KR20090085415A - Measurement apparatus for displacement of structure - Google Patents

Abstract

A measurement apparatus for displacement of a structure is provided to fix the apparatus on a specified position by controlling the angle between a main body and a joint through a bolt-nut coupling structure. A measurement apparatus for displacement of a structure comprises a main body(100), a tilt sensor, a settlement sensor, a joint(400), and a vertical maintaining unit(500). The tilt sensor measures the tilt of the main body. The settlement sensor measures the settlement degree of the main body using the height measured with the pressure. The joint is coupled to the structure to be detachable. The vertical maintaining unit allows the changing and the fixing of the tilt to the joint to maintain the settlement sensor in the vertical direction.

Description

Displacement measuring device of structure {MEASUREMENT APPARATUS FOR DISPLACEMENT OF STRUCTURE}

The present invention relates to the field of construction, and more particularly, to a measuring device that can more easily measure the displacement of the construction structure.

In construction and civil engineering structures, displacements occur over time due to loads, settlement of foundation ground, etc.

In this way, the displacement occurring in the structure is connected to the yield of the structure due to the generation of dangerous stress, it is necessary to continuously measure at regular intervals for the stable use of the structure.

However, the measurement equipment developed to date had the following problems.

First, since attention has been focused only on the development of large-scale equipment for precise measurement, the development of small measurement equipment that can be generally used even if the precision is somewhat poor.

For reference, there are more than 600 bridges in Korea, but only 100 devices are being used for periodic measurement.

Second, sinking displacement is the most dangerous and important of the displacements occurring in the structure, and all the conventional measuring equipments have applied the relative displacement measurement method.

Here, the relative displacement measuring method means a method of setting a fixed point in the adjacent area of the structure to be measured, and measuring the relative displacement of the fixed point and the measurement point.

This method requires a large scale of equipment and requires the installation of equipment at multiple points, which of course requires a lot of labor and cost.

The present invention has been made in order to solve the above problems, the object of the present invention is to provide a measuring device for the structure that can be used universally as a compact equipment, easy to store, move, installation.

The present invention in order to achieve the object as described above, the body 100 is formed in the receiving space therein; An inclination sensor 200 mounted inside the main body 100 to measure an inclination degree of the main body 100; A settling sensor 300 mounted inside the main body 100 to measure the settling degree of the main body 100 by the altitude measured by the air pressure; A coupling part 400 formed to detachably couple the main body 100 to the structure 1; A displacement measuring device for a structure including; a vertical direction holding means (500) for allowing a change and inclination of the inclination of the main body (100) with respect to the coupling part (400) to maintain the vertical direction of the settlement sensor (300). To present.

The inclination sensor 200 is preferably mounted so that a plurality of the inclination sensors 200 face each other.

When the vertical direction is referred to as the Z-axis direction, the inclination sensor 200 is preferably mounted so that the pair 210 and 220 measure the inclination in the x-axis direction and the y-axis direction, respectively.

It is further provided with an inner member (110) mounted inside the main body (100) so as to be integral with the main body (100) and having a pair of right angled surfaces (111, 112) formed to face at right angles to each other. The pair of tilt sensors 210 and 220 may be mounted on the pair of right angle surfaces 111 and 112 of the inner member 110, respectively.

The apparatus further includes a temperature measuring unit 310, a wind volume measuring unit 320, and a humidity measuring unit 330, and measures the value measured by the settlement sensor 300 in the temperature measuring unit 310 and the air volume measuring unit 320. ), It is preferable that the correction unit 340 is further provided to correct by the temperature, air volume, humidity information measured by the humidity measuring unit 330.

The vertical direction holding means 500 is preferably a hinge coupling portion 500a formed between the main body 100 and the coupling portion 400.

The hinge coupling part (500a) is provided with a main body through-hole 511 in the core portion, the extension portion 510 is formed to extend to the lower side of the main body 100; A coupling part through hole 521 is provided at a core portion, and a support part 520 extending upward from the coupling part 400; It is preferable to include; a coupling tool 530 for coupling through the body through hole 511 and the coupling part through hole 521.

