KR20100137951A - Elastomeric bearing instrumented with load and thermo measuring sensor - Google Patents

Abstract

PURPOSE: A smart elastic support with load and temperature measuring functions is provided to efficiently facilitate the maintenance and repair of a bridge by the checking of load and temperature change of a bridge upper structure in a real time. CONSTITUTION: A smart elastic support with load and temperature measuring functions comprises an upper plate(50), a base plate(10), an upper fixing plate(40), a lower fixing plate(20), and a rubber pad(30). The upper plate is fixed on the bottom of the bridge upper structure. The base plate is fixed on the upside of the pier. The upper fixing plate and the lower fixing plate are jointed and fixed on the upper plate and base plate by fastening bolts(22,42). The upper and lower sides of the rubber pad is fused and fixed on the upper and lower fixing plates.

Description

ELASTOMERIC BEARING INSTRUMENTED WITH LOAD AND THERMO MEASURING SENSOR}

The present invention relates to an elastic bearing for a bridge, and more particularly, to improve bridge management efficiency by allowing load and temperature to be measured in real time in an elastic bearing, which is a kind of a bridge device installed to support a top plate of a bridge. .

In general, rubber bearings applied to bridges include elastic bearings, high damping rubber bearings, and lead rubber bearings (LRB), among which elastic bearings transfer loads acting on the superstructure to the substructure. It is a kind of supporting bearing, which is more efficient in load transfer than other bridge bearings. It is easy to move due to shear deformation and rotation about elastic deformation. .

In addition, the elastic support is installed in the layered form of the reinforcing steel sheet between the rubber and the rubber to prevent the buckling phenomenon of the rubber against the vertical load to maintain a large rigidity, the seismic isolation design that maintains the flexibility of the rubber in the horizontal direction as it is It is a kind of dragon bridge bearing.

This elastic support can efficiently transfer the working load of the upper structure (up to 3000ton domestically) to the lower structure, and can be stretched and rotated in all directions such as movement by shear deformation and rotation by elastic deformation. In addition, it is an economical base with low risk of corrosion and easy construction and maintenance.

Therefore, elastic bearings are currently used in almost all prestressed concrete beam (PSC Beam) bridges, and the seismic power distribution function for each point in the event of an earthquake.

The existing elastic support is manufactured using a bolt connection method for fixing the elastic pad to the upper and lower plates with a bolt, or a method for fixing the elastic pad directly to the upper and lower plates.

However, in the conventional bridges, it is not possible to accurately detect the load delivered to the bridge support, although there is a problem in that the management cost is increased because it must be replaced with a new one even though it can be used more after a certain period of time.

In addition, the load and temperature change of the bridge top plate is an important factor in predicting the repair or life of the bridge, but in the case of the conventional elastic bearing, there is a problem that the change of such external factors cannot be accurately measured.

The present invention has been proposed to improve the above problems in the conventional elastic support management for bridges, and has an object to ensure that the load of the bridges can be stably managed by adding load and temperature measurement functions to the elastic support for bridges. .

In addition, it is an object to reduce the maintenance cost by providing a fastening structure that can be easily installed and replaced of the measurement component.

The present invention for achieving the above object, the upper plate is fixed to the lower surface of the upper structure of the bridge, the base plate is fixed to the upper surface of the bridge, and the upper plate fixed to the upper plate and the base plate by fastening and fastening respectively by fastening bolts and In the elastic support for the bridge consisting of a lower fixing plate, and a rubber pad that the upper and lower surfaces are respectively heat-sealed fixed to the upper and lower fixing plates, the lower fixing plate is a pressure gauge for measuring the bridge load and a thermometer measuring instrument for the thermometer side, respectively It is done; The thermometer and pressure gauge is characterized in that the data measuring unit is displayed by wire / wireless connection to each measurement data is displayed.

In addition, the lower fixing plate is characterized in that the measuring instrument insertion groove is formed to be inserted and coupled through the side wall pressure gauge and thermometer.

The present invention, it is possible to check the load change amount and the temperature change amount of the bridge superstructure in real time it is possible to more efficiently maintain the bridge.

In addition, by combining the detachable structure of the pressure gauge and the thermometer instrument, it is possible to reduce the maintenance cost of the facility by only replacing the corresponding parts in case of partial damage of the pressure gauge or thermometer instrument.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, looking at the overall configuration of the elastic support according to the embodiment through FIGS. 1 and 2, the upper plate 50 is fixed to the upper surface (top) of the bridge and the lower structure (pier) of the bridge upper surface Base plate 10 is fixedly installed, the upper fixing plate 40 and the lower fixing plate 20 which is fixed to the surface facing each other of the upper plate 50 and the base plate 10, and the upper and lower fixing plate 20, 40 is composed of a rubber pad 30 is coupled between. The upper and lower fixing plates 20 and 40 are fastened to the base plate 10 and the upper plate 50 by fastening bolts 22 and 42, respectively.

