KR200489926Y1 - Measuring apparatus of earthing equipment - Google Patents

Abstract

The present invention can easily expand and wind the measuring lead wire by using a variable speed servomotor to measure the health of the grounding facility, and can prevent the twisting of the lead wire during the automatic winding operation. The present invention relates to an equipment for measuring grounding equipment whose structure is improved to stop the servomotor so that the lead wire is automatically locked when tension is generated.
The present invention transmits a rotational driving force to a frame, a plurality of rotating drums rotatably mounted on the frame, and a measuring lead wire wound thereon, and mounted on the side of the frame and applied with external power, respectively. A variable speed servo motor, a guide member installed at the front of the frame and threaded to prevent twisting during the winding operation of the measurement lead wire, and mounted at the bottom of the frame to detect the tension when the measurement lead wire is generated. And locking means for stopping the operation of the variable speed servomotor.

Description

Measuring equipment of earthing equipment {Measuring apparatus of earthing equipment}

The present invention relates to a measurement equipment for grounding equipment. In particular, to measure the health of the grounding equipment, a variable speed servomotor can be used to easily deploy and wind the measuring lead wire, and the lead wire during the automatic winding operation. The present invention relates to an equipment for measuring grounding equipment whose structure is improved to prevent twisting of the lead wires by stopping the servomotor so that the wires are automatically locked when the tension of the measurement lead wires occurs.

In general, the ground electrode used for lightning protection to prevent lightning accidents is exposed to high voltage high current impulse, and the performance of the ground impedance dimension is required for performance evaluation. In particular, the grounding performance due to impulse should be evaluated by the transient grounding impedance, and it is often accompanied by ground discharge around the ground electrode due to the characteristics of lightning. There are products commercially available in structures that promote discharge to these ground electrodes, but there is no performance evaluation technique for them.

Earthing systems for lightning protection systems have an impulse discharge current and a higher frequency component than commercial power supplies.

In addition, the lightning current is small from several kA to as large as 200 kA, and the ground potential rises to several hundred kV, and ground discharge occurs when the electric field strength around the ground electrode is higher than the dielectric breakdown strength of the soil.

Grounding facilities are buried underground to protect advanced industrial equipment and electrical equipment from abnormal voltages and fault currents caused by lightning and surge inflows.

In order to measure the integrity of the above-ground underground equipment, it is necessary to measure the electrical equipment to measure the electrical continuity.

The prior art related to the measuring device of the existing grounding equipment, as disclosed in Korean Patent Publication No. 10-1041399 "ground buried test site device" (date: 2011.06.08), the target ground electrode for measuring the transient ground impedance; Cylindrical soil embedding device that allows the discharge of the soil having a variety of earth resistivity by displacing the soil having a variety of earth resistivity in the cylindrical shape; An experimental reference ground electrode device having a ground impedance of a predetermined size to introduce a return current and to form a stable reference potential point; An equipotential copper plate or an equipotential mesh device which secures a reference potential point of the high voltage and high current impulse generator and forms an equipotential plane; A plurality of grounding conductors and bonding devices connecting the experimental reference grounding electrode device to the equipotential copper plate or equipotential mesh device; A non-contact current meter for measuring the current applied from the high voltage and high current impulse generator to the experimental reference ground electrode device; An insulated, multi-stage precision carbon potentiometer for measuring the potential rise between an equipotential copper plate or equipotential mesh device and a ground electrode; And a transient ground impedance analyzer for detecting the transient ground impedance based on the voltage and current measured by the insulated multi-stage precision carbon voltage divider.

However, in order to measure the integrity of the existing grounding facility, it is possible to measure existing commercialized products.However, depending on the conditions of the measurement site, two wires of 4 wires can be used for the grounding facility. During the inspection by connecting to the measurement position of the lead wire, there may be a risk of lead wire breakage, such as breakage of the lead wire or disconnection. In addition to the need for four workers, the conventional measuring method has a disadvantage in that it is troublesome to measure the continuity of the grounding facility.