The coupler 530 is preferably a bolt-nut fastening structure.

The coupling part 400 includes a plurality of coupling holes 411 formed at an edge portion thereof, and a base plate part 410 formed so as to be in surface contact with the structure 1. By coupling to the structure 1 through the coupling hole 411, it is preferable to couple to the structure (1).

The main body 100 is further provided with a dangerous situation display means 600, the displacement of the structure measured by the tilt sensor 200 and the settlement sensor 300 exceeds the allowable range, the dangerous situation display means It is preferable to indicate a dangerous situation by (600).

The dangerous situation display means 600 is preferably a warning light 610 installed to be exposed to the outside of the main body 100.

The warning light 610 is preferably installed on the upper surface of the main body 100.

It is preferable to be powered by a solar generator installed in the structure 1 or its vicinity.

The present invention provides a measuring device for a structure that is easy to store, move, and install, so that it can be used universally as a compact equipment.

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

As shown in Figure 1 below, the displacement measuring apparatus of the structure according to the present invention basically, the main body 100 is formed with a receiving space therein; An inclination sensor 200 mounted inside the main body 100 to measure an inclination degree of the main body 100; A settlement sensor 300 mounted inside the main body 100 to measure the degree of settlement of the main body 100 by the altitude measured by the air pressure; A coupling part 400 formed to detachably couple the main body 100 to the structure 1; It is configured to include; the vertical direction maintaining means 500 to allow the inclination change and fixing of the body 100 relative to the coupling portion 400, so that the settlement sensor 300 maintains the vertical direction.

That is, the method of measuring the settlement of the structure from the altitude measured by the air pressure is applied to the method for measuring the settlement displacement of the structure, without applying the conventional relative displacement measurement method.

Therefore, as shown in Figs. 2 and 3, since only the measuring device is installed on the wall of the structure without the installation of a separate peripheral equipment, the installation work is very simple compared to the conventional, and the equipment can be miniaturized As a result, it can be expected to use universally.

In addition, since the inclination sensor 200 is mounted together, the three-dimensional behavior of the structure can be predicted by the combination of the information as well as the settlement and the tilt displacement of the structure.

In order to obtain accurate information by measuring altitude by air pressure, it is necessary to always point the measuring sensor perpendicular to gravity.

The measuring device according to the present invention, for this purpose, by the vertical direction holding means 500, to allow the inclination change and fixing of the main body 100 with respect to the coupling portion 400.

That is, since the inclination can be changed and fixed to each other without integrally forming the main body 100 and the coupling portion 400, as shown in Figures 2 and 3, no matter what inclination of the wall surface of the structure always the main body ( 100) can be installed to face in the vertical direction.

Here, the vertical direction holding means 500 may be implemented by various structures, as shown in Figure 2 to 4 as the vertical direction holding means 500 is a hinge coupling between the main body 100 and the coupling portion 400 ( An embodiment in which 500a) is formed is shown.

The hinge coupling part 500a may include an extension part 510 provided with a main body through-hole 511 and extending downward from the main body 100; Coupled portion through-hole 521 is provided in the core portion, the support portion 520 extending to the upper side of the coupling portion 400; It may be implemented by a structure including; a coupling hole 530 through and coupled to the body through hole 511 and the coupling portion through hole 521.

Here, when the coupler 530 takes the bolt-nut fastening structure, by adjusting the angle between the main body 100 and the coupling portion 400 by loosening the tightening, and then tightening the device again by a method of strengthening the tightening again The advantage is that it can be fixed in position.

The inclination sensor 200 measures the degree of inclination of the main body 100 and measures the inclination displacement of the structure 1 therefrom. Since the inclination sensor 200 basically has directionality, the inclination of various directions is measured. In order to achieve this, it is preferable to take a structure in which the plurality is mounted so as to face at right angles to each other.