In addition, at least one steel plate 31 is disposed at predetermined intervals in the rubber pad 30 to accommodate the vertical load by preventing the expansion of the rubber pad 30 and increasing the load capacity against the vertical load.

The upper and lower surfaces of the rubber pad 30 are thermally fused in a state of being in close contact with the upper and lower fixing plates 20 and 40, respectively.

In particular, the lower fixing plate 20 in the present invention is provided with a pressure gauge (1) for measuring the bridge load and a thermometer measuring device (2) for the thermometer side, respectively, the thermometer measuring device (2) and the pressure gauge (1), respectively The external data measuring unit 60 on which the measured data of the display is displayed is provided by wire / wireless connection.

It can be seen from FIG. 4 that the lower fixing plate 20 has measuring instrument insertion grooves 23 and 24 formed therein so that the pressure gauge 1 and the thermometer measuring instrument 2 can be inserted and coupled through the side wall.

At the tip of the pressure gauge 1, a separate pressing pad 32 is provided in close contact with the enlarged view of FIG. 3 so that the load of the rubber pad 30 can be directly transferred to the top of the lower fixing plate 20. A seating groove 26 is formed to be seated) but the seating groove 26 is formed in communication with the measuring instrument insertion groove 23 is formed through the inside so that the pressure gauge (1) can be inserted.

In the drawings, reference numerals 11 and 51 denote anchor sockets to be fixed to the pier and the deck concrete, respectively.

The working effect of the construction of the elastic support of the present invention constituting such a construction structure will be described.

First, in constructing the elastic bearing of the present invention between a bridge and a bridge deck, a pressure gauge 1 for load measurement and a thermometer measuring device 2 for temperature measurement are installed together.

That is, the pressure gauge 1 and the thermometer measuring instrument 2 are respectively inserted into the measuring instrument insertion grooves 23 and 24 formed on the sidewalls of the lower fixing plate 20.

In this way, the elastic foot with the pressure gauge (1) and the thermometer measuring device (2) is installed between the bridge and the bridge top plate, the load by the bridge upper structure is the upper plate 50 and the upper fixing plate 40 The rubber pad 30 is transmitted through the rubber pad 30, and the rubber pad 30 which receives the vertical load transmits pressure to the pressure pad 32 provided in the seating groove 26 of the lower fixing plate 20. The load measurement can be made through the pressure gauge 1 in which the tip is in contact with the pressure pad 32.

And, the pressure value and the temperature value measured in this way can be confirmed in the data measuring unit 60 is connected by wire, wireless, the operator compares the measured value displayed through the monitor of the data measuring unit 60 If the load is concentrated at a certain point, the elastic bearings are checked to ensure a uniform load distribution.

In addition, by using the data transmitted through the pressure gauge (1) it can be utilized in vehicle overload control.

On the other hand, Figure 5 shows a removable assembly structure of the pressure gauge 1 according to another embodiment of the present invention, to prevent the pressure gauge 1 is pushed back when the pressing force acting by the pressure pad 32 to improve the pressure measurement efficiency The structure for making it appear is shown.

That is, as shown in the pressure gauge 1, the support pin 1 'is configured to be coupled to the inner wall of the lower plate 20, the insertion groove 23 into which the pressure gauge 1 is inserted In the horizontal groove (23a) was formed in the horizontal direction on both sides so that the support pin (1 ') can be guided.

In particular, the vertical groove (23b) is formed in the vertical direction in the inner end of the pressure gauge insertion groove 23, the vertical groove (23b) is connected to the horizontal groove (23a) end formed by the support pin (1) inserted in the horizontal direction ') Is rotated 90 degrees in the vertical direction to achieve a state caught in the vertical groove (23b).

When such a configuration is achieved, when the pressure gauge 1 is rotated at the end after being inserted into the measuring instrument insertion groove 23 when the pressure gauge 1 is installed, the support pin 1 ′ is caught by the vertical groove 23b. By achieving the state, it can be seen that the phenomenon that the pressure gauge 1 is pushed can be prevented.

Then, when separating, turn the pressure gauge (1) again in the horizontal direction so that the support pin (1 ') corresponds to the horizontal groove (23a), and pull the pressure gauge (1) easily separated from the lower fixing plate (20) It will be done.

As such, since the pressure gauge 1 and the thermometer measuring device 2 of the present invention form a prefabricated coupling structure that can be easily attached and detached, only the corresponding measuring instrument can be separated and replaced without having to replace the entire elastic support when the measuring instrument is damaged. Maintenance costs can be reduced.

FIG. 6 is an enlarged view of the portion A of FIG. 2 as an application example of the present invention. As shown in FIG. 6, the load of the pressure pad 32 is applied to the bottom of the seating groove on which the pressure pad 32 is seated. It is formed of the inclined surface 25 so that it can be concentrated to the side.

