KR100704430B1 - Measuring instrument of main squared timber in pylon - Google Patents

Abstract

The present invention relates to a plinth ash installation measuring device of a transmission and distribution tower, and more specifically, the installation standard dimension specified when installing plywood material, which is the basic steel tower base material, when constructing a quadruple steel tower for processing transmission and distribution. The present invention relates to a measuring device for installing the plinth of the transmission and distribution tower, which can improve the workability and construction quality of the steel tower construction by allowing the measurement to be performed quickly and precisely.

The present invention is a measuring plate installation measuring device for measuring the tilt and rotation of the pillar material of the transmission tower for power distribution, measuring plate (11) formed by cutting by a predetermined length at a vertex to be orthogonal to the diagonal on a square plate (11) ) And magnets 22 and 24 attached to the cutting edges 26 so as to be adjacent to the cutting edges 26 on the bottoms of the two sides connected to the cutting edges 26.

Transmission and distribution, steel tower, shell material, rotation, tilt, error, measuring instrument

Description

MEASURING INSTRUMENT OF MAIN SQUARED TIMBER IN PYLON}

1 is a perspective view of a shell material installation measuring device of a transmission and distribution tower according to an embodiment of the present invention,

Figure 2 is a bottom view of the shell material installation measuring device of the transmission and distribution tower according to an embodiment of the present invention,

3a and 3b is an explanatory diagram for using the plinth ash installation measuring device of the transmission and distribution tower according to an embodiment of the present invention,

4 is a schematic configuration diagram of a general transmission and distribution tower,

5a to 5c are explanatory diagrams for measuring the plinth material installation state of a conventional transmission and distribution tower,

6 is a plinth ash installation measuring device of a conventional transmission and distribution tower,

Figure 7a and 7b is an explanatory diagram for using the plinth ash installation measuring device of the transmission and distribution tower of FIG.

<Description of Symbols for Main Parts of Drawings>

10, 50: plinth mounting measuring instrument 11: measuring plate

12: tilt measurement unit 13, 15: diagonal

14: rotation measuring unit 16, 18: steel tower member measuring unit

17, 19: equilateral 22, 24: magnet

26: cutting edge 28: tolerance table

30: plinth 31: top end

38: inner bend 33: anchor block

35: concrete 37: measuring point

40: actual weight 45: pylon center point

60: pylon center surveyor

The present invention relates to a plinth ash installation measuring device of a transmission and distribution tower, and more specifically, the installation standard dimension specified when installing plywood material, which is the basic steel tower base material, when constructing a quadruple steel tower for processing transmission and distribution. The present invention relates to a measuring device for installing the plinth of the transmission and distribution tower, which can improve the workability and construction quality of the steel tower construction by allowing the measurement to be performed quickly and precisely.

In general, as shown in FIG. 4, the four-sided steel tower for processing transmission and distribution has a square in plane and a plurality of square angles are bolted while maintaining a constant inclination in the direction of the diagonal center. It is built to maintain bearing capacity by fastening, and it is a grid-type structure that secures the power line by installing branches appropriately on the upper part of the tower, so that a lot of technology, time and effort are required to design, manufacture and install the structure. Structure.

The steel tower is largely divided into an upper member and a lower member, and the lower member is mainly buried underground, and the lower member is formed of a base member. The main shaft of the lower member is based on the pillar material 30 composed of four columns. Therefore, since the pillar material 30 is a structure in which the stress supporting four pillars such as the main material continuously connected on the ground is to be most stably combined and constructed, it should be safely installed by the dimensions defined by the individual groups.

In other words, according to the steel tower construction standard, the lower parts of the steel tower are installed in four independent places, and the facility error range of the steel pylon plinth 30, which is the basis thereof, is within ± 5 mm at four elevations, and the surface distance is within ± 0.1%. , Diagonal distance is less than 0.1%, slope is within ± 2mm when the length of the plinth is 5m, and within the range of ± 3mm when the length of the plinth is more than 5m, the rotation distance of the plinth is within 1mm. The superstructure can be easily assembled and satisfies the most stable component as a whole support.

In order to measure the angle error of a conventional conventional base plinth to satisfy the steel tower construction standard, first, as shown in FIG. 5a, the four-sided plane and the diagonal distance are measured with a tape measure, and the inclination of the plinth 30 is shown in FIG. As shown in 5c, the actual weight 40 is taken over the inner top end 31 of the shell material 30, and the lower end of the shell material 30 and the distance 42 are calculated and measured. In addition, the height difference and the rotation of the shell material 30 is measured by installing a measuring instrument at the diagonal center 45 as shown in FIG. In other words, as shown in FIG. 5B, the point O ′ indicated by the weight 40 deviates from the point O on the diagonal of the plinth 30, so that the point O ′ is rotated clockwise in the drawing. Should be adjusted to match point O.

