KR100911901B1 - Gradient measuring apparus of power-transmission tower - Google Patents

Abstract

An apparatus for measuring gradient of a transmission tower is provided to measure the gradient of an actual fixture inclining accurately using a weight plumb. An apparatus for measuring gradient of a transmission tower comprises a housing(10), a right and left slope measurement unit and a front and back slope measurement unit. The right/left and the front/back slope measurement unit are installed inside the housing. A fixing hole(11) for fixing on a tower(100) with a band(12) is formed at the housing. A top and a bottom opening(13,14) are formed on the top and bottom of the housing. A first rotation panel(20) for right and left slope measurement is exposed to the top opening. A first angle needle(22) rotates between the edge of the first rotation panel and the top opening. A second rotation panel(30) for the front and back slope measurement is exposed to the bottom oepining part. A second angle needle(32) rotates at the edge of the second rotation panel.

Description

Tilt measuring device of transmission line steel tower {GRADIENT MEASURING APPARUS OF POWER-TRANSMISSION TOWER}

The present invention relates to an inclination measuring device of a transmission line pylon, and more particularly, a transmission line that can accurately measure the inclination and the left and right inclination at the same time in the actual direction of the fixture from the earth center regardless of whether the outer circumference of the fixture itself is inclined. It relates to a device for measuring the tilt of a pylon.

In addition, the present invention can correct the actual inclination of steel pipes and general steel towers made to have a constant angle, such as tower shape or conical shape in real time to the tilt measuring apparatus of the transmission line pylon that can accurately measure the current tilt state It is about.

Fixtures such as steel pipe towers and ordinary steel towers supporting the transmission line should always be installed vertically towards the center of the earth. To this end, it is possible to grasp whether the construction has been carried out vertically during construction, and to accurately examine the steel pipe tower and general steel tower inclined due to typhoon or ground collision of the vehicle by evaluating the construction data based on the steel pipe tower and steel tower slope according to the typhoon and year. Accident prevention and repair work can be carried out beforehand.

However, if the fixture is in the form of a conical inclined outer peripheral surface, there is a problem that it is difficult to measure the actual inclination of the fixture because the measuring device is already inclined when the measuring device is installed.

Therefore, a device that can adjust the angle by the tilt should be provided. In addition, it was difficult to measure the numerical value so that the slope in four directions can be seen in one direction.

Accordingly, it is an object of the present invention to provide an inclination measuring apparatus of a transmission line pylon that can accurately measure the inclination of the front and rear and left and right in the actual one direction of the fixture from the earth center regardless of whether the outer peripheral surface itself of the fixture is inclined.

delete

The above object includes: a housing which is openable and has a pair of openings formed on the front surface thereof, the housing being angled along the opening edge; A first rotating panel exposed through an opening of one side of the housing and having a support shaft protruding from the rear surface thereof; A first bearing block rotatably fitted to the support shaft; A first weight attached to an end of the support bar extending downward from the first bearing block; And a first angular guide extending from the first bearing block to the opposite side of the first weight, comprising a left and right tilt measuring unit for measuring the left and right tilts of the housing.
A second rotating panel exposed through the other opening of the housing; A first gear rotatably coupled within the housing via a second bearing block; A second weight extending downward from the first gear; And a second gear gear-coupling with the first gear and rotatably coupled to the housing via a second bearing block and having a second angle guide fixed to an edge thereof. A measuring unit; The front surface of the first rotating panel and the second rotating panel further comprises a center guide indicating the center of the earth formed to rotate in the opening and a horizontal identification portion formed in any one of the housing, the first rotating panel or the second rotating panel. Is achieved.

delete

delete

delete

delete

delete

delete

According to the above configuration, since the measuring device can be preliminarily corrected in the vertical state by using a weight toward the center of the earth at all times, the inclination of the actual fixture inclined thereafter can be accurately measured.

