KR101225592B1 - System for warning damage of underground power cable - Google Patents

Abstract

PURPOSE: An underground transmission line damage alarming device is provided to protect the underground transmission line of a construction site by transmitting a predetermined horn sound to inform a dangerous situation. CONSTITUTION: A first pair(200) comprises a body(213), a switching cover(211), and an alarming device(251). A body has a semicircular hollow structure installed according to an outer surface of the underground transmission line and is equipped with a wound coil which induces a line of electric force. A switching cover installed on the end body that is to be assembled performs the switching motion when assembling and accepts an outer surface of the body that is elastically supported from the outer surface of the body. An alarming unit(251) transmits a horn sound using electricity from a wound coil based on a switching movement of a switching cover. A second pair with the same structure of the first pair wraps on the outer surface of the underground transmission line by mutually combining them.

Description

Underground distribution line damage warning device {SYSTEM FOR WARNING DAMAGE OF UNDERGROUND POWER CABLE}

The present invention relates to a underground transmission line warning device, and more particularly, when a pressing force above a reference value acts on the outer circumferential surface of the underground transmission line, by outputting a horn signal of a predetermined frequency band by using the magnetic force of the underground transmission line, the construction site The present invention relates to an underground transmission line damage warning device that can warn of dangerous situations in advance.

In general, in apartment houses and apartment buildings, such as transmission and distribution conduits, gas pipelines, water and sewage pipes, etc., are buried in the ground for safety and aesthetics. After a certain period of time, transmission and distribution lines need to be repaired due to deterioration or expansion due to aging or infiltration.

In order to repair and replace the underground transmission line as described above, the underground distribution line is excavated and the underground transmission line is exposed to the outside and then repaired and replaced. The general excavation work is quickly and easily performed using an excavator. And the ground is excavated with a bucket installed in the excavator. However, since the excavator driver generally performs excavation work without knowing the location of the underground transmission line, the bucket of the excavator excessively pressurizes the underground transmission line, causing a problem of destroying the underground line.

In order to solve this problem, in recent years, to provide a protective device in the process of embedding underground transmission line, this will be described with reference to the accompanying drawings.

First, Figure 1 is a view showing a conventional underground transmission line protection device. As shown, the underground transmission line is buried in the lower part of the underground and bent by the lower frame 10, both sides of which are bent upwards, and the tension spring 25 is arranged horizontally and installed inside the lower frame 10 The upper cover 30 is coupled to the lower frame 10 while being bothered by the protector 20 and the compression spring 15 installed in the lower frame 10 and both sides are bent downward.

The lower frame 10 is a member embedded in the lowermost part of the ground, and consists of a rectangular horizontal surface 11 and a vertical wall 12 bent upward from both sides thereof. In addition, a pair of up and down insertion grooves 13 are formed on the inner surface of each of the vertical walls 12 in a horizontal direction, and expansion grooves 130 are formed up and down inside the insertion grooves 13.

In addition, a plurality of spring insertion grooves 14 are formed vertically in the upper surface of the vertical wall 12, and each of the spring insertion grooves 14, the compression spring 15 is inserted, In the center on the horizontal surface 11, a rectangular buffer rubber 16 is mounted. Next, the underground transmission line protection device 20 is a member disposed inside the lower frame 10, and has a pair of underground transmission line receiving panel 21, the underground transmission line receiving panel 21 of the On one side, a plurality of semicircular underground transmission line receiving grooves 22 are formed in parallel in the longitudinal direction. The pair of underground transmission line receiving panel 21 is coupled to form the circular transmission line receiving groove 22 facing each other to form a circular transmission line (1) therein.

In addition, a plurality of through holes 23 are formed in the transverse direction so as to pass through the underground transmission line accommodation panel 21 in each of the underground transmission line accommodation panel 21, and the inlet of the through hole 23 is formed. Spring connection bars 24 are disposed on both side surfaces of the underground transmission line accommodation panel 21, respectively.