Korean Patent Publication No. 10-1041399 "Earth laying test site device" (Registration Date: 2011.06.08)

The present invention was devised to solve this problem in consideration of the above-mentioned problems, and its purpose is to easily deploy and wind the measurement lead wire by using a variable speed servomotor to measure the health of the grounding equipment. It is possible to prevent the twisting of the lead wire during the automatic winding operation, and to provide the equipment for the measurement of the grounding equipment whose structure is improved to prevent the lead wire from burning out by stopping the servo motor so as to be automatically locked when the tension of the measuring lead occurs. The purpose is.

The present invention for achieving the above object is a frame, a plurality of rotating drum rotatably mounted to the frame and the measurement lead wire is wound, and the plurality of rotations mounted on the side of the frame and applied with external power A variable speed servomotor that transmits rotational driving force to the drum, a guide member installed in front of the frame and formed with threaded threads to prevent twisting during the winding operation of the measurement lead wire, and mounted on the lower portion of the frame and for measurement Locking means for detecting this when the tension of the lead wire occurs and stops the operation of the variable speed servo motor, and a fixing clip attached to the measurement lead wire and holding the measurement lead wire for measuring the ground point of the grounding facility, The guide member is fixed to the front and both ends of the front bracket and the upper, It characterized in that the enable is for the measurement lead out between the fixing brackets to the two side ends spaced apart and fixed gap, and spaced apart up and down is configured by the first and second guide rod having a screw thread on the outer peripheral surface.

delete

delete

The present invention can easily deploy and rewind the measuring lead wire by using a variable speed servo motor, and use the grounding equipment by using one operator and the measuring device to extend the measuring lead wire to the measuring position of the grounding equipment. One working person who measures the health of two people is required, so there is an advantage that can carry out the measurement work with less than four people required for the measurement test of the existing grounding facility.

In addition, the present invention can automatically perform the winding operation of the measurement lead wire by the rotational driving force of the variable speed servomotor, and has the advantage of preventing the twisting of the measurement lead wire by using the guide member during the winding operation.

1 is a perspective view showing the configuration of the equipment for measuring the grounding facility according to the present invention.
Figure 2 is a front view of the subject innovation guide member.

1 and 2, the measuring equipment of the grounding facility according to the present invention, a plurality of rotating drum rotatably mounted on the frame 100, the frame 100 and the measurement lead wire 10 can be wound And a variable speed servo motor 300 mounted on the side of the frame 100 and transmitting rotational driving force to the plurality of rotary drums 200 as an external power source is applied, and the frame 100. A guide member 400 having a thread 425 formed thereon to prevent twisting during the winding operation of the measurement lead wire 10, and a lower portion of the frame 100. It consists of a locking means 600 for detecting this when the tension occurs and stops the operation of the variable speed servo motor 300.

Referring to Figure 1, the frame 100 is provided with wheels at the bottom of each corner to facilitate movement.

In addition, the frame 100 is divided into left and right frames, and is composed of a connecting rod connecting the left and right frames.

The variable speed servo motor 300 is provided in plurality so as to be driven as an external power source is applied to each of the rotating drums 200.

The variable speed servo motor 300 is provided with reducers 350 to respectively transmit the reduced rotation driving force to the rotating drum 200 side.

The locking means 600 is mounted on the lower portion of the frame 100 to detect the tension of the measurement lead wire 10 and to output a signal for stopping the driving of the variable speed servo motor 300.

For this purpose, although the locking means 600 is not shown in the drawing, a sensing sensor for sensing the tension of the measurement lead wire 10 and a signal output from the sensing sensor are applied to the variable speed servo motor 300. It is composed of a control unit for outputting a control signal.

The upper outer side of the frame 100 is provided with a support tube 700 having a hollow so that the lower portion of the measuring instrument bracket or the lower portion of the shade film is accommodated.

The present invention is further provided with a fixing clip 500 attached to the measurement lead wire 10 and fixing the measurement lead wire 10 to measure the grounding point of the grounding facility, the fixed clip 500 is measured After the lead wire 10 is developed to reach the measurement position of the grounding facility, the movement of the measurement lead wire 10 may be fixed to prevent the flow of the measurement lead wire 10.