Since the measuring device according to the present invention is primarily intended to provide a general purpose use by miniaturization of equipment, it is preferable to employ a configuration that obtains the maximum effect while having a minimum configuration.

That is, as shown in FIGS. 5 and 6, when the vertical direction is referred to as the Z-axis direction, the tilt sensor 200 has a structure in which the pair 210 and 220 are mounted to measure the inclination in the x-axis direction and the y-axis direction, respectively. In this case, it is possible to obtain the effect that virtually all three-dimensional behavior of the structure 1 can be measured while only three sensors (altimeter (settling sensor) and two tilt sensors) are mounted.

As shown in FIG. 5, the inner member 110 having a pair of right angled surfaces 111 and 112 formed to face at right angles to each other is mounted inside the main body 100 so as to be integral with the main body 100. In this case, by simply mounting the pair of inclination sensors (210, 220) on the pair of right angles (111, 112) of the inner member 110, respectively, without the installation work by a separate precise measurement, the above structure can be easily obtained There is an advantage.

Displacement information obtained by the inclination sensor 200 and the settlement sensor 300 may be output directly from the measuring device, or may be recorded by collecting data by a separate data logger and a transceiver.

The settlement displacement measured by the settlement sensor 300 is a value obtained based on the air pressure as described above, and the air pressure may have a different value even at the same altitude due to the influence of temperature, air volume, humidity, and the like.

Therefore, as illustrated in FIG. 7, the apparatus further includes a separate temperature measuring unit 310, a wind volume measuring unit 320, and a humidity measuring unit 330, and measures the temperature measured by the settlement sensor 300. By providing the correction unit 340 that corrects the temperature, air flow rate, and humidity information measured by the unit 310, the air flow rate measuring unit 320, and the humidity measuring unit 330, it is possible to obtain a more accurate altitude value. More preferred.

Coupling portion 400 is a configuration for fixing the body 100 to the structure (1), it is the most important to ensure that the body 100 and the structure (1) to be stably integrated.

To this end, as shown in FIG. 8, a plurality of coupling holes 411 are formed at the edge portion, and the base plate portion 410 is formed to be coupled in surface contact with the structure 1. It is preferable to take a configuration such that the 420 is coupled to the structure 1 through the coupling hole 411.

Here, the coupling member 420 may be applied to various examples by the structure, material, etc. of the structure 1, FIG. 9 shows an example in which a nail 420a is used, and FIG. 10 shows an example in which an anchor bolt 420b is used. It is.

When the displacement of the structure measured by the inclination sensor 200 and the settlement sensor 300 exceeds the allowable range, it is a very dangerous situation, and thus, a risk situation display means for informing the surroundings by a visual or audio display method. More preferably, the 600 is mounted to the main body 100.

As shown in FIG. 1, the dangerous situation display unit 600 may be implemented by a warning light 610 or a speaker installed to be exposed to the outside of the main body 100.

However, as described above, the main body 100 of the measuring device according to the present invention is always installed to face in the vertical direction, so when the warning light 610 is installed, the warning light 610 is placed on the upper surface of the main body 100. It is more desirable to be easily visible by installing.

The power required for the measuring device according to the present invention may be supplied from a power supply device installed in the structure (1), but if it is difficult to supply bridges, dams and other power, a separate solar generator is installed in the structure (1) or its vicinity. It is preferable to make a power supply from this.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1 to 10 show an embodiment of a measuring device according to the present invention,

1 is a perspective view.

2 is a first use state diagram.

3 is a second use state diagram.

Figure 4 is an exploded perspective view of the hinge coupling portion.

5 is an exploded perspective view equipped with a settlement sensor and a tilt sensor.

6 is a configuration diagram of a coordinate axis associated with an inclination sensor.

7 is a block diagram associated with a correction unit.

8 is a perspective view of the coupling portion.

9 is a perspective view of a first embodiment in a coupled state of a coupling portion;

10 is a perspective view of a second embodiment of the engaging state of the engaging portion.