One side of the spring connection bar 24 is provided with a plurality of rings at regular intervals, and the plurality of screws are inserted into the insertion groove 13 so that the ring toward the center of the lower frame 10, respectively It is fixed to 17.

Therefore, the conventional underground transmission line protection device is supported by a tension spring installed on the left and right underground transmission line in the case consisting of the upper cover and the lower frame and a compression spring installed on the lower side, so that the underground transmission line is damaged by an excavator or the like by infiltration water. To prevent corrosion.

However, as described above, the case in which the case is supported by the spring, when the bucket of the excavator excessively pressurized the underground transmission line, the condition that can safely protect the underground transmission line with only the structure of the case is not created. That is, since the pressing force of the bucket of the excavator is extremely sufficient to pressurize the case, it is necessary to recognize the case by the sensory judgment of the excavator driver. Therefore, there is an urgent need for additional functions that require attention from the excavator operator.

1. Republic of Korea Patent Registration 10-0697824, registration date March 14, 2007, application number 10-2006-0119561, application date November 30, 2006, the name of the invention: protection of underground transmission line embedded in the ground of the apartment Device.

The present invention was created to solve the above problems, and an object of the present invention is to send a predetermined horn sound to notify a dangerous situation when the external force is directly applied to the underground transmission line buried underground, construction The present invention provides an underground transmission line damage warning device that can protect underground transmission line on site.

Another object of the present invention, as the power for the horn transmission is caused by the power signal derived from the underground transmission line, there is no separate power structure to reduce the manufacturing cost of underground transmission line damage warning device In providing.

Underground transport distribution line damage warning device according to an aspect of the present invention for achieving the above object, in the apparatus for protecting the underground transmission line, underground transmission distribution having a semi-circular hollow structure is installed along the outer circumferential surface of the underground transmission line A body having a winding coil for guiding electric force lines of the line, and a switching cover installed to be rotatable at an end of the body to perform a switching operation during rotation, and being supported by an outer circumferential surface of the body to accommodate an outer circumferential surface of the body; A first pair comprising an alarm device for transmitting a horn sound using electric power generated from the winding coil based on a switching operation of the switching cover; By having the same structure as the first pair and opposed to each other, it characterized in that the second pair of winding the outer peripheral surface of the underground transmission line.

An alarming apparatus according to a preferred embodiment of the present invention, the winding coil is installed inside the body for receiving power from the underground transmission line; A DC converter connected to both ends of the winding coil to convert an induced power signal into a DC signal; A high output circuit unit for supplying a high output signal by withstanding the voltage output from the DC converter to a rated voltage for starting the horn means and increasing the amount of current; A switching unit which is embedded in one end of the switching cover and switches the output power of the high output circuit unit when the switching cover is rotated to approach the body; And horn means for transmitting a horn sound according to the operation of the switching unit.

As described above, the underground transmission line damage warning device according to the present invention, when the external force is directly applied to the underground transmission line buried underground, by sending a predetermined horn sound to notify the dangerous situation, It is effective to protect underground transmission line. In addition, since the power for the horn transmission is caused by the power signal derived from the underground transmission line, there is no effect of having a separate power structure can reduce the manufacturing cost.

1 is an exploded perspective view showing a conventional underground transmission line protection device.
Figure 2 is a perspective view showing a damage warning device for underground transmission line according to the present invention.
3 is a view for explaining the operation of FIG.
4 is an exploded perspective view of Fig.
5 is a view illustrating an installation state of FIG. 2.
6 is a circuit diagram illustrating the electrical operation of the underground transmission line damage warning device according to the present invention.

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

Figure 2 is a perspective view showing a damage warning device for underground transmission line according to the present invention. As shown, the body 213 having a semicircular hollow structure installed along the outer circumferential surface of the underground transmission line and having a winding coil for guiding electric force lines of the underground transmission line, rotates at the end of the body 213. On the basis of the switching operation of the switching cover 211, the switching cover 211 is installed so as to perform a switching operation during the rotation, and is supported from the outer peripheral surface of the body 213 to accommodate the outer peripheral surface of the body 213, By connecting the first pair 200 made of the alarm device 251 for transmitting the horn sound using the power generated from the winding coil and the same structure as the first pair 200 to face each other, the underground transmission line It consists of a second pair 230 to wind the outer peripheral surface of the.

