KR100346853B1 - A standard measuring instrument for measure a rotating error of a pylon's pillar - Google Patents

Abstract

The present invention relates to a standard measuring device for measuring the rotational error of the pylon base material, and provided with a standard measuring device (2) capable of measuring the rotational error of the pylon base material (1), the standard measurer (2) is the front portion It is provided with a triangular measuring body (4) that is incised and has a contact area (3) of a predetermined width, the width of which increases inclined gradually from the rear to the front, and the ruler (5) which is symmetrically from side to side behind the measuring body (4) A narrow measuring surface 6 is formed, and a center line 7 is formed perpendicularly along the upper surface of the measuring body 4 from the zero point of the ruler 5 of the measuring surface 6. And a reference point 8 is displayed at the upper end of the center line 7 so that the reference point 8 coincides with the center point 10 of the pylon base material 9. ) And whether the center line 7 of the measurer body 4 coincides with each other. It is designed to improve the workability of the worker by making it easier to measure the rotational errors of the steel column casting material during the construction of the tower by standard measuring equipment. Also, it is easy to measure the angle error of the steel tower. It can be shortened, and this has the advantage of improving the construction quality of the steel tower construction.

Description

A standard measuring instrument for measure a rotating error of a pylon's pillar

The present invention relates to a measurer for measuring the rotational error of the pylon slab, in particular, when the construction of the pylon slab in the construction of a transmission line, the user's workability is improved by simply measuring the angle error of the pylon slag. It relates to a standard calibrator for measuring the rotational error of steel tower shells.

In general, a steel tower constructed to construct a transmission line is an angle lattice-type structure in which a plurality of high-voltage wire connecting members are installed to connect and connect a plurality of angles to a volut, and connect a high-voltage cable to the top of the steel tower, and design and manufacture And much time and effort is invested in installation.

In addition, four pillars supporting the steel tower are installed on the ground at the bottom of the pylon, which is called a steel tower shell material, and the steel tower is installed without error when the angle of the steel tower shell material is precisely set.

That is, according to the related regulations, the angle of error of the steel tower shell material must satisfy the standard value within ± 1mm of the design value, but this standard value is unclear, and the standard value of the rotation of the steel tower shell material is the center error length of the base of the steel tower base material. Although the length of the angle is different according to the specification of the steel base material, the error rate of rotation angle per 1mm for each steel base material standard is maximum.

By the way, it is necessary to accurately measure the angle of error of the pylon shell material, but currently there is no standardized mechanism, as shown in FIG. 1, the thread 102 is wound on the upper portion of the steel tower base material 101 as shown in FIG. The center point 103 is displayed at the center of the center, and the center point 104 is displayed inside the iron base material 101, and the center point 103 of the seal 102 and the center point of the iron base material 101 are displayed. It is to measure whether or not 104 is matched with each other.

However, the above method has a drawback in that an error occurs when selecting the center point 104 of the steel base substrate 101, and it is difficult to select the center point 103 in the seal 102, and particularly, the embossing is severe. In this case, there were difficulties such as difficult measurement.

And, as shown in Figure 2, when using the triangular 105 instead of the seal 102, the center line 106 is displayed on the upper surface of the triangular 105, the center line 106 is a pylon foundation It is to measure whether or not it is in line with the center point 104 of the ash (101).

However, when the height of the instrument and the triangular 105 is similar, it is difficult to read the scale of the center line 106, and when the tilted triangular 105 is measured in order to solve the problem, the pylon base 101 and the triangular ( 105) There is a defect that a gap occurs between the measurement, the error occurs in the measurement, and the problem of severe measurement is difficult, such as difficult measurement.

Therefore, the present invention has been devised to solve the above problems, and by shortening the angle of construction and inspection time by more easily measuring the angle error of the cast iron tower during the construction of the steel tower to improve the construction quality of the steel tower construction work The purpose is to provide a standard measurer for measuring the rotational error of pylon shells.

The present invention for achieving the above object is provided with a triangular shape of the measuring body is inclined to increase the width of the front portion is inclined toward the front from the rear while having a contact surface of a predetermined width, left and right on the rear of the measuring body A narrow measuring surface having a ruler symmetrically formed is formed, and a center line is formed perpendicularly along the upper surface of the measuring body from a zero point ruler of the measuring surface, and a reference point is displayed at an upper end of the center line. The reference point is matched with the center point of the pylon base material to measure whether or not the center point of the pylon base material and the center line of the measuring body are coincident with each other.

That is, the standard measurer having the structure described above is brought into contact with the pylon base material through the contact surface, and in this state, the reference point of the standard measurer coincides with the center point of the pylon base material, and the standard measurer emerges from the center point of the pylon base material in the fixed state. The difference between the straight line and the centerline of the standard meter can be measured by the ruler of the standard meter.

Therefore, the above-mentioned standard measurer can more easily measure the rotational error of the steel tower casting material during the construction of the steel tower, thereby improving the workability of the worker and simplifying the angle measurement of the steel tower. It can be shortened, and this has the advantage of improving the construction quality of the steel tower construction.

1 is a perspective view showing a means for measuring a rotational error of a steel tower shell material according to the prior art,

Figure 2 is a perspective view showing another embodiment of FIG.

