KR20010018165A - Apparatus for detecting verticality and deformation in vertical structure and apparatus for setting precondition of the above mentioned apparatus - Google Patents

Abstract

PURPOSE: A verticalness degree and deformation detector of a vertical structure and an initial condition establishing device are provided to exactly detect the deformation or verticalness degree of the vertical structure and to regulate a zero point to the detector. CONSTITUTION: A verticalness degree and deformation detector consists of a mobile trolley(1) travelling along a side front face of a vertical structure; a detection box(9) traveled by a travelling wheel(3); a deformation plate fixed on an upper part of the detection box; a weight moved along a guide plate within an interval range of a deformation limitation rod in a gravity direction; a strain gauge for transmitting the curving deformation of the deformation plate to a strain amplifier as an electric signal; and a detector(12) for detecting the verticalness degree and deformation of the vertical structure by analyzing an amplification signal of the strain amplifier. After initial condition establishment of a deformation detector, the mobile trolley is adhered to the vertical structure by using the magnetic force of a travelling wheel(2). The mobile trolley is slowly moved up and down along the side front face of the vertical structure. Resilient deformation occurs on the deformation plate by the weight. The strain gauge transmits the resilient deformation to the strain amplifier through a terminal. The strain amplifier amplifies the electric signal of the strain gauge and transmits the signal to the detector. Then, the detector detects the verticalness degree and deformation of the vertical structure in a standard capacity by analyzing the amplification signal.

Description

FIELD OF DEVELOPMENT AND DEFORMATION IN VERTICAL STRUCTURE AND APPARATUS FOR SETTING PRECONDITION OF THE ABOVE MENTIONED APPARATUS

The present invention relates to a vertical structure and deformation detection device of the vertical structure and the initial condition setting device used in the same, in particular quantitatively detect the degree of deformation due to the change in the vertical degree or partial bending of the vertical structure fixed perpendicular to the ground And it relates to the verticality and deformation detection device of the vertical structure for adjusting the zero point for the detection device used therein and the initial condition setting device used therein.

In general, vertical structures fixed vertically with respect to the ground may gradually change in verticality due to various reasons, and may be deformed due to concentrated load or partial bending due to surrounding heat. .

In order to detect the verticality and deformation of such a vertical structure, conventional optical machinery used in civil engineering is conventionally used, but this optical equipment is very expensive and can be operated only by a separate expert and needs to be measured at a long distance. In this regard, only macroscopic results are obtained, and inaccurate results are obtained by representing the overall results with only a few results.

The present invention can accurately and quantitatively detect the degree of deformation due to the vertical degree change or partial bending of the vertical structure fixed perpendicular to the ground, and the vertical degree of the vertical structure which can adjust the zero point with respect to such a detection device. It is an object of the present invention to provide a deformation detection device and an initial condition setting device used therein.

1 is a state diagram showing a deformation state of the vertical structure;

2 is a perspective view showing a vertical view and the deformation detection device of the vertical structure according to the present invention;

3 is a front view showing a vertical view and the deformation detection device of the vertical structure according to the present invention;

Figure 4 is a side view showing the vertical and deformation detection apparatus of the vertical structure according to the present invention;

5 is a perspective view showing a detection box of the vertical structure and deformation detection device of the vertical structure according to the present invention;

6 is a state diagram showing the vertical operation of the vertical structure and the detection operation of the deformation detection apparatus according to the present invention;

7 is a perspective view showing an initial condition setting apparatus according to the present invention;

8 is a graph showing the correlation between the vertical angle of the vertical structure and the output voltage of the strain gauge and the inclination angle when setting the initial conditions of the strain detection apparatus according to the present invention.

<Explanation of symbols for main parts of drawing>

DESCRIPTION OF SYMBOLS 1 Moving cart 2 and 3 Traveling wheel 4: Support 5: Spring 6: Stopper nut 7: Vertical structure 8: Upper and lower support 9: Detection box 10: Cable terminal 11: Strain amplifier 12: Detector 30: Leader 31: Angle adjustment Shaft 32: Base 33: Adjustment nut 34: Guide rod 35: Push rod 36: Angle division

In order to achieve the above object, the present invention includes a moving cart that travels along the measurement surface of the vertical structure by the driving wheel of the permanent magnet; A detection box installed in the center of the moving trolley and installed to travel by a driving wheel in a state in which the measuring surface of the vertical structure is in close contact with each other; A deformable plate fixedly mounted on an upper side of the detection box by a push pin; A weight which is fixed to the lower portion of the deformation plate and installed to move in the direction of gravity within the interval of the deformation limiting rod along the guide plate; A strain gauge installed to detect the bending deformation of the deformation plate and transmit the electrical deformation signal to the strain amplifier; The vertical structure and strain detection device of the vertical structure, characterized in that consisting of a detector which is installed to analyze the amplified signal of the strain amplifier and finally to detect the vertical degree and the bending deformation of the vertical structure.