However, the measurement method of the angle error as described above is very cumbersome and requires a lot of assistance manpower required for the measurement, and the measuring mechanism is also gathered in a variety of types to measure the precise and accurate value was difficult to expect. In other words, three of the above five measurement items of tolerance measurement of steel tower plinths (e.g., height difference, surface distance, diagonal distance) can be easily measured by the conventional method as described above. However, the tilt and rotation measurement of the plinth which requires the most precision has a problem of being difficult to be measured in the air, a large number of manpower and a lot of equipment, and a large error occurrence rate.

In order to solve the problems as described above, Korean Patent No. 0543287 (name of the invention: iron tower shell material installation person) discloses a steel tower shell material installation person as shown in FIG.

The main shell material installation member 50 is an isosceles triangle shape, each side is formed with a scale at regular intervals, a plurality of rotations orthogonal to the vertical bisector 51 on the vertical bisector 51 of the base side 57 to reach the vertex angle The measurement scales 52, 53, 54, 55, 56 are formed and comprised. As shown in FIG. 7A, the method for measuring the rotation of the plinth material using the plinth material mounting ruler 50 as described above is to close the plinth material installation ruler 50 so as to be adjacent to the inside of the plinth material 30 and the steel tower. The distance from the center survey instrument 60 to the vertical bisector 51 is measured through the rotation measurement scales 52, 53, 54, 55, 56, and the slope of the plinth member 30 is shown in FIG. 7B. The pendulum 40 is mounted on the inner top end of the shell member 30, and one side vertex of the base 57 of the shell member installing member 50 is brought into contact with the inner portion of the shell member 30 so as to contact the inner stem 40. The slope is calculated by measuring the distance with the scale formed at the base 57.

However, in the case of using the plinth ash installation ruler 50 as described above, since the rotation measurement and the inclination measurement need to be performed separately, a lot of measurement time is required, and the plinth ash installation element 50 and the plinth ash material 30 are likely to fall. Because of this size, there is a problem that the probability of error in the measurement increases. In addition, when measuring the inclination, since the inclination of the plinth material 30 and the plinth material installation user 50 cannot be fixed, there is a problem that the inclination measurement value of the plinth material 30 fluctuates.

The present invention is to solve the above-mentioned problems, an object of the present invention is to attach a measuring device so that there is no movement by using a magnetic force in the measurement position located inside the preliminarily calculated shell material, it is possible to measure a single measurement at the measurement position It is to provide the measuring device for installing the plinth of the transmission and distribution tower that can measure the rotation and inclination of each material quickly and precisely.

The present invention is a measuring plate installation measuring device for measuring the tilt and rotation of the pillar material of the transmission tower for power distribution, measuring plate (11) formed by cutting by a predetermined length at a vertex to be orthogonal to the diagonal on a square plate (11) ), And magnets 22 and 24 attached to the cutting edge 26 to be adjacent to the bottom of two sides connected to the cutting edge 26.

In this case, the measuring plate 11 is formed of a rotation measuring unit 14 having a scale for measuring the rotational state of the plinth material on the diagonal line 15 parallel to the cutting edge 26, the rotation measuring unit A diagonal line 13 perpendicular to 14 is formed with a gradient measuring unit 12 having a scale for measuring the inclination of the pillar material, and a vertex corresponding to the cutting edge 26 and the rotation measuring unit 14. Isosceles triangles 17, 19 of the isosceles triangle formed by connecting the iron tower member specification measuring section 16, 18 is preferably formed with a scale for measuring the specification of the plinth material.

Hereinafter, with reference to the accompanying drawings will be described in detail the mounting material measuring device of the transmission and distribution tower of the present invention.

1 is a perspective view of a plinth ash installation measuring instrument of a transmission and distribution tower according to an embodiment of the present invention, Figure 2 is a bottom view of a plinth ash installation measuring instrument of a transmission and distribution tower according to an embodiment of the present invention, Figures 3a and 3b Is an explanatory diagram for using the plinth ash installation measuring device of the transmission and distribution tower according to an embodiment of the present invention.

As shown in FIG. 1 to FIG. 3B, the measuring device for installing the plinth of the transmission and distribution tower according to the preferred embodiment of the present invention is cut by a predetermined length at a vertex so as to be orthogonal to the diagonal on the square plate so that the cutting edge 26 is formed. The measuring plate 11 and the magnets 22 and 24 attached to the cutting edge 26 adjacent to the cutting edge 26 are formed on the bottom of two sides connected to the cutting edge 26.

