KR100854134B1 - Position variation measuring apparatus - Google Patents

Abstract

A displacement measuring device for checking safety of an inclined structure is provided to facilitate the measurement of the displacement of the inclined structure and to reduce time taken to check the safety. A displacement measuring device includes a horizontal frame(11), a leveler(12), and an insertion part(13). The leveler is provided at the upper portion of the horizontal frame. The insertion part extends from one side of the horizontal frame. The insertion part has a first coupling hole(13a). A vertical frame(15) includes a fitting part(14) having a second coupling hole(14a). A gradient measuring unit(20) has one side coupled to the fitting part of the vertical frame and the other side in contact with the horizontal frame.

Description

Displacement measuring apparatus for safety diagnosis of inclined structures

The present invention is for the safety diagnosis of the inclined structure, more specifically, a horizontal frame, a horizontal system provided on the upper portion of the horizontal frame, and the configuration extending downward from one side of the horizontal frame vertically, one side on both sides A vertical frame formed by inserting one fastening hole, the lower part of which includes a fitting part formed of two fastening holes, and one side is coupled to the fitting part of the vertical frame to be rotated, and the other side is one side of the horizontal frame. And a central part of the center measuring part including a gradient measuring table that forms a movable coupling part, an adjustable part that is coupled to the movable coupling part and an insertion part and adjusts the slope of the gradient measuring table, and is coupled to both sides of the fitting part and measures the slope of the gradient measuring table. It relates to a displacement measuring device for the safety diagnosis of the inclined structure, characterized in that it comprises a measuring unit.

In general, an instrument for measuring or measuring the tilt of a reference plane is called a clinometer, and there are various kinds of such inclinometers according to its use and method.

As a representative example, the tiltometer is used to measure how the surface slope changes relatively slowly. The first method uses two buckets at a constant distance of several tens to hundreds of meters. , Connect the bucket to the tube, and then fill the bucket with water. Subsequently, when the difference in the water level in the two buckets is measured with a micrometer, the slope change of the ground surface can be known.

The second method is to use horizontal shaker with a long period. A 1g weight is attached at one end of amorphous quartz rod or invar and a small mirror is installed near the center. When the slant of the surface is measured by hanging it from the top and the bottom with a thin crystal about 0.01 mm in diameter, the direction of the horizontal bar is changed in the surface of which the slope of the ground is changed. The displacement of the horizontal bar is reflected by the mirror, and when the image is projected on the photosensitive paper placed about 1m away, the movement of the shaker is sufficiently enlarged, thus making accurate measurement.

However, the above-described inclinometer has a problem in that the method of measuring the inclination is very complicated, and additional manufacturing equipment for measuring the inclination requires a lot of manufacturing cost. In particular, the ground slope measurement in the construction phenomenon takes a lot of time due to the complex measurement equipment using mechanical, electrical principles, there is a problem that the construction is delayed.

In addition, such an inclinometer has a problem that it is not possible to easily measure the inclination changes in the inclined structure.

On the other hand, the slope of the ground is expressed in a number of ways, such as civil engineering and building construction sites, looking at the method of expressing the slope of each conventional construction site as follows.

First, the slope of excavation and fill slope at the civil engineering site is expressed as 1: X. The actual slope value is 1 / X, which is the ratio of the vertical distance to the horizontal distance. The reason why the slope is expressed as 1: X is that when comparing the slopes of different grounds, if the reference value is set to 1 and the corresponding slope is expressed, the slopes of the respective grounds can be easily grasped. In another construction site, a road construction site, the ground slope of the road is expressed as the ratio of the vertical distance to the horizontal distance, that is, "%", and the angle of the structure at the construction site is expressed as "°".

As described above, in the conventional construction site, since it is expressed in various ways in expressing the inclination value of the reference plane of a certain structure, there is a problem of bringing a lot of confusion and converting it into a required value.

SUMMARY OF THE INVENTION An object of the present invention is to provide a displacement measuring device for safety diagnosis of an inclined structure, which can measure the displacement measurement of the inclined structure immediately in the field and provides ease of displacement measurement in order to diagnose the safety of the inclined structure.

