KR100725061B1 - A safe diagnosis device of hand makeup - Google Patents

Abstract

A safe diagnosis device for an underwater structure is provided to prevent buckling of the underwater structure in order to prevent collapse of the underwater structure. A safe diagnosis device for a underwater structure includes a reaction member(110), a measurement member(120), and a contact switch(130). The reaction member is installed at an outer periphery of the underwater structure to react with buckling of the underwater structure. The reaction member includes a plurality of connection rings(111). The plurality of connection rings having different heights is disposed at the outer periphery of the underwater structure. The measurement member is installed at an upper part of the underwater structure to measure fine buckling of the underwater structure. The contact switch is installed at an inner surface of a guide(122) to detect movement of the measurement bar.

Description

A safe diagnosis device of hand construction

1 is an exploded perspective view showing a safety diagnosis device of the underwater structure according to an embodiment of the present invention,

Figure 2 is a perspective view showing a safety diagnosis device of the underwater structure according to a preferred embodiment of the present invention,

3 is a plan view showing a safety diagnosis device of the underwater structure according to an embodiment of the present invention and

Figure 4 is a side view showing a safety diagnosis device of the underwater structure according to a preferred embodiment of the present invention.

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

1: Well well foundation 2: Pier

110: reaction port 111: connection ring

117: measuring bar 119: compression spring

120: measuring hole 122: guide

130: contact switch 131: terminal

The present invention relates to a safety diagnosis device, and more particularly, it is possible to easily detect the scour phenomenon of the underwater structure due to the vortex of the river water on the outer peripheral surface of the underwater structure through the naked eye and the sensor, thereby preventing the scour phenomenon of the underwater structure The present invention relates to a safety diagnosis apparatus of an underwater structure that can detect and detect a rapid response and prevent the collapse of the underwater structure.

In general, a bridge is an elevated structure made to cross rivers, lakes, straits, bays, canals, lowlands, or other traffic routes or structures. A bridge superstructure with a bridge device on top is installed on top of a bridge foundation. The bridge deck is installed on the upper portion of the bridge upper facility.

In addition, the bridge foundation consists of a well well foundation and a pier. At this time, the well and the foundation and the pier is generally installed to be submerged in the water of the river.

However, the well basin and the pier submerged in the water of the river in this way will be scoured by the water of the river.

That is, the fundamental cause of local scour in the piers is the formation of vortices in the bed, and the vortices generated in the front of the piers among the vortices around the piers are called horseshoe vortices. Vortex generated downstream is called wake type vortex.

Scour occurs when the removal amount is larger than the amount of sediment flowing into the foundation, and as time passes, scour depths of scour holes and piers gradually increase, which not only damages the piers, but also reduces the friction between the subsoil and piers. It is causing the collapse. The structure of the vortex system is divided into three basic systems: horseshoe vortex, wake vortex, and trailing vortex. The vortex system consists of all or one or two phenomena.

Accordingly, it is urgent to develop means for detecting scour occurring at the base of the bridge.

The present invention has been made in view of the conventional problems, the object of which is to scour phenomena of the underwater structure due to the vortices of the river on the outer peripheral surface of the underwater structure through the naked eye and the sensor, the scour phenomenon of the underwater structure The present invention provides a safety diagnosis apparatus for underwater structures that can detect and prevent the collapse of underwater structures.

The present invention for achieving the above object

In an underwater structure consisting of a well vent base installed on the bottom surface of the river and a pier installed on the top of the well vent base,

The plurality of connection rings are positioned on the outer circumferential surface of the well cylinder base to have different heights so as to respond to the scour phenomenon occurring in the well cylinder base, and the connecting rings are formed on the inner circumference of the well cylinder base. A plurality of coupling holes are fastened to each of the fastening bolts for fastening to each other, and one end makes contact with the outer circumferential surface of the well base between the coupling hole and the coupling hole, and the other end protrudes upward to measure the hour hand on the outer circumferential surface. A reaction hole provided with a plurality of connection holes to which bars are connected, and a compression spring for pulling each of the measurement bars into the connection ring between each measurement bar and the connection ring;

