as to incline the elastic support 54. And then install the slab concrete beam 72, the elastic support installation method using the elastic support temperature compensation table, characterized in that for installing. According to claim 1, wherein the elastic support temperature compensation table 50 is a frame 56 coupled to the adjusting frame 66 and the connecting ring 76 formed at the end of the adjusting boom 64, the adjusting frame Inserted into the groove portion 80 of the 66 is fixed to the connecting ring bearing 70 and the lower bearing 68, the connecting ring bearing 70 and the lower bearing 68 is a circular handle 78 at the end thereof Is formed, and the elastic support temperature compensation table 50 is installed in the state in which the elastic support 54 is deformed according to the season, and one end of the connecting ring bearing 70 and the lower bearing 68. Pulling out the circular handle 78 formed in the portion, the linkage bearing 70 and the lower bearing 68 coupled to the linkage 76 of the pedestal 56 and the adjustment boom stand 64 at the linkage 76 It is dismantled and the adjustment frame 66 is disassembled and the elastic bearing 54 is installed at the bottom of the slab beam 72 in a seasonal form Elastic bearing installation method using the temperature support temperature compensation stand.