At this time, the diagonal line 15 parallel to the cutting edge 26 is formed of a rotation measuring unit 14 having a scale for measuring the rotational state of the cast material, and a diagonal line 13 perpendicular to the rotation measuring unit 14. ) Forms a gradient measuring unit 12 is formed with a scale for measuring the slope of the cast material. In addition, the equilateral sides (17, 19) of the isosceles triangle formed by connecting the vertex corresponding to the cutting edge (26) and the rotation measuring unit (14) is a steel tower member standard measuring unit having a scale for measuring the specification of the plinth material ( 16, 18) are formed.

On the other hand, the bottom surface of the measuring plate 11, as shown in Figure 2, it is preferable that the tolerance table 28 that can be accepted when installing the plinth material is formed.

The present invention configured as described above is used as a tool for measuring the inclination and rotation of the plinth material 30 used in the construction and inspection of the steel tower foundation engraving work when constructing a steel tower for processing transmission and distribution.

In one embodiment of the present invention, the measuring plate 11 is a stainless steel having a thickness of 1.5mm, the overall shape is a square of 400mm square, and the cutting edge 26 cut one of the four corners is about 30mm Formed to a length, the measuring plate 11 is formed to be adjacent to the inside of the plinth 30 without being disturbed by the inner bent portion 38 of the plinth 30. Therefore, the magnets 22 and 24 mounted on the bottom surface of the measuring plate 11 are attached to the inner surface of the shell material 30 by magnetic force, respectively.

The inclination measuring unit 12, which starts at the midpoint of the cutting edge 26, has a measurement scale of 1 mm intervals along the diagonal line 13 with the midpoint of the cut point being constantly formed. In addition, another diagonal line 15 is formed with a grid of the rotation measuring unit 14 having a 1 mm interval from the left to the diagonal intersection point O. On the other hand, the equilateral sides (17, 19) of the measuring plate 11 is formed by the interval of 1mm for general measurement to form the steel tower member standard measuring unit (16, 18), respectively, is used for measuring the width of the steel tower member.

3A and 3B, the present invention as described above, in the case of installing the shell material 30, the measurement point 37 to be measured from the inner top end 31 of the shell material 30 To the surface of the shell material 30 and the measuring plate 11 to be attached at a right angle. At this time, the measuring point 37 is calculated in advance in the design of the length of the plinth material 30 and the steel tower. In addition, the measuring plate 11 is attached in a state in which the cutting edge 26 faces the inside of the shell material 30 and is not moved by the magnets 22 and 24.

Thereafter, in the state fixed to the anchor block 33 of the shell material 30, the actual weight 40 previously installed on the inner top end 31 of the shell material 30 indicates the inclination value specified on the measurement plate 11. Incline until you do. That is, it is inclined until the inclination value displayed on the inclination measuring unit 12 of FIG. 3B is indicated (direction of ①).

At the same time, while the actual weight 40 adjusts (rotates) both sides of the plinth material 30 to the left and right (② or ③ direction) so that the actual weight 40 coincides with the center of gravity O of the rotation measuring unit 14 of the measuring plate 11. 11) Adjust by rotating the left and right horizontally.

As described above, the present invention can be installed so that the inclination and rotation measurement of the plinth material 30 to be obtained in one operation can be more easily and quickly satisfied. In addition, if the installed tower is operated by mounting the measuring tool in the same way as above, it is possible to easily and quickly apply to the safety review of the tower by obtaining the inclination and rotation value to obtain.

Here, the bottom surface of the plinth-mounted measuring instrument 10 is indicated by the tolerance table 28 for each type of tolerance of each item of inspection for reference in construction and inspection.

By using the present invention, the measuring tool invented as described above can quickly and easily measure and install the tilt and rotation measurement of the cast iron material, which is the main measurement item in the steelwork foundation work, which is the most difficult and necessary in the workplace. Done.

In addition, the productivity can be improved because it can be measured quickly and easily even for the inspection and management of the installation after construction.

Claims (2)

In the casting material installation measuring device for measuring the tilt and rotation of the casting material of the transmission tower for power distribution, The cutting edge 26 on the bottom of two sides connected to the cutting edge 26 and the measuring plate 11 is formed by cutting a predetermined length at a vertex perpendicular to the diagonal on a square plate and the cutting edge 26 is formed. Penetrant installation measuring device of the transmission and distribution tower, characterized in that it comprises a magnet (22, 24) attached to be adjacent to. The method of claim 1, The measuring plate 11 is formed of a rotation measuring unit 14 having a scale for measuring the rotational state of the cast material on a diagonal line 15 parallel to the cutting edge 26, and the rotation measuring unit 14. The diagonal 13 perpendicular to) is formed with a gradient measuring unit 12 having a scale for measuring the inclination of the pillar material, and connects the vertex corresponding to the cutting edge 26 and the rotation measuring unit 14. An equilateral side (17, 19) of an isosceles triangle made of a pyramid member installed measuring device of a transmission and distribution tower, characterized in that the grid measuring member (16, 18) formed with a scale for measuring the specification of the plinth material.

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