Referring to FIG. 2, the guide member 400 measures the gap between a fixed bracket 410 fixed to both front ends of the frame 100 and a gap spaced between the two fixed ends of the frame 410. The lead wire 10 is arranged to be spaced apart from each other up and down, and is composed of first and second guide rods 420 and 430 having a thread 425 formed on an outer circumferential surface thereof.

Thread 425 of a size in which the measurement lead wire 10 is accommodated on the outer circumferential surface to prevent the measurement lead wire 10 from being twisted while the measurement lead wire 10 is drawn out between the first and second guide rods 420 and 430. It has a formed structure.

The present invention having such a configuration moves the frame 100 to a position before measurement by using a wheel, and the operator pulls the measurement lead wire 10 from the plurality of rotating drums 200 so that the first, After passing between the two guide rods 420 and 430, position the measurement lead wire 10 to the measurement position of the grounding facility embedded in the ground, and then connect the measurement lead wire 10 to the measuring device to ensure the integrity of the earthing facility. Will be measured.

At this time, the measurement lead wire 10 automatically rotates the measurement lead wire 10 as the driving force of the variable speed servomotor 300 is transmitted to the rotating drum 200 through the reducer 350. It has the advantage that it can be done with.

In addition, during the process of winding the measurement lead wire 10 by rotating the rotating drum 200, the measurement lead wire 10 passes between the first and second guide rods 420 and 430 of the guide member 400. As the measurement lead wire 10 passes through the thread 425 of the first and second guide rods 420 and 430, the twisting of the measurement lead wire 10 is prevented.

Therefore, the present invention can easily deploy and wind the measurement lead wire 10 using the variable speed servo motor 300, and the worker 1 to deploy the measurement lead wire 10 to reach the measurement position. One worker is required to measure the integrity of the grounding facility using a light and measuring device.A total of two workers are required, so that the measurement work can be performed with fewer than four people required for the measurement test of the existing grounding facility. Has an advantage.

In addition, the present invention can automatically perform the winding operation of the measurement lead wire 10 by the rotational driving force of the variable speed servomotor 300, the measurement lead wire 10 using the guide member 400 during the winding operation Has the advantage of preventing the twisting phenomenon.

In addition, when the lower portion of the measuring device support is accommodated in the support tube 700 provided on the upper outer side of the frame 100, the measuring device may be easily mounted on the frame 100, or the lower portion of the shade film may be hollow in the support tube 700. It is inserted into the inside to form a shade during the operation has the advantage that can increase the operator's convenience.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the embodiments described above, but should be defined by the claims below and equivalents thereof.

That is, the present invention as described above is not limited to the specific preferred embodiment described above, who has ordinary knowledge in the technical field to which the present invention belongs without departing from the spirit of the present invention claimed in the claims Various modifications may be made, of course, and such changes are within the scope of the claims.

10: measurement lead wire 100: frame
200: rotating drum 300: variable speed servo motor
350: reducer 400: guide member
410: fixing bracket 420,430: first and second guide rod
425 thread 500 fixed clip
600: locking means 700: support tube

Claims (3)

The frame 100,
A plurality of rotating drums 200 rotatably mounted on the frame 100 and capable of winding the measurement lead wire 10;
A variable speed servo motor 300 mounted on the side of the frame 100 and transmitting rotational driving force to the plurality of rotary drums 200 as an external power source is applied,
A guide member 400 installed in front of the frame 100 and having a thread 425 formed therein to prevent twisting during the winding operation of the measurement lead wire 10;
Locking means 600 is mounted to the lower portion of the frame 100 to sense this when the tension of the measurement lead wire 10 occurs and to stop the operation of the variable speed servo motor 300,
A fixing clip 500 attached to the measurement lead wire 10 and fixing the measurement lead wire 10 to measure a ground point of a grounding facility,
The guide member 400 has a fixing bracket 410 fixed to both front ends of the frame 100, and the measurement lead wire 10 between the gap between the two ends of the fixing bracket 410 is fixed and spaced apart from each other. Equipment for measuring grounding equipment, characterized in that the first and second guide rods (420,430) are arranged spaced apart up and down to allow access, and the thread 425 is formed on the outer peripheral surface.
delete delete

Images