KR20110068198A - Testing device of composite insulator - Google Patents

Abstract

PURPOSE: A bend test device for a composite insulator is provided to prepare a smooth and quick bend test by conveying a composite insulator to the exact location with simple operation using an unloading unit. CONSTITUTION: A bend test device for a composite insulator comprises: a fixing unit(100) fastened with a part having a flange, which is one end of a composite insulator(10) to fix the composite insulator in a cantilever structure; a load supply unit(200) located at a certain distance from the fixing unit and formed to put the other end of the composite insulator on and supplying load to the other end of the composite insulator to proceed a bend test of a composite insulator; an uploading unit(300) located between the fixing unit and the load supply unit to place the composite insulator and to lift up the composite insulator selectively; and a conveyance guide unit guiding the conveyance of the unloading unit.

Description

Bending test apparatus for composite insulators {testing device of composite insulator}

The present invention relates to a device for bending test of a composite insulator used in a gas insulated switchgear. The present invention relates to a bending test apparatus for a composite insulator in which a new type of uploading device is applied to the composite insulator to allow stable and easy uploading to the composite insulator. It is about.

In general, a composite insulator used in a gas insulated switchgear means an insulator used to insulate the spiral portion of an electrical device such as a transmission line or a gas insulated switchgear and simultaneously maintain or support it mechanically.

The insulator as described above comprises a core body constituting the inner body, an insulating housing constituting the outer body while surrounding the outside of the core body, and a flange for installation of the core body.

Here, the core body is formed of FRP material, the insulating housing is formed of silicon rubber (silicone rubber), the flange is formed of aluminum material.

In particular, the insulating housing is formed to be corrugated to have a sufficient electrical insulation strength, and the flange serves to distribute the mechanical load.

On the other hand, the composite insulator as described above, considering that the installation structure is typically a cantilever structure, the bending test according to the installation in the cantilever structure described above must be performed essentially.

Therefore, conventionally, the bending test with respect to the said composite insulator is performed using another bending test apparatus.

However, the above-described conventional bending test apparatus is not provided with a device for uploading the composite insulator separately, it is simply configured to transfer the composite insulator to the crane, the sufficient work space for the installation of the crane must be secured Have

In addition, the conventional bending test apparatus performed the operation of fastening the flange of the composite insulator to the bending test apparatus while the composite insulator is hanging on the crane, so that the overall fastening operation is not possible with a single operator and the fastening of the flange. The exact matching of the position is also difficult, which has the problem of extremely low work efficiency.

The present invention has been made to solve the various problems according to the prior art described above, the object of the present invention is to provide a new type of composite insulator bending test device to be made stable and easy to upload to a composite insulator It is.

The bending test apparatus for a composite insulator of the present invention for achieving the above object is a fixing part for fixing the composite insulator in a cantilever structure while the part having a flange which is one end of the composite insulator is fastened and fixed; A load providing part positioned to be spaced apart from the fixed part and configured to be mounted on the other end of the composite insulator and providing a load to the other end of the composite insulator so that a bending test of the composite insulator can proceed; An uploading portion positioned between the fixed portion and the load providing portion, the composite insulator being mounted, and optionally lifting the composite insulator; And, the conveying guide unit for guiding the conveying movement of the uploading unit: characterized in that it comprises a.

Here, the uploading unit is provided on the main frame constituting the body, the elevating frame which is installed on the upper end of the main frame, and the upper surface of the elevating frame, the pedestal on which the composite insulator is placed, and the elevating A main support rod supporting vertical movement of the elevating frame while vertically connecting the center portion of the bottom surface of the frame to the center portion of the main frame; a portion of the bottom circumferential side of the elevating frame and the circumferential side of the main frame; And a plurality of auxiliary support rods for assisting vertical movement of the lifting frame while vertically connecting the portions, and operation force transmitting means for transmitting the operation force provided from the user to the main support rods for lifting the main support rods. It is characterized by.

The pedestal may include a plurality of pedestals, and each pedestal may be spaced apart along the longitudinal direction of the composite insulator, and rounded mounting grooves may be formed on a top surface of each pedestal in a shape corresponding to an outer circumferential surface of the composite insulator. It is characterized by.