Figure 3 is a perspective view showing a standard measuring device for measuring the rotational error of the pylon shell material according to the present invention,

Figure 4 is a perspective view of measuring the rotational error of the pylon base material using a standard measurer according to the present invention,

Figure 5 is a state diagram for measuring the rotational error of the pylon base material using a standard measurer according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Steel tower shell material 2: Standard measurer

3: contact surface 4: measuring body

5 ruler 6 measuring surface

7: center line 8: reference point

9: iron tower base material 10: center line

θ: angle of rotation of cast material

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

3 is a perspective view showing a standard measuring device for measuring the rotational error of the steel tower casting material according to the present invention, Figure 4 is a perspective view of measuring the rotational error of the steel tower casting material using a standard measuring device according to the present invention, Figure 5 It is a state diagram for measuring the rotational error of the pylon shell material using a standard measuring device according to the present invention.

Referring to the structure of the present invention by the above drawings, a standard measurer (2) is provided that can measure the rotational error of the pylon base material (1), the standard measurer (2) is cut in front of the constant It is provided with a triangular measuring body 4 having a contact surface (3) of the width is increased inclined gradually from the rear to the front, and a ruler (5) which is symmetrical from side to side behind the measuring body (4) A narrow measuring surface 6 is formed, and a centerline 7 is formed perpendicularly along the upper surface of the measuring body 4 from the zero point of the ruler 5 of the measuring surface 6, A reference point 8 is displayed at the top end of the center line 7 so that the reference point 8 coincides with the center point 10 of the pylon base material 9, thereby measuring the center point 10 and the calibrator of the pylon base material 9. It is a structure designed to measure whether the center line 7 of the body 4 is matched.

Here, the characteristics of the standard measurer (2) having the above structure is not only easy to manufacture, but also through the ruler (5) provided in the standard measurer (2) to more accurately measure the rotational error of the pylon base material (1) It can also reduce the operator's inspection time because it is easy to use.

That is, the manufacturing process of the standard measurer 2 will be described in more detail as follows.

First of all, a cube having a length of 230 mm and a length of 72 mm and a height of 72 mm is cut in the diagonal direction so that it becomes a triangular shape, and in this state, the front face is formed so that the measuring surface 6 having a thickness of about 10 mm is formed on the rear face. The upper portion connecting the vertices (72 mm) of the inclined section is inclined, and after drawing the center line (7) perpendicular to the center of the upper surface of the measuring body (4) manufactured as described above, the measuring surface (6) Draw 30 mm of rulers 5 which are respectively symmetrical to the left and right of the center line 7, and measure the measurement reference point 8 at a point of 140 mm in the direction of the center line 7 with reference to the 0 point of the center part. After that, the 10 mm point is cut at right angles to the bottom surface from the reference point 8 to form the contact surface 3 in contact with the steel tower base 9.

Therefore, since the thickness of the lower surface of the standard measuring device 2 manufactured as described above is 72 mm, the standard measuring device 2 eliminates the flow of the standard measuring device 2 in close contact with the base material 9, and also Since the thickness (10 mm) and the inclination are maintained, it is easy to check the center line (7) during measurement, and if the count is severe, the standard measurer (2) can be rotated in reverse.

On the other hand, as shown in Figure 5 is a method for measuring the rotational error of the pylon base material (1) using the standard measuring device (2), the standard measuring device (2) in contact with the steel tower base material (9) (3) In contact with the reference point 8 of the standard measurer 2 and the center point 10 of the pylon base material 9 in this state, and the pylon base material 9 with the standard measurer 2 fixed. The difference between the straight line coming from the center point 10 of the center and the center line 7 of the standard measuring device 2 can be measured by the ruler 5 of the standard measuring device 2.

That is, when the straight line coming out from the center point 10 of the iron base material 9 and the center line 7 of the standard measurer 2 are different from each other, the angle of rotation of the shell material θ appears by these lines. Since the angle of rotation of the shell material θ can be calculated by the ruler 5 of the standard measuring device 2, the angle of rotation of the pylon shell material 1 can be measured.

Therefore, as described above, it is possible to easily measure the rotational error by closely attaching the standard measurer 2 to the steel tower base material 9, thereby improving the construction quality during the construction of the steel tower.

As described above, according to the standard measurer for measuring the rotational error of the steel tower casting material according to the present invention, it is possible to more easily measure the rotational error of the steel tower casting material during the construction of the tower by the standard measurer to improve the workability of the worker In addition, it is possible to shorten the angle construction and inspection time by simplifying the measurement of the angle error of the steel tower, thereby improving the construction quality of the steel tower construction work.

Claims (1)

The front part is provided with a triangular measuring body 4 which has a contact surface 3 of a predetermined width and is gradually inclined from the rear toward the front, and has a triangular measuring body 4 which is symmetrically lateral to the rear of the measuring body 4. A narrow measuring surface 6 with (5) is formed, and the center line 7 is drawn perpendicularly along the upper surface of the measuring body 4 from the zero point of the ruler 5 of the measuring surface 6. Is formed, and a reference point 8 is displayed at the upper end of the center line 7 so that the reference point 8 coincides with the center point 10 of the pylon base material 9 so as to be the center point of the pylon base material 9. Standard measuring instrument for measuring the rotational error of the pylon cast iron adapted to measure whether (10) and the center line (7) of the measuring body (4) match.