In addition, since the inclination of the left and right directions and the front and rear directions at the front can be seen at once, the measurement is easy.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

1 shows a state in which the tilt measuring apparatus of the transmission line steel tower of the present invention is installed.

Referring to FIG. 1, a tilt measuring device according to the present invention is mounted to a steel pipe tower and a general steel tower 100 having a constant slope of an outer circumferential surface thereof.

Tilt measuring device is composed of a housing 10 that can be opened and closed and the left and right tilt measurement unit and the post-warp measurement unit installed in the housing 10, the fixing hole 11 is formed in the housing 10, the band 12, etc. It can be fixed to the pylon and the general pylon (100).

A pair of openings 13 and 14 are formed vertically on the front surface of the housing 10, and an angle is displayed on the surface of the housing 10 along the edges of the openings 13 and 14.

For example, when the openings 13 and 14 are formed in the upper and lower portions, the upper opening 13 exposes the first rotating panel 20 for measuring left and right tilts, and the edge and the upper opening of the first rotating panel 20 are exposed. The first angle guide 22 is rotated by the gap between the 13 and 13). In addition, the lower opening 14 exposes the second rotary panel 30 for measuring the post-warming angle, and the second angle guide 32 rotates at a predetermined position of the edge of the second rotary panel 30.

The first rotating panel 20 and the second rotating panel 30 are formed to be rotated within the opening so as to correct left and right or latent depressions of the steel tower and the general steel tower 100, and the first and second rotating panels 20. (30) shows center instructions (27, 40) pointing to the center of the earth. In addition, horizontal identification parts 28 and 41 are formed on one side of the housing 10 or the surface of the first and second rotating panels 30. By the horizontal check unit 28, 41 it can be confirmed once again whether the tilt measuring device is exactly perpendicular to the ground, the horizontal check unit can be used to select from the analog level, digital level, electronic level, etc. using the bubble.

According to this structure, the user has the left and right inclination and the front and rear inclination once by the first angle guide 22 for the left and right tilt instruction and the second angle guide 32 for the front and rear tilt instruction installed on the front surface of the housing 10. You can tell. In addition, it is possible to check the actual tilt at once by calibrating the angle at the time of manufacturing the tower as a center guide before the measurement.

Figure 2 is a perspective view showing the right and left tilt measurement unit applied to the present invention.

Referring to FIG. 2, the right and left tilt measuring unit is installed to be exposed through the opening 13 of the housing 10, and includes a first rotating panel 20 and a support shaft 23 protruding from the center of the rear surface thereof. A first bearing block 21 rotatably fitted to 23, a first weight 25 attached to an end of the support bar 24 extending downward from the first bearing block 21, and a first weight; The first angle guide 22 extends from the first bearing block 21 to the opposite side of the weight 25. Here, the support shaft 23 is fixed to the housing 10 itself.

According to this configuration, when the inclination occurs in the left and right direction, the first weight 25 is always rotated as indicated by the arrow at an angle corresponding to the inclination because the first weight weight always tries to maintain the vertical state toward the earth center. At this time, since the first bearing block 21 smoothly rotates while being supported by the support shaft 23 of the first rotating panel 20, the first angle guide 22 is in a direction of rotation of the first weight 25. Rotate in reverse to point to the angular scale marked around the opening 13.

Accordingly, the measurer can know how much the current angle of the pylon and the general pylon 100 in which the left and right directions.

Figure 3 is a perspective view showing a post-warping measurement unit applied to the present invention, Figure 4 is a plan view of FIG.

Referring to FIGS. 3 and 4, the post-warping measurement unit is fixed to the first gear 35 and the first support shaft 36 on which the first support shaft 36 protrudes from the center of the rear surface thereof to support the support bar 38. The second weight (39) extending downward through the gears, the first gear 35 and the gear coupling and the second support shaft 34 protrudes in the center of the back and the second angle guide 32 is installed at a predetermined position of the edge The second gear 31 is formed.