In addition, the manipulation force transmission means is a manipulation handle that is rotated by receiving a manipulation force from the user, one end is fixed to the rotation center of the manipulation handle is rotated by the rotation of the manipulation handle, the other end is adjacent to the main support rod It characterized in that it comprises a gearbox having a rotary shaft and a pair of gears that are rotated in correspondence with each other in the adjacent portions between the rotary shaft and the main support rod.

In addition, the conveyance guide is installed on the ground and the rail formed along the opposite direction between the fixed portion and the load providing portion, and is installed on the bottom surface of the uploading portion and receives the guide of the rail in the state mounted on the rail It characterized in that it is configured to include a moving roller that is moved to the cloud.

As described above, the bending test apparatus for the composite insulator according to the present invention enables the work performed by a plurality of workers to be performed by a minimum number of workers by additionally providing an uploading unit, thereby minimizing crane use time. In addition, it has the effect of ensuring the safety of the worker and improved work efficiency.

In particular, the composite insulator can be conveyed to the correct position by a simple operation using the uploading unit, thereby making it possible to prepare a smooth and fast bending test.

In addition, even if a strain gauge is installed on the composite insulator before the composite insulator is fastened to the fixing part, the problem of damage during uploading of the composite insulator is prevented at the source, thereby ensuring the reliability of the test results.

Hereinafter, a preferred embodiment of the bending test apparatus for a composite insulator of the present invention will be described with reference to FIGS. 1 to 6.

As shown in FIG. 1, a bending test apparatus for a composite insulator according to a preferred embodiment of the present invention includes a fixing part 100, a load providing part 200, an uploading part 300, and a conveyance guide part 400. It suggests that it is configured to include.

This will be described in more detail below for each configuration.

First, the fixing part 100 is a series of configurations for fixing the composite insulator 10 in a cantilever structure.

The fixing part 100 is fixed to the bed 110 is fixed to the ground, and is installed perpendicular to the bed 110, the portion provided with the flange 11 which is one end of the composite insulator 10 is fastened and fixed It comprises a vertical base 120.

Next, the load providing part 200 applies a load to the composite insulator 10 fixed in the cantilever structure to the fixing part 100 so that the bending test of the composite insulator 10 can be performed. Configuration.

The load providing unit 200 is positioned to be spaced apart from the fixing unit 100 and is configured to be mounted on the other end of the composite insulator 10.

The load providing unit 200 is provided with a hydraulic pressure from the hydraulic generating device (not shown) is composed of a hydraulic cylinder for lifting the portion on which the composite insulator 10 is mounted, the cylinder rod of the hydraulic cylinder (not shown) Is omitted) is provided with a load cell (not shown).

Next, the said uploading part 300 is a series of structure which conveys the composite insulator 10 to a bending test position.

The uploading part 300 is positioned between the fixing part 100 and the load providing part 200, and is configured to lift the composite insulator 10 selectively with the composite insulator 10 mounted thereon. .

In the embodiment of the present invention, the uploading unit 300 is the main frame 310, the elevating frame 320, the pedestal 330, the main support rod 340 and the auxiliary support rod 350, the operating force It consists of a means of delivery.

Here, the main frame 310 is a portion constituting the appearance body of the uploading unit 300, the lifting frame 320 is a portion which is installed to be elevated on the upper end of the main frame (310).

In addition, the pedestal 330 is provided on the upper surface of the elevating frame 320 is a portion on which the composite insulator 10 is placed.

In this case, the pedestal 330 is provided in plurality, and each pedestal 330 is spaced apart along the longitudinal direction of the composite insulator 10, the composite insulator 10 on the upper surface of the pedestal 330 Rounded mounting groove 331 is formed in a shape corresponding to the outer peripheral surface of the. This structure is to enable a stable mounting of the composite insulator 10.

In addition, the main support rod 340 supports the vertical movement of the elevating frame 320 while vertically connecting the central portion of the bottom surface of the elevating frame 320 and the central portion of the main frame 310. Site.

