KR20090035241A - Reinforced deck panel type of decreased noise and vibration and construction method therewith - Google Patents

Abstract

A deck plate and a construction method thereof are provided to reduce the noise and vibration of deck plate according to time more efficiently and to improve the impact-resistance and durability of deck plate. A deck plate comprises a bottom plate(110), front and rear plates(121,122), two side plates(130), a side elastic plate(140) of rubber material including a rough surface such as embossing is formed and attached to the outer surface of the two side plates, and a reinforced concrete placed in the space formed by the bottom, front, rear, and side plates.

Description

Noise and Vibration Reduction and Rigidity Increased Perforated Plate and Its Construction Method {REINFORCED DECK PANEL TYPE OF DECREASED NOISE AND VIBRATION AND CONSTRUCTION METHOD THEREWITH}

The present invention relates to a noise and vibration reduction and stiffness increasing type of perforated plate and its construction method. More specifically, the present invention relates to a double plate and a construction method thereof, which are designed to increase rigidity while reducing noise and vibration generated in the double plate by a traffic vehicle in a double plate used as a bridge deck as a temporary bridge.

Figure 1a shows a cross-sectional view of the installation of the double hole plate is provided with the T-shaped rubber plate 20 as a noise reduction means used in the conventional double hole plate (10).

In detail, first, a temporary bridge substructure such as a temporary vent 30 is installed, and a main girder 40 manufactured as a beam having an I-type cross section is installed at an upper surface thereof.

The bottom surface of the porous plate 10 is provided with an L-shaped locking hole 11 for fixing the position of the double hole plate 10, the locking hole 11 is fixed by welding to the bottom surface of both ends of the double hole plate.

It can be seen that the fastening plate 10 is fixed to the main girder 40 by the locking holes 11.

At this time, the interval between the two perforated plates (approximately 10 mm) is taken in consideration of the installation and dismantling of the perforated plates, and this gap (D) not only causes noise caused by the vibration of the perforated plates as the vehicle passes. In addition, foreign matter may be filled, causing problems in maintenance.

Thus, by inserting the T-shaped rubber plate 20 in the separation interval (D) to reduce the noise caused by the vibration caused by the vehicle traffic, and the double-plate vibration and noise reduction method having the effect of preventing the foreign matter is introduced There is a bar.

However, even if the T-shaped rubber sheet 20 is installed, the T-shaped rubber sheet 20 is damaged by vehicle shocks and the like as the time passes, and the desired noise and vibration reduction effect such as falling off from the separation interval is inefficient. there was.

FIG. 1B illustrates a method in which the concrete 60 is filled in the perforated plate in order to reduce noise or vibration of the perforated plate 10.

That is, the inner side is closed using the side plate 11, the corner connector 12, and the section steel 13 of the I-shaped cross section, and the concrete 60 is filled in the closed inner space. Increased stiffness and the concrete material characteristics of the perforated plate 10 can be said to expect the effect of reducing noise and vibration.

Accordingly, the present invention is to provide a noise reduction plate and a construction method for reducing the impact and durability of the sound and vibration to increase the stiffness while reducing the noise and vibration reduction effect of the perforated plate over time more efficiently and its construction method Shall be.

In order to achieve the above technical problem

First, in order to enhance the rigidity of the perforated plate 100, the bottom plate 110 of the perforated plate is formed to be a corrugated steel plate, the inner space closed by the front and rear plates (120; 121, 122) and both side plates 130 ( S) to the reinforced concrete body 150 is formed so that the stiffness of the perforated plate 100 and noise and vibration due to the concrete can be reduced.

Second, the side elastic plate which is a rubber-like plate formed with rough surfaces such as embossing on both sides of the perforated plate without pushing the T-shaped rubber plate in the spaced interval at the upper part of the perforated plate in the spaced interval of the perforated plate according to the installation and the vehicle passage. 140 is attached to be detachable, but the perforated plate and the perforated plate was to be installed to be pressed to each other in a state in which a pressing force is introduced, not a simple contact with each other.