Installed in the upper part of the well through the base so that the scour phenomenon occurring in the well base can be measured, and in communication with the inside of the coupling ring on the outer peripheral surface of the coupling ring surrounding the outer peripheral surface of the piers the plurality of measuring bars are inserted The guide is protruded in a radial shape, a scale forming a zero point with the hour hand is formed on the upper portion of each guide, a pair of connecting bar is formed at the lower portion of the coupling ring, the coupling hole at the end of each connecting bar Measuring sphere having a fastening plate having

When the scour phenomenon occurs in the well well base is configured to include a contact switch installed inside the guide to detect the movement of the measuring bar and apply the signal to the terminal of the manager.

On the other hand, it is preferable that the plurality of measuring bars installed on each connection ring make contact with the outer periphery of the well base at different directions according to the installation height of each connection ring.

Hereinafter, a safety diagnosis apparatus of an underwater structure according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is an exploded perspective view showing a safety diagnosis apparatus for an underwater structure according to a preferred embodiment of the present invention, Figure 2 is a perspective view showing a safety diagnosis apparatus for an underwater structure according to a preferred embodiment of the present invention, Figure 3 4 is a plan view showing a safety diagnosis device for an underwater structure according to a preferred embodiment of the present invention, Figure 4 is a side view showing a safety diagnosis device for an underwater structure according to a preferred embodiment of the present invention.

1 to 4, the safety diagnosis device 100 of the underwater structure of the present invention comprises a reaction sphere 110, measuring sphere 120 and the contact switch 130.

The reaction port 110 is installed on the outer circumferential surface of the well base 1 so as to react with the scour phenomenon occurring in the well base 1.

At this time, the reaction port 110 is located on the outer circumferential surface of the water well base (1) so that the plurality of connection ring 111 has a different height, a plurality of coupling holes (inside the respective connection ring 111) 113) is formed. Thus, each of the coupling holes 113 is fastened to the fastening bolts 115 for fixing the connection ring 111 to the outer peripheral surface of the wells (1).

In addition, a plurality of connection holes 116 are formed between the coupling hole 113 and the coupling hole 113, and the measurement bar 117 is connected to each connection hole 116. At this time, one end of the measuring bar 117 makes contact with the outer circumferential surface of the well base 1, and the other end protrudes upward. And the hour hand 118 is formed on the outer peripheral surface of the measurement bar 117.

A compression spring 119 is installed between the measuring bars 117 and the connection ring 111 to pull the respective measurement bars 117 into the connection ring 111. Here, one end of the compression spring 119 is fixed to the measuring bar 117, the other end is preferably fixed to the outer peripheral surface of the connection ring 111.

At this time, it is preferable that the plurality of measuring bars 117 installed on the connection rings 111 are in contact with the outer circumferential surface of the well passage foundation 1 in different directions according to the installation height of each connection ring 111. .

On the other hand, the measuring sphere 120 is installed on the upper portion of the well well (1) to measure the scour phenomenon occurring in the well well base (1).

The measuring sphere 120 is a plurality of guides 122 communicating with the inside of the coupling ring 121 is projected in a radial shape on the outer peripheral surface of the coupling ring 121 is installed to surround the outer peripheral surface of the pier (2). In this case, the plurality of measuring bars 117 are respectively inserted / connected to the guide 122.

Here, the guide 122 preferably has the same number as the measuring bar 117.

In addition, a scale 123 forming a zero point with the hour hand 118 is formed on the upper portion of each guide 122, a pair of connecting bar 124 is formed on the lower portion of the coupling ring 121.

In this case, a fastening plate 127 having a coupling hole 125 at the end of each connection bar 124 is formed. Accordingly, the anchor bolt 126 is inserted into each of the coupling holes 125 to firmly couple the fastening plate 127 to the upper portion of the well base 1.