In addition, the auxiliary support rod 350 assists vertical movement of the elevating frame 320 while vertically connecting the peripheral portion of the bottom surface of the elevating frame 320 to the peripheral portion of the main frame 310. As multiple sites are provided. In particular, the auxiliary support rod 350 serves to prevent unwanted flow (eg, tilting) during the lifting operation of the lifting frame 320.

In addition, the operation force transmission means is a portion for transmitting the operation force provided from the user for the lifting of the main support rod 340 to the main support rod 340.

The manipulation force transmitting means is rotated by receiving a manipulation force from a user and one end is fixed to the rotation center of the manipulation handle 361 is rotated by the rotation of the manipulation handle 361 and the other end is A plurality of gears rotated in engagement with a rotating shaft 362 positioned adjacent to the main support rod 340 and installed in an adjacent portion between the rotation shaft 362 and the main support rod 340. Omitted).

That is, the structure of the manipulation force transmission means is configured such that the main support rod 340 can be lifted by the user by turning the manipulation handle 361.

In this case, a helical thread is formed on the circumferential surface of the main support rod 340, and each gear is not shown, but the worm gear is rotated by being coupled to the rotation shaft 362, the outer peripheral surface is the worm gear In addition to being rotated in engagement with the inner circumferential surface is most preferably composed of a worm wheel engaged with the thread of the main support rod 340.

Along with this, the gears and the parts where the gears are coupled between the gears and the main support rod 340 are configured to be wrapped with the gearbox 363, so that external exposure to the corresponding parts can be prevented. desirable.

Next, the conveyance guide part 400 is a series of configurations for guiding the conveyance movement of the uploading part 300.

In the embodiment of the present invention, the conveyance guide 400 is installed on the ground and the rail 410 is formed along the opposite direction between the fixing part 100 and the load providing part 200, and the uploading In addition to being installed on the bottom of the part 300, the rail 410 is mounted on the state of the rail 410 is guided by the rolling roller 420 is presented. Of course, the rail 410 and the moving roller 420 are each more preferably provided with a plurality of pairs to achieve a stable cloud movement.

In particular, the rail 420 is formed on the bolt fastening portion for the flange 11 of the composite insulator 10 mounted on the uploading portion 300 and the vertical base 120 of the fixing portion 100. The installation position is determined so that the bolt fastening portions can coincide with each other.

Hereinafter, the bending test process of the composite insulator 10 using the above-described bending test apparatus for the composite insulator according to the preferred embodiment of the present invention will be described in more detail.

First, the composite insulator 10 for the bending test is mounted on the upper surface of the uploading unit 300, and then a strain gauge (not shown) is installed on the outer surface of the composite insulator 10.

At this time, the process of seating the composite insulator 10 on the upper surface of the uploading unit 300 is carried out by using a crane, and since the mounting process does not require precise seating of the composite insulator 10, For example, only one worker can do the work.

When the mounting of the composite insulator 10 is completed on the uploading unit 300, the uploading unit 300 is moved to the work site where the fixing unit 100 is located.

At this time, the moving roller 420 installed on the bottom of the uploading unit 300 is moved under the guidance of the rail 410 installed along the ground and the rail 410 is the uploading unit 300 is exactly As it is formed to be located on the work site it is possible to smoothly move the uploading unit 300 by a minimum of workers.

Then, when the composite insulator 10 is moved by the uploading unit 300 by the above-described process, the load providing unit 200 is moved so that the load providing unit 200 of the composite insulator 10 is moved. So that it can be positioned directly below the outer end.

At this time, it is preferable that the structure for the movement of the load providing unit 200 also uses the structure of the conveyance guide unit 400 described above. That is, by installing a moving roller (not shown) on the bottom of the load providing unit 200 to allow the load providing unit 200 to be moved along the rail 410 of the conveyance guide 400.