Third, in the construction of the perforated plate to give a pressing force to the perforated plate having a side elastic plate 140 of the rubber material formed with a rough surface so that the pressing means such as a hydraulic jack 300 can be used during installation.

The perforated plate according to the present invention can be seen that the desired stiffness of the required can be secured even if the stiffness is greatly increased and the size is made large, so that the usability can be expanded,

It is possible to efficiently cope with the noise and vibration, it is possible to provide a new perforated plate and its construction method that can be greatly secured usability.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

BRIEF DESCRIPTION OF DRAWINGS To describe the present invention more clearly and easily, the following describes the best embodiments of the present invention in detail with reference to the accompanying drawings, and embodiments according to the present invention may be modified in various other forms, and thus the scope of the present invention. Is not limited to the embodiment described below.

<Noise and Vibration Reduction and Rigidity Increased Perforated Plate>

2A, 2B, and 2C show an assembly view, a perspective view, and a cross-sectional view, respectively, of the porous plate 100 according to the present invention.

First, the perforated plate 100 according to the present invention will be described with reference to FIG. 2A.

The perforated plate 100 is largely a rubber plate side elastic plate 140 having a rough surface such as embossing formed on the bottom plate 110, the front and back plates (120; 121, 122), both side plates 130, the both side plate outer surface ) And the reinforced concrete body 150 formed therein.

The bottom plate 110 is made of a corrugated steel sheet, the corrugated steel sheet can be effectively secured in the same area than the steel plate which is a conventional flat plate, the corrugated steel sheet is formed with a concave portion and a convex portion in the flat plate Steel plate is used.

On the front and rear of the bottom plate 110 is installed so that the front and rear plates (120; 121, 122) processed by the steel plate as a copper plate is erected and fixed by welding.

At this time, the front and rear plates (120; 121, 122) is to form a bent groove 123 in the lower surface according to the shape of the front 111 and rear 112 of the bottom plate (110).

Side plates 130 are installed on both side surfaces 113 and 114 of the bottom plate 110, respectively.

The side plate 130 may use a channel member of the U-shape as a whole, the bottom plate 110 is connected to the bottom by welding, as shown in Figure 2b and 2c, the front and rear plates (120; 121, 122) The front side 131 and the rear side 132 of the side plate 130 is inserted into the body portion 133 to be inserted into the installation.

Accordingly, it can be seen that the side plate 130 is installed to be fixed to stand in contact with both sides of the bottom plate.

In addition, the body portion 133 of the bottom plate 130 is formed with a through hole 134 for detachable side elastic plate 140 to be described later.

Furthermore, the bottom plate of the side plate 130 is to be further supported by the plate-shaped support plate 135 to be mounted on the upper surface of the main girder 200 as will be described later.

As a result, it can be seen that the bottom plate 110, the front and rear plates (120; 121, 122) and both side plates 130 are formed in the closed space (S) inside the perforated plate 100 of the present invention.

The side elastic plate 140 is mounted so as to be detachable to the outer surface of both side plates 130, the mounting is an inner protrusion 132 is inserted into the through-hole 134 of the side plate 130, for example One formed on one side of the elastic plate member 131 is used.

The side elastic plate 140 covering the front side of both side plate 130 is fitted by the inner protrusion 132, but if the damage occurs, the side elastic plate 140 can be disassembled in such a way as to pull off. Done.

Further, although not shown on the exposed surface of the side elastic plate 140, it is preferable to form a projection or a rough surface such as embossing to enable the pressing force by the friction force when the compression of the perforated plate 100.

The reinforcement concrete body 150 is first placed in the closed space (S) by the bottom plate 110, the front and rear plates 120 and 121 and 122 and both side plates 130 as the name is placed The concrete 152 is poured so that the reinforcing bar 151 is embedded and cured.

The concrete 12 may be a factor to increase the weight of the perforated plate 100 together with the reinforcing bar, but the advantage of increasing the rigidity and the advantage of reducing the noise and vibration due to the concrete has a greater comparative advantage.