** Description of the symbols for the main parts of the drawings **

1: Structure 100: Body

110: inner member 111,112: right angle

200,210,220: Tilt sensor 300: Settlement sensor

310: temperature measuring unit 320: air volume measuring unit

330: humidity measuring unit 340: correction unit

400: coupling portion 410: base plate portion

411: coupling hole 420: coupling member

500: vertical direction holding means 500a: hinge coupling portion

510: extension portion 511: body through hole

520: support portion 521: coupling portion through hole

530: coupling unit 600: means of indication of the danger situation

610: warning light

Claims (13)

A main body 100 having a storage space formed therein; An inclination sensor 200 mounted inside the main body 100 to measure an inclination degree of the main body 100; A settling sensor 300 mounted inside the main body 100 to measure the settling degree of the main body 100 by the altitude measured by the air pressure; A coupling part 400 formed to detachably couple the main body 100 to the structure 1; A vertical direction holding means (500) for allowing the inclination of the main body (100) to be changed and fixed to the coupling part (400) to maintain the vertical direction of the settlement sensor (300); Displacement measuring device of a structure comprising. The method of claim 1, The inclination sensor 200 is a displacement measuring device of a structure, characterized in that the plurality is mounted so as to face each other at right angles. The method of claim 2, When the vertical direction is referred to as the Z-axis direction, the inclination sensor (200) is a displacement measuring device of the structure, characterized in that a pair (210, 220) is mounted to measure the inclination in the x-axis direction and y-axis direction, respectively. The method of claim 3, It is further provided with an inner member (110) mounted inside the main body (100) so as to be integral with the main body (100) and having a pair of right angled surfaces (111, 112) formed to face at right angles to each other. The pair of inclination sensors (210, 220) is displacement measuring apparatus of the structure, characterized in that mounted on a pair of right angles (111, 112) of the inner member (110), respectively. The method of claim 1, Further provided with a temperature measuring unit 310, air volume measuring unit 320, humidity measuring unit 330, Correction unit for correcting the value measured by the settlement sensor 300 by the temperature, air flow rate, humidity information measured by the temperature measuring unit 310, the air flow rate measuring unit 320, the humidity measuring unit 330 ( Displacement measuring device of the structure, characterized in that the 340 is further provided. The method of claim 1, The vertical holding means 500 is Displacement measuring device of the structure, characterized in that the hinge coupling portion (500a) formed between the main body (100) and the coupling portion (400). The method of claim 6, The hinge coupling part 500a An extension part 510 having a core through-hole 511 and extending downward from the main body 100; A coupling part through hole 521 is provided at a core portion, and a support part 520 extending upward from the coupling part 400; Coupler 530 for coupling through the body through hole 511 and the coupling portion through hole 521; Displacement measuring device of a structure comprising a. The method of claim 7, wherein The coupler 530 is a displacement measuring device of the structure, characterized in that the bolt-nut fastening structure. The method of claim 1, The coupling part 400 A plurality of coupling holes 411 are formed at the edge portion, and includes a base plate portion 410 formed to be in surface contact with the structure 1. The coupling member (420) penetrates the coupling hole (411) to the structure (1) by coupling to the structure (1), characterized in that for coupling to the structure (1). The method of claim 1, The main body 100 is further provided with a dangerous situation display means 600, When the displacement of the structure measured by the inclination sensor 200 and the settlement sensor 300 exceeds the allowable range, the displacement measurement of the structure, characterized by displaying the dangerous situation by the dangerous situation display means 600 Device. The method of claim 10, The dangerous situation display means 600 is a displacement measuring device of a structure, characterized in that the warning light (610) installed to be exposed to the outside of the main body (100). The method of claim 11, The warning light 610 is a displacement measuring device of a structure, characterized in that installed on the upper surface of the main body (100). The method of claim 1, Displacement measuring device of a structure, characterized in that the power is supplied by a solar generator installed in the structure (1) or adjacent to the structure (1).

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