In addition, in the state where the movement of the load providing unit 200 is completed, the operator adjusts the height of the elevating frame 230 through the rotation operation of the operation handle 361 constituting the operation force transmission means, the composite insulator 10. In addition to matching the position between the bolt fastening hole formed in the flange 11 of the bolt and the body frame ball formed in the vertical base 120 of the fixing portion 100, the outer end of the composite insulator 10 is provided with a load providing unit 200 So that it can be placed on the

Thereafter, the worker fastens the flange 11 of the composite insulator 10 with the vertical base 120 with a bolt, and when the bolt fastening is completed, the operation handle 361 of the uploading unit 300 in the uploading direction thereof. Rotate in the opposite direction.

Therefore, the composite insulator 10 is formed in the cantilever structure in the fixing unit 100 by the above-described series of processes, and is subsequently installed in the composite insulator 10 through the control of the load providing unit 200. A bending test is performed. That is, the bending deformation of the composite insulator 10 is measured by the strain gauge by the operation of the load providing unit 200, so that accurate result data for the bending test can be obtained.

On the other hand, when the bending test of the composite insulator 10 through the above-described process is completed, the operation is completed by carrying out the composite insulator 10 through a process opposite to the uploading process.

As described above, the bending test apparatus for the composite insulator according to the present invention has the advantage that the bending test for the composite insulator can be progressed by a minimum of workers, and the work time can be shortened.

1 is a schematic structural diagram showing for explaining a bending test apparatus for a composite insulator according to a preferred embodiment of the present invention

2 and 3 is a front view showing the uploading device and the operating state of the bending test apparatus for a composite insulator according to a preferred embodiment of the present invention

Figure 4 and Figure 5 is a side view showing for explaining the uploading device and the operating state of the bending test apparatus for a composite insulator according to a preferred embodiment of the present invention

Explanation of symbols for main parts of the drawings

10. Composite Insulator 11.Flange

100. Fixture 110. Bed

120. Vertical base 200. Load provision

300. Uploading unit 310. Main frame

320. Elevating frame 331. Unlocked groove

340. Main support rod 350. Auxiliary support rod

361. Operation handle 362. Rotary shaft

363. Gearbox 400. Return Guide

410. Rail 420. Moving Roller

Claims (5)

A fixing part for fixing the composite insulator in a cantilever structure while the part having a flange which is one end of the composite insulator is fastened and fixed; A load providing part positioned to be spaced apart from the fixed part and configured to be mounted on the other end of the composite insulator and providing a load to the other end of the composite insulator so that a bending test of the composite insulator can proceed; An uploading portion positioned between the fixed portion and the load providing portion, the composite insulator being mounted, and optionally lifting the composite insulator; And, And a conveying guide part for guiding the conveying movement of the uploading part. The method of claim 1, The uploading unit The main frame forming the body, An elevating frame installed on an upper end of the main frame so as to be elevated; A pedestal provided on an upper surface of the elevating frame, on which the composite insulator is mounted; A main support rod supporting vertical movement of the elevating frame while vertically connecting the central portion of the bottom surface of the elevating frame with the central portion of the main frame; A plurality of auxiliary supporting rods for vertically moving the lifting frame while vertically connecting the bottom circumferential side portion of the elevating frame and the circumferential side portion of the main frame; Bending test apparatus for a composite insulator, characterized in that it comprises a control force transmission means for transmitting the operating force provided from the user for the lifting of the main support rod to the main support rod. The method of claim 2, The pedestal is provided in plurality, The pedestal is spaced apart along the longitudinal direction of the composite insulator, The upper surface of each pedestal is a bending test apparatus for a composite insulator, characterized in that the rounded groove is formed in a shape corresponding to the outer peripheral surface of the composite insulator. The method according to claim 2 or 3, The manipulation force transmission means The operation handle is rotated by receiving the operating force from the user, One end is fixedly coupled to the rotation center of the operation handle is rotated by the rotation of the operation handle, the other end is a rotating shaft positioned adjacent to the main support rod, And a plurality of gears that are engaged and rotated in a state in which they are installed to correspond to adjacent portions between the rotary shaft and the main support rod. The method of claim 1, The conveyance guide portion A rail which is installed on the ground and formed along the opposite direction between the fixing part and the load providing part; And a moving roller installed on the bottom surface of the uploading unit and moving on the rail by rolling the rails under the guide of the rail.

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