Here, the second rotating panel 30 is attached to the front surface of the second gear 31, as described above, as a result, the second rotating panel 30 can be exposed to the lower opening (14).

In addition, the first support shaft 36 of the first gear 35 and the second support shaft 34 of the second gear 31 each have a part of the housing 10 via bearing blocks 37 and 33. (16) and (15). Portions 15, 16 of housing 10 may be, for example, brackets fixed within housing 10.

Also, preferably, the first and second gears 31 and 35 may be bevel gears, but are not limited thereto and may be gears of other structures.

According to this configuration, when the housing 10 is inclined in the front-back direction, the second weight 39 rotates as indicated by the arrow, whereby the first support shaft 36 on which the second weight 39 is fixed As a result, the first gear 35 rotates as a result. Subsequently, as the second gear 31 coupled to the first gear 35 rotates, the second angle guide 32 fixed to the edge of the second gear 31 rotates to show an angle inclined in the front-rear direction.

As described above, the bearing blocks 33 and 37 are fixed to the portions 15 and 16 of the housing 10 to support the first and second support shafts 34 and 36 while the support shafts 34 and 36 are smooth. To rotate.

It can be seen how much angle the steel pipe tower and the general steel tower 100 is tilted in the front and rear direction by the late-end measurement unit.

As can be seen from above, according to the present invention the first and second weight (25, 39) always toward the center of the earth at the time of the first installation of the measurement device, the left and right and the front and rear direction of the current steel pipe tower and general steel tower 100 The angle of inclination can be measured accurately.

In addition, it is possible to correct the inclination in the production of the steel pipe and the general steel tower 100 having a constant angle, such as tower shape or conical shape in real time, it is possible to accurately measure the current tilt state.

In addition, the person measuring the first and second angle guides 22 and 32 indicate the angles displayed at the edges of the upper opening 13 and the lower opening 14 formed on the front surface of the housing 10 at one time. You can see the slope and the forward and backward slope.

In the above, the left and right direction tilt measurement unit and the front and rear direction tilt measurement unit have been described with reference to FIGS. 2 and 3, but they may be provided in opposite configurations.

In the above description, the embodiment of the present invention has been described, but various changes can be made at the level of those skilled in the art.

For example, the first rotating panel, the second rotating panel, or the second gear may not be exposed by not forming an opening, and the housing may be configured to have a ring-shaped slot instead of the opening, and the angle guide slides along the slot. have.

Therefore, the scope of the present invention should not be construed as being limited to the above embodiment, but should be interpreted by the claims described below.

1 shows a state in which the tilt measuring apparatus of the transmission line steel tower of the present invention is installed.

Figure 2 is a perspective view showing the right and left tilt measurement unit applied to the present invention.

Figure 3 is a perspective view showing a post-warping measurement unit applied to the present invention.

4 is a plan view of FIG. 3.

Claims (7)

delete delete delete delete A housing which is openable and open and has a pair of openings, the housing being angled along the opening edge; A first rotating panel exposed through an opening of one side of the housing and having a support shaft protruding from the rear surface thereof; A first bearing block rotatably fitted to the support shaft; A first weight attached to an end of the support bar extending downward from the first bearing block; And a first angular guide extending from the first bearing block to the opposite side of the first weight, comprising a left and right tilt measuring unit for measuring the left and right tilts of the housing. A second rotating panel exposed through the other opening of the housing; A first gear rotatably coupled within the housing via a second bearing block; A second weight extending downward from the first gear; And a second gear gear-coupling with the first gear and rotatably coupled to the housing via a second bearing block and having a second angle guide fixed to an edge thereof. A measuring unit; A center guide indicating a center of the earth formed to rotate within the opening on the front surface of the first and second rotating panels; The tilt measuring apparatus of the transmission line pylon, characterized in that it further comprises a horizontal identification portion formed in any one of the housing, the first rotating panel or the second rotating panel. delete delete

Images