An object of the present invention as described above is a horizontal frame, a horizontal system provided on the upper portion of the horizontal frame, and a configuration extending vertically downward from one side of the horizontal frame, one side of the insertion portion formed with one fastening hole on both sides It is provided, the lower part is a vertical frame formed by providing a fitting portion forming two fastening holes on both sides, one side is coupled to the fitting portion of the vertical frame is rotated, the other side is interviewed with one side of the horizontal frame, the center is a mobile coupling And a measuring unit coupled to both sides of the fitting part and coupled to both sides of the fitting part, and having a gradient measuring table formed with a part, coupled to the movable coupling part and the inserting part, and adjusting the inclination of the gradient measuring table. It is achieved by a displacement measuring device for the safety diagnosis of the characterized inclined structure.

According to the displacement measuring device for the safety diagnosis of the inclined structure according to the present invention, it is easy to carry, the displacement measurement of the inclined structure can be easily performed, the safety diagnosis time of the inclined structure is shortened.

Hereinafter, with reference to the accompanying drawings showing a preferred embodiment of the present invention will be described in detail.

The present invention comprises a horizontal frame 11, a horizontal system 12 provided on the upper portion of the horizontal frame 11, and a configuration extending vertically downward from one side of the horizontal frame 11, one side on both sides 1 A vertical frame 15 formed by providing an insertion part 13 having a fastening hole 13a, and having a fitting part 14 having two fastening holes 14a formed at both sides thereof, and one side of the vertical part Is coupled to the fitting portion 14 of the frame 15 is rotated, the other side is interviewed with one side of the horizontal frame 11, the central portion is a gradient measuring table 20 formed a movable coupling portion, and inserted into the movable coupling portion It is coupled to the portion 13 is configured to include an adjusting portion for adjusting the inclination of the gradient measuring table 20, and the measuring portion is coupled to both sides of the fitting portion 14 to measure the slope of the gradient measuring table 20. .

The horizontal system 12 is provided with a boundary line 12a on both sides, and includes a liquid including bubbles 12b therein and is provided on the upper portion of the horizontal frame 11. The liquid is a bubble 12b contained therein and has a color-added structure for improving discriminating power, and can be leveled according to the position of the bubble 12b with respect to the boundary line 12a.

The vertical frame 15 is configured to extend downward from one side of the horizontal frame 11 vertically, the middle portion is provided with an insertion portion 13 formed with one fastening hole 13a on both sides, the lower portion on both sides The fitting part 14 which formed the two fastening hole 14a is provided.

As shown in FIG. 2, the insertion part 13 is open in a rectangular shape in the middle of the vertical frame 15, and one fastening hole 13a is formed at both sides of the open structure.

The fitting portion 14 is a structure provided in the lower portion of the vertical frame 15, and has an open structure in a rectangular shape like the inserting portion 13, but also has a structure in which the lower side is open and two fastening holes 14a are formed at both sides. It is.

Gradient measuring table 20 is one side is coupled to the fitting portion 14 is rotated, the other side is configured to be interviewed with one side of the horizontal frame 11, the movable portion to keep the insertion portion 13 in the center of the horizontal It is the structure which formed the coupling part. Here, one side of the gradient measuring table 20 is formed with holes (20a) on both sides in order to couple to the fitting portion (14).

One side of the gradient measuring table 20 is formed with a gradient measuring base 21 protruding from one side of the gradient measuring table 20. One side of the gradient measuring base 21 should be parallel to the other side of the gradient measuring base 20 and it is preferable to use a durable material.

The movable coupling part has a configuration in which the coupling pieces 22 provided on both sides of the gradient measuring table 20 in the longitudinal direction and the guide grooves 23 are formed inside the gradient measuring table 20 to form the coupling pieces 22. One side is formed with a coupling hole (22a) and the lower portion is formed with a guide bar (22b). Guide grooves 23 are formed in the same shape as the guide bar (22b) of the coupling piece 22, the predetermined length is formed on both sides in the longitudinal direction of the gradient measuring table 20, guide bar (22b) of the coupling piece (22) It is formed larger than the size of.

The adjusting part is composed of a fixing piece 31, the adjusting table 32, the fixing piece 31 is formed by forming a through-hole 31a having a thread formed therein and fixing holes 31b at both sides, and adjusting Base 32 is coupled to the coupling piece 22 of the movable coupling portion and a thread is formed on the outer periphery of the center portion is coupled to the through-hole 31a of the fixing piece 31, the other side is the adjustment piece 32a The coupling piece 22 is moved along the guide groove 23 by the rotation of the adjusting piece 32a.