In addition, the present invention and the fixing rod is fixed to one side of the upper surface of the base; A reference table coupled to the bracket fixed to the other side of the upper surface of the base so as to be rotated about a rotation axis, the inclination angle being measured by an angle scale indicated by the leader line, and a base plate attached to the bottom side at a right angle; A guide rod installed to elastically push the reference bar by using the push rod while penetrating through the fixing bar; Initially characterized in that the tip is connected to the reference base by a connecting link while being installed through the fixing rod, the angle adjusting shaft is installed to adjust the inclination of the reference table with a control nut screwed to the rear end side; Provide a condition setting device.

The configuration of the present invention will be described with reference to the drawings.

Figure 2 is a perspective view showing a vertical view and the deformation detection device of the vertical structure according to the present invention, Figure 3 is a front view showing a vertical view and deformation detection device of the vertical structure according to the present invention, Figure 4 is a vertical view according to the present invention Figure 5 is a side view showing the verticality and deformation detection apparatus of the structure, Figure 5 is a perspective view showing a vertical view of the vertical structure and the detection box of the deformation detection apparatus according to the invention, Figure 6 is a vertical view of the vertical structure and FIG. 7 is a perspective view showing an initial condition setting device according to the present invention, and FIG. 8 is a vertical view of a vertical structure and a strain gauge at the initial condition setting of the deformation detection device according to the present invention. Is a graph showing the correlation between the output voltage and the slope angle.

The mobile trolley 1 according to the present invention is installed to be movable in a state in close contact with the vertical structure 7 by the driving wheel 2 made of permanent magnets.

In addition, the detection box 9 embedded in the center of the moving trolley 1 is installed to be movable along the vertical structure 7 together with the moving trolley by the traveling wheel 3.

At this time, a pair of supports 4 are fixedly attached to the moving cart 1 so as to be positioned above the detection box 9, and the pair of upper and lower support bars 8 fixed vertically to the upper surface of the detection box 9 are springs. It penetrates perpendicularly to the center of the support 4 so that it may be elastically moved by (5).

Here, the stopper nut 6 screwed to the upper end of the upper and lower supporting rods 8 adjusts the elastic force of the spring 5.

On the other hand, the detection box (9) inside the completely closed state is attached to the fixing pin 14 in the center of the inner upper surface, the lower side of the fixing plate 14, the deformation plate 15 and the weight (13) The connection is fixed.

At this time, the strain gauge (Strain Gauge) 16 is attached to the deformation plate 15, the strain measured in the strain gauge is an electrical signal to the strain amplifier 11 through the terminal 10 connected by the cable 17 Is sent to.

Here, the strain amplifier 11 amplifies the electrical signal of the strain gauge 16 and transmits it to the detector 12. The detector 12 analyzes the amplified signal of the strain amplifier and finally the vertical structure 7 The verticality and curvature will be detected quantitatively.

The weight 13 guided by the pair of guide plates 18 fixedly installed on the inner side of the detection box 9 is limited by the strain limiting rod 19.

That is, the strain limiting rod 19 penetrating both side walls of the detection box 9 in a screwed state restricts the weight 13 to move within the gap therebetween, and the movement range of the weight is deformed plate ( Determined within the elastic limit of 15).

In other words, when the weight 13 is excessively moved in the direction of gravity and the deformation plate 15 causes plastic deformation beyond the elastic limit, the strain gauge 16 is in an unusable state.

At this time, the interval between the strain limiting bar 19 to determine the moving range of the weight 13 is adjusted by the adjustment nut (20).

Furthermore, when a fluid such as grease is filled into the completely sealed detection box 9, the filling fluid not only absorbs small vibrations around it but also gives resistance to the weight 13 moving in the direction of gravity, thereby deforming the deformation plate. The sudden deformation of (15) is prevented.

On the other hand, the above-described deformation detection device sets an initial condition for determining the correlation between the output voltage of the strain gauge 16 and the inclination angle of the vertical structure before detecting the deformation of the vertical structure (7).

The initial condition setting device for setting the initial condition of the deformation detection apparatus according to the present invention is a bracket 27 is vertically fixed to one side of the upper surface of the base 32, the bracket fixedly attached to the other side of the upper surface of the base (32) The reference table 21 is installed in the 26 to rotate about the rotation shaft 28.

In particular, the angular scale 36 displayed on the bracket 26 is displayed at 1 ° intervals, and the angle of the angular scale indicated by the indicator line 30 of the reference table 21 represents the inclination angle of the reference table.

At this time, the guide rod 34 which is installed to elastically move by the spring 24 while penetrating horizontally to the upper side of the fixing base 27, the push rod 35 is fixedly attached to the front end thereof, and the adjustment nut on the rear end side thereof. (33) is screwed in.

Here, the push rod 35 is elastically pushed out the reference base 21 to be spaced apart from the fixed base 27.