As shown in Figure 2b and 2c it can be seen that the perforated plate 100 of the present invention to the upper surface is finished with concrete 152,

The finishing of the upper surface of the perforated plate 100 by the concrete 152 serves as a kind of non-slip finish material to prevent the slip phenomenon of the walking vehicle, which is walking in rainy weather.

In addition, it can be seen that the corner portion of the perforated plate 100 is formed of the steel material by both side plates 130, the front and back plates 120, so as to be formed in a structure that can prevent breakage, such as broken by the impact. It can be seen that.

The perforated plate 100 according to the present invention as described above is in contact with each other in parallel to be precisely installed so that the side elastic plate 140 is in contact with each other so that both sides of the perforated plate 100 can be completely in contact with each other so that the perforated plates do not deviate from each other It is possible to have a more secure adhesion effect by applying a pressing force.

This pressing force imparting method will be described later.

<Method for reducing noise and vibration and increasing stiffness double plate>

3A to 3E schematically illustrate a method of installing the porous plate 100 of the present invention in order.

Although not shown first as shown in Figure 1a, the construction of the temporary bridge substructure first,

The temporary bridge substructure is a temporary girder 200 fabricated as a beam of I-shaped cross section mounted on the temporary vent and its upper surface.

Therefore, in the present invention, only the main girder 200 will be displayed.

That is, as shown in Figure 3a is installed in such a way that the main girder 200 is mounted on the upper surface of the temporary vent, it is installed on each of the two ends of the main girder 200, the pressing protection plate 210.

The compression prevention plate 210 serves as a reaction force to allow the compression force is introduced while the compression plate 100 is not pushed in place when applying the pressing force to the installed double hole plate 100 as described below.

The compression preventing plate 210 is installed so that the channel member, such as L-shaped steel protrudes upward in accordance with the main girder width (lateral width) on the upper surface of both ends of the main girder 200, the protrusion height is the thickness of the perforated plate That's right.

Next, as shown in Figure 3b, the main girder 200 is installed one by one to be in close contact with each other in parallel in the longitudinal direction in the longitudinal direction, the backing plate 135 is installed on both side bottom surface of the perforated plate 100 according to the present invention By the main girder 200 is to be installed to support the upper surface.

Next, in a state in which a space corresponding to the width of one perforated plate is secured in advance before installing the final perforated plate as shown in FIG. 3C,

That is, in a state in which the space between the porous plate 100a and the porous plate 100b is secured, a crimping means 300 such as a hydraulic jack is provided between the porous plate 100a and the porous plate 100b.

Accordingly, when the hydraulic jack, which is the crimping means 300, is operated, it can be seen that a compressive force may be introduced into the perforated plate 100a and the perforated plate 100b installed on the upper surface of the main girder 200, and thus the compressive force may be introduced into the perforated plates.

This compression allows the perforated plate and the perforated plate to be in close contact with each other, thereby more effectively enhancing the effect of reducing noise and vibration generated in the perforated plate.

In order to maintain the introduction of the pressing force, first, the pressing plate 300a in contact with the compression means 300 (right side) of the covering plate L1 of the main girder 200 in the state where the pressing force by the pressing means 300 is applied to the main girder ( 200) It is fixed to the upper surface.

In this case, it can be seen that the compression plate is maintained intact by the recovery plate 100a fixed to the upper surface of the main girder 200 in the L1 section.

In the fixing method, as shown in FIG. 3C, the L-shaped fixing plate 400, such as a channel member, which is in contact with the left side of the double hole plate 100a in the operating state of the pressing means 300, is disposed on the upper surface of the main girder 300. The side surface may be fixed by welding to the left side surface of the porous plate 100a.

Accordingly, the perforated plate 100a between the L-shaped fixing plate 400 and the pressing prevention plate 210 can be disassembled later without damage.

The reason why the L-type fixing plate 400 is adopted in the present invention is that if the fixing plate 100a is fixed to the main girder 200 in order to secure the compressive force of the plate 100a, damage may be caused to the plate 200a during subsequent disassembly. Because.