Accordingly, the pressure pad 32, the load is transmitted by the rubber pad 30, the pressing force can be concentrated to the tip side of the pressure gauge 1 through the inclined surface 25, it is possible to maximize the load measurement efficiency.

In addition, Figure 7 shows the pressure pad 32 in accordance with another embodiment of the present invention, as shown, the pressure pad having a separate pressing pin 33 on the lower side of the rubber pad 32 as shown It is to be able to transmit the pressing force to (32) more efficiently.

That is, by connecting the pressing pin 33 in the vertical direction with the steel plate 31 located at the lowermost end of the steel plate 31, the load transfer is made directly to the pressure pad 32 by the steel plate 31.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the elastic support structure of the present invention may be variously modified and implemented by those skilled in the art.

It should be understood, however, that such modified embodiments are not to be understood individually from the spirit and scope of the invention, and such modified embodiments are intended to be included within the scope of the appended claims.

1 is a partial cutaway structural view of the elastic support of the present invention.

Figure 2 is a cross-sectional structural view of the elastic support of the present invention.

Figure 3 is a view of the combined appearance of the elastic support of the present invention.

4 is an enlarged view of a portion A of FIG. 2;

5 shows a pressure gauge insertion structure according to another embodiment of the present invention,

5a is a pressure gauge disconnected state diagram.

5b is a cross-sectional view of the insertion groove.

5c is a front view of the insertion groove.

5d is a sectional view of the pressure gauge mounted state.

6 is an enlarged view of portion A of FIG. 2 in accordance with an application of the present invention;

Figure 7 is a rubber pad pressure structure according to another embodiment of the present invention.

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

1: pressure gauge 2: thermometer

10: base plate 11: anchor socket

20: lower fixing plate 21, 41: fastening hole

22,42: Fastening bolt 23,24: Instrument insertion groove

23a: horizontal groove 23b: vertical groove

25: slope 26: seating groove

30: rubber pad 31: steel sheet

32: pressure pad 33: pressure pin

40: upper fixing plate 50: upper plate

51: anchor socket 60: data measuring unit

Claims (6)

The upper plate 50 fixed to the bottom of the upper structure of the bridge, the base plate 10 fixed to the upper surface of the bridge, and the fastening bolts 22 and 42 to the upper plate 50 and the base plate 10, respectively. The upper fixing plate 40 and the lower fixing plate 20 which are fastened and fixed by the upper and lower fixing plates 20 and 40 are respectively heat-sealed and fixed to each other, and a plurality of steel plates 31 are formed in the multilayer. In the elastic support for a bridge composed of a rubber pad 30 is embedded with, The lower fixing plate 20 is provided with a pressure gauge 1 for measuring the bridge load and a thermometer measuring device 2 for the thermometer side; The thermometer measuring device (2) and the pressure gauge (1) are each provided with a data measuring unit (60) in which respective measurement data are displayed by wire / wireless connection; The lower fixing plate 20 is a smart elastic support with a load and thermometer side function, characterized in that the measuring instrument insertion grooves 23 and 24 are formed so that the pressure gauge 1 and the thermometer 2 can be inserted and coupled through the side wall. . The method according to claim 1, At the tip of the pressure gauge (1), a separate pressing pad 32 is provided in close contact with each other so that the load of the rubber pad 30 can be directly transmitted, and the pressing pad 32 can be mounted on the upper surface of the lower fixing plate 20. A seating groove 26 is formed, but the seating groove 26 has a load and thermometer side function, characterized in that it is formed in communication with the measuring instrument insertion groove 23 is formed through the inside so that the pressure gauge (1) is inserted. Smart Elastic Stand. The method according to claim 2, The seating groove 26 is smart elastic support with a load and thermometer side function, characterized in that the bottom surface is formed inclined surface 25 so that the load of the pressure pad 32 can be concentrated to the pressure gauge (1) side. The method according to claim 1, The pressure gauge 1 has a support pin 1 ′ coupled to the inner wall of the lower plate 20, and includes a support pin 1 in the insertion groove 23 into which the pressure gauge 1 is inserted. Smart guide with load and thermometer side function, characterized in that the horizontal groove (23a) formed on both sides so that the ') can be guided. The method according to claim 4, The pressure gauge insertion groove 23 has a vertical groove 23b is formed in the vertical direction, the vertical groove 23b has a load and thermometer side function, characterized in that formed in connection with the end of the horizontal groove (23a) Smart Elastic Stand. The method according to claim 2 or 3, The lower portion of the rubber pad 30 is provided with a pressing pin 33 for transmitting the pressing force to the pressing pad 32, the pressing pin 33 is connected to the lowermost steel plate 31 of the steel sheet 31 Smart elastic support with a load and thermometer side function, characterized in that configured.

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