In addition, the angle adjusting shaft 31 penetrates horizontally to the fixed base 27 so as to be positioned at the lower side of the guide rod 34, and the tip thereof is connected to the reference base 21 by the connecting link 29. The adjusting nut 25 is screwed on the rear end side.

Accordingly, when the length of the angle adjusting shaft 31 is changed by using the adjusting nut 25, when the reference table 21 is rotated about the rotating shaft 28, the angle scale 36 indicated by the leader line 30 is changed. It will be tilted at an angle.

In addition, the base plate 22 is fixedly attached to the lower end side of the base 21 so that the base plate 22 is perpendicular to the base surface, and the base plate 23 is installed to check the absolute horizontal state.

The operation of the present invention will be described below.

First, the initial conditions of the deformation detection apparatus are set before detecting the verticality and the partial curvature of the vertical structure 7 using the deformation detection apparatus.

To this end, the base 32 of the initial condition setting device is placed on a flat place, and then the horizontal state of the support plate 22 is checked using the level gauge 23, and the support line 30 is in a state where the support plate is horizontal. It is checked whether or not the angular scale 36 is pointing to zero.

At this time, when the leader line 30 correctly points to zero of the angular scale 36, it is determined that the base 32 is in a horizontal state, but the leader line 30 points to a value other than zero of the angular scale 36. The initial value is set as much as the angle value.

When the installation of the initial condition setting device is completed, the moving cart 1 is seated on the measurement surface of the reference table 21 using the driving wheel 2 of the permanent magnet.

At this time, when the inclination angle of the reference stage 21 is changed while tightening or releasing the adjusting nut 25, the voltage output from the strain gauge 16 is changed accordingly.

Here, the correlation between the inclination angle of the reference stage 21 measured at the angular scale 36 and the output voltage of the strain gauge 16 is represented by a straight line as shown in FIG.

In this way, when the initial condition for determining the correlation between the tilt angle of the reference stage 21 and the output voltage of the strain gauge 16 is set, the amount of deformation of the vertical structure 7 is quantitatively determined by the detector 12 according to the initial condition. Will be calculated.

On the other hand, when the initial condition setting of the deformation detection apparatus is completed, the moving cart 1 is bonded to the vertical structure 7 to be measured by using the magnetic force of the driving wheel 2, and then the moving cart is attached to the measuring surface of the vertical structure. As a result, it will be moved to Shanghai.

At this time, the detection box 9 travels in a state in which the detection box 9 is elastically in close contact with the measuring surface of the vertical structure 7 by the spring 5, and the weight 13 in the detection box 9 coincides with the gravity direction. Move as much as possible.

Here, the elastic deformation is generated in the deformation plate 15 by the weight 13, which is moved within the interval range of the strain limiting bar 19 in accordance with the guide plate 18, it is measured by the strain gauge 16 The electrical signal is transmitted to the strain amplifier 11 through the terminal 10 connected by the cable 17.

Here, the strain amplifier 11 amplifies the electrical signal of the strain gauge 16 and transmits it to the detector 12, and the detector 12 analyzes the amplified signal of the strain amplifier and finally the vertical structure 7 The verticality and curvature will be detected quantitatively.

The present invention is capable of early maintenance of the vertical structure by quantitatively calculating the deformation state of the vertical structure, thereby providing an effect of preventing the accident of large equipment.

Claims (2)

A moving trolley 1 which is driven along the measurement surface of the vertical structure 7 by the traveling wheel 2 of the permanent magnet; A detection box (9) installed in the center of the moving cart (1) and installed to travel by the driving wheel (3) in a state in which the measuring surface of the vertical structure (7) is elastically in close contact; A deformable plate 15 fixedly embedded on the upper side of the detection box 9 by a fixing rod 14; A weight 13 which is fixed to the lower portion of the deformation plate 15 and installed to move in the direction of gravity within the interval range of the deformation limiting rod 19 along the guide plate 18; A strain gauge (16) installed to detect the bending deformation of the deformable plate (15) and transmit it to the strain amplifier (11) as an electrical signal; Vertical detector and strain detection device of the vertical structure characterized in that consisting of a detector (12) which is installed to quantitatively detect the verticality and bending deformation of the vertical structure (7) by analyzing the amplified signal of the strain amplifier (11) . A fixed base 27 fixed to one side of an upper surface of the base 32; It is coupled to the bracket 26 fixed to the other side of the upper surface of the base 32 to be rotated about the rotation axis 28, the inclination angle is measured by the angle scale 36 indicated by the leader line 30, the bottom side A base 21 to which the support plate 22 is attached at a right angle to the base plate 21; A guide rod (34) installed to elastically push the reference stage (21) using the rod (35) while penetrating through the holder (27); The inclination of the reference base 21 with the adjustment nut 25 which is installed through the fixing stand 27 and the front end thereof is connected to the reference base 21 by the connecting link 29, and screwed to the rear end side thereof. Initial condition setting device, characterized in that consisting of an angle adjustment shaft 31 is installed to adjust.