Eventually, even if the pressing means 300 is removed by the L-shaped fixing plate 400, the perforated plates of the L1 section is in a state in which the pressing force is maintained as it is.

Next, the pressing means 300 is removed. The space by this removal is filled by sandwiching the new perforated plate 100c between the perforated plate 100a and the perforated plate 100b.

Next, as shown in FIG. 3D, any of the porous plates 100b closely contacted to the left side are removed, and the pressing means 300 removed is reinstalled in the removed space.

When the re-installed crimping means 300 is operated, it can be seen that the compressive force is introduced into both the perforated plates installed in the sections L2 and L3 as shown in FIG. 3D.

At this time, in order to maintain the pressing force of the compression plate is introduced into the compression plate (100b) to install the L-shaped fixing plate 400 in contact with the re-installed pressing means 300 is installed on the recovery plate (100b).

As a result, it can be seen that the pressing force by the pressing means 300 is maintained in all of the L1, L2 and L3 sections of the main girder 200 by the L-shaped fixing plate 400.

In the space resulting from the final removal of the pressing means 300, the additional double hole plate 100c is inserted into the space as shown in FIG. 3e to finally install the double hole plate into which the pressing force is introduced.

The method for installing the perforated plate may be applied to all of the perforated plates installed between the main girders installed in the transverse direction, thereby completing the installation of the perforated plates having the final constant plate width.

Figures 1a and 1b is a cross-sectional view showing the temporary bridge installation section and the perforated plate is formed with conventional noise and vibration prevention means.

2A, 2B, and 2C show the perforated plate of the present invention in an assembled view, a perspective view, and a cross-sectional view.

3A, 3B, 3C, 3D, and 3E show the construction of the porous plate construction work according to the present invention in order.

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

100; 100a, 100b, 100c: Reinforcement plate 110: Bottom plate

120; 121, 122: front plate, rear plate 130: both side plates

140: elastic side plate 150: reinforced concrete body

200: girder 210: crimping prevention plate

300: Crimping means 400: L-type fixing plate

Claims (5)

A bottom plate formed of corrugated steel sheet; A front plate and a rear plate of a plate shape fixed to the bottom and rear of the bottom plate; A lower portion of the bottom plate, a front surface and a rear surface of the front plate and the rear plate, which are erected in contact with each other, and having a through hole formed in the body portion of the U-shaped channel member; Elastic plate material of rubber material; And an inner protrusion formed in the elastic plate so as to be inserted into the through-hole so as to be detachably inserted therein, the side elastic plate being installed to cover the entire outer side of the side; And Reinforced concrete body formed in the inner space by the bottom plate, the front and rear plates and both side plates; Noise and vibration reduction and stiffness increase type perforated plate comprising a. The method of claim 1, wherein the bottom surface of the both side plate is further provided with a support plate to be supported on the upper surface of the main girder, noise and vibration reduction and stiffness increase type perforated plate. On the upper surface of the substructure including the temporary vent, the main girders are provided with a crimping prevention plate including a channel member such as L-shaped steel projecting upward at both ends, Between the compression preventing plate of the main girder is installed in close contact with the multi-hole plate of claim 1 in parallel, By securing a space between the perforated plate to install and operate the crimping means including a hydraulic jack in the space so that the pressing force is introduced into the perforated plate installed to be in close contact in parallel, Fixing the perforated plate introduced with the pressing force to the main girder to maintain the introduced pressing force, After removing the pressing means and the final step of inserting the perforated plate noise and vibration reduction and stiffness increase type perforated plate construction method. The method of claim 3, wherein the fixing of the main girder of the perforated plate is introduced Noise and vibration reduction and stiffness increase in the construction of the double-plate mounting plate comprising a L-shaped steel fixed by welding on the side of the double-plate plate in contact with the pressing means and the upper surface of the main girder. The method of claim 3 or 4, wherein the pressing force of the perforated plate is introduced The noise and vibration reduction and stiffness-increasing plate construction method to ensure that the pressing force is introduced to the perforated plate by the interval between the spaced space by sequentially installing and operating the pressing means in the separation space while ensuring one space between the perforated plate.

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