Meanwhile, the contact switch 130 detects the movement of the measurement bar 117 when the scour occurs in the well base 1, and then guides the signals to the terminal 131 of the manager. It is provided inside 122.

In this case, the terminal 131 is generally widely used, and a detailed description thereof will be omitted.

Accordingly, the safety diagnosis device of the underwater structure composed of the above-described combined configuration can easily detect the scour phenomenon of the underwater structure caused by the vortices of the river water with the naked eye and the sensor, thereby preventing the scour phenomenon of the underwater structure. In order to sense and take a quick response, the operation relationship will be described accordingly.

When the scour phenomenon occurs on the outer circumferential surface of the well base 1, the measurement bar 117 connected to the connection hole 116 of the connection ring 111 is the depth to be scoured by the elastic force of the compression spring 119 Move to the inside of the well well base (1).

At this time, the hour hand 118 formed on the outer circumferential surface of the measurement bar 117 to form a zero point with the scale 123, the measurement bar 117 is moved along the guide 122, thereby measuring the depth of movement visually. You can do it.

In addition, the measurement bar 117 moving along the guide 122 presses the contact switch 130 installed inside the guide 122. At this time, the signal generated from the contact switch 130 is a terminal of the manager. It is applied to 131 so that the administrator can recognize that the scour phenomenon occurs in the outer peripheral surface of the well base (1).

Accordingly, the manager of the underwater structure easily detects the scour phenomenon of the well well base through the naked eye or the sensor, thereby making a quick response to prevent the collapse of the underwater structure in advance.

According to the present invention, it is possible to easily detect the scour phenomenon of the underwater structure due to the vortices of the river water on the outer peripheral surface of the underwater structure through the naked eye and sensors, so that the scour phenomenon of the underwater structure can be detected in advance, so that quick action can be taken. In addition, there is an effect that can prevent the collapse of the underwater structure accordingly.

Claims (2)

In an underwater structure consisting of a well vent base installed on the bottom surface of the river and a pier installed on the top of the well vent base, The plurality of connection rings 111 are positioned on the outer circumferential surface of the wells base 1 to have different heights so as to react with the scour phenomenon occurring in the wells base 1, and each of the connection rings 111. A plurality of coupling holes 113 are fastened to fasten the bolts 115 for fixing the connection ring 111 to the outer circumferential surface of the well base 1, respectively, and are coupled to the coupling hole 113. A plurality of connection holes 116 having one end contacting the outer circumferential surface of the well base 1 between the balls 113 and the other end protruding upward to connect the measuring bar 117 having the hour hand 118 formed on the outer circumferential surface thereof. A reaction hole 110 is installed between the measuring bars 117 and the connection ring 111 and a compression spring 119 for pulling the respective measurement bars 117 into the connection ring 111. ; The coupling ring is installed on the upper portion of the well passage foundation 1 to measure the scour phenomenon occurring in the well passage foundation 1, and is coupled to the outer circumferential surface of the coupling ring 121 surrounding the outer circumferential surface of the piers 2. The guide 122 in which the plurality of measuring bars 117 are respectively inserted in communication with the inside of the 121 is projected in a radial shape, and a scale forming a zero point with the hour hand 118 on the top of each guide 122. Part 123 is formed, a pair of connecting bar 124 is formed at the lower portion of the coupling ring 121, fastening plate 127 having a coupling hole 125 at the end of each connecting bar 124 ) Measuring sphere 120 is formed and Contact switch installed inside each guide 122 to detect the movement of the measuring bar 117 and apply the signal to the terminal 131 of the manager when the scour phenomenon occurs in the well base 1 (1) Safety diagnosis device of the underwater structure, characterized in that comprises a (130). The method of claim 1, Underwater structure, characterized in that the plurality of measuring bars 117 installed in each of the connecting rings 111 make contact with the outer peripheral surface of the wells base 1 in different directions according to the installation height of each of the connecting rings 111. Safety diagnosis device.

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