The measuring unit has a rubber plate on one side so as to be interlocked with the measuring plate 41 and the fixed plate 42 having the same shape as the measuring plate 41 and the gradient measuring table 20 attached to both sides of the fitting portion 14. A pin 43 which is provided with a packing 43a and is forcibly fitted into the hole 20a of the gradient measuring table 20, and the measuring plate 41 and the fixing plate 42 are fixed to both sides of the fitting portion 14. And a bearing bolt 44 which is coupled by a nut through the pin 43, the measuring plate 41, the hole 20a of the gradient measuring table 20, and the fixing plate 42. The plate 41 is mounted on one side of the fitting portion 14 of the vertical frame 15, the fixed plate 42 is mounted on the other side of the fitting portion 14, and pin 43 for interlocking with the gradient measuring table 20. ) Is coupled to the scale display side of the measuring plate 41 is interlocked with the gradient measuring table (20).

Here, the pin 43 is interlocked with the gradient measuring table 20 by providing a rubber packing 43a (a part of which is not surrounded by the whole) on one side and forcibly fitting into the hole 20a of the gradient measuring table 20. will be.

Displacement measuring device for the safety diagnosis of the inclined structure configured as described above, first contact the gradient measurement reference base 21 of the gradient measuring table 20 on the inclined surface of the inclined structure to be measured, and then adjust the adjusting piece 32a of the adjustment unit. By rotating and checking the bubble 12b of the horizontal system 12 and leveling it, the inclination of the inclined structure can be measured.

The safety diagnosis of the inclined structure is then performed by measuring the inclination of the inclined structure in the same manner as above and comparing it with the previously measured measured value.

Although the present invention has been described in connection with the preferred embodiment, those skilled in the art will be able to easily make various changes and modifications without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation, and the true scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the equivalent scope are included in the present invention. Should be interpreted as.

1 is a view showing a displacement measuring device for the safety diagnosis of the inclined structure according to the present invention,

2 is an exploded perspective view of FIG. 1;

3 is a cross-sectional view taken along line A-A of FIG.

4 to 6 is a view showing an example of the use of the displacement measuring device for the safety diagnosis of the inclined structure according to the present invention.

<Description of Symbols for Main Parts of Drawings>

11: horizontal frame 12: level

13: insertion part 14: fitting part

15: vertical frame 20: gradient measuring table

21: Gradient measurement reference table 22: Join

23: guide groove 31: fixing piece

32: adjuster 41: measuring plate

42: fixing plate 43: pin

Claims (2)

Horizontal frame 11; A horizontal system 12 provided above the horizontal frame 11; It is configured to extend vertically downward from one side of the horizontal frame 11, one side is provided with an insertion portion 13 formed with one fastening hole (13a) on both sides, the lower portion of the two fastening holes (14a) on both sides Vertical frame 15 formed by providing a fitting portion 14 is formed; One side forms a hole 20a to be coupled to the fitting portion 14 of the vertical frame 15, the other side is interviewed with one side of the horizontal frame 11, and both sides of the central portion have a coupling hole 22a at one side. The lower portion includes a coupling piece 22 formed by forming a guide bar 22b, and a movable coupling part formed by forming a guide groove 23 that becomes a movement path of the guide bar 22b inside the center portion. Gradient measuring table 20; One end is combined with the engaging piece 22 of the movable coupling portion, the other end is formed with a control piece (32a) and the outer side of the longitudinal direction of the control rod 32 is formed with a male screw, the male screw formed on the control table (32) Fixing holes 31b are formed at both sides to be coupled to the through-hole 31a having the internal thread corresponding to the male screw shape and the one fastening hole 13a of the insertion part 13 to accommodate a part of the site. Adjusting portion including a fixed piece 31 made; Rubber packing on one side so as to be interlocked with the measuring plate 41 and the fixed plate 42 of the same shape as the measuring plate 41 and the gradient measuring table 20 are displayed attached to both sides of the fitting portion 14 A pin 43 which is forcibly fitted into the hole 20a of the gradient measuring table 20, and the measuring plate 41 and the fixing plate 42 are fixed to both sides of the fitting portion 14. Gradient measuring platform 20 including a pin 43, a measuring plate 41 and a bearing bolt 44 through the holes 20a and the fixing plate 42 of the gradient measuring table 20 and coupled by a nut. Measuring unit for measuring the slope of the; Displacement measuring device for the safety diagnosis of the inclined structure, characterized in that comprises a. The method of claim 1, One side of the gradient measuring table 20 is a displacement measuring device for the safety diagnosis of the inclined structure, characterized in that the gradient measuring base 21 is formed.

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