On the other hand, the body 213 is made of a non-metal material, for example, a polymer material such as polycarbon so as to easily accommodate the electric force line of the underground transmission line, the switching cover 211 is preferably made of a metal material.

In addition, both ends of the spring 215 are provided between the switching cover 211 and the body 213 as a means for holding the switching cover 211 from the body 213. The spring 215 is appropriate to have a modulus of elasticity for switching by the pressing force of the heavy equipment, the modulus of the spring is preferably 15 to 20kg / cm.

In addition, the alarm device is a high sound pressure level that can be fully heard by the operator, a frequency of 3500kHz to 40000kHz of 120dB to 150dB is used. This is a sound pressure level similar to that of a car horn, which is audible in the heavy machinery. If necessary, the alarm device may be added to the visual device to prevent accidents in the underground transmission line damage occurring during the night work. Here, the visual device is a signal device for blinking a high-brightness lamp and may blink the lamp along with a horn sound.

The first pair 200 and the second pair 23 are coupled to the end of each body 213. For this purpose, the two ends of the body 213 have a concave-convex structure and are alternately designed to be coupled to each other. 223 is formed, and after the first pair 200 and the second pair 230 are coupled, the coupling pins 221 are used to achieve mutual coupling.

In addition, the switching cover 211 is coupled to the fastening protrusion 219 protrudingly formed on one end of the body 213, and hinge coupling is performed using the cover hinge 217. Therefore, the switching cover 211 can be rotated by a predetermined angle around the cover hinge 217. When the switching cover 211 and the body 213 is in close contact in this rotation process, the implied switch is switched to the on operation.

The coupling between the first pair 200 and the second pair 230 is fastened using the coupler 223, but is preferably fastened such that two switching covers are installed in the same direction. This is to ensure that each of the switching cover 211 covers all the outer circumferential surface of the underground transmission line, so that even if the external force is pressed at any position of the underground transmission line, the switching operation is performed smoothly.

The underground transmission line damage warning device including the first pair 200 and the second pair 230 coupled as described above is fixed to the coupling pin 221 at one end of the body 213 as shown in FIG. The underground transmission line damage warning device of the invention is to be opened at a predetermined angle. Therefore, in installing the underground transmission line damage warning device on the underground transmission line, after winding partly onto the underground transmission line using the opening surface, the first pair 200 and the second pair 230 are mutually pressurized Fully accepts transmission and distribution lines.

In addition, when the underground transmission line is accommodated due to the first pair 200 and the second pair 230, one coupling hole 223 of the first pair 200 and the other coupling of the second pair 230 are provided. The spheres 233 are meshed with each other, and the first pair 200 and the second pair 230 are fastened by using another coupling pin 221.

That is, as shown in FIG. 4, the coupling pins 221 are inserted into the first pair 200 and the second pair 230 by using the coupling holes 223 at both ends of the body 213. As a result, the first pair 200 and the second pair 230 are fastened. Therefore, after inserting any one coupling pin 221 first, the first pair 200 and the second pair 230 can be rotated around the coupling pin 221.

After the first pair 200 and the second pair 230 are opened in a state in which one coupling pin 221 is assembled, the first pair 200 and the second pair 230 are wound to accommodate a portion of the outer circumferential surface of the underground transmission line. Coupling the second pair 230. Then, the other pair of coupling pins are inserted into the remaining coupler to fasten the first pair 200 and the second pair 230.

Therefore, the underground transmission line damage warning device consisting of the first pair 200 and the second pair 230 is completely wound around the outer circumferential surface of the underground transmission line as shown in Figure 5, the winding coil provided inside the body 213 Close to the outer circumferential surface of the underground transmission line (501). The winding coil is perpendicular to the conducting direction of the underground transmission line, so as to sufficiently cross the electric force line induced in the underground transmission line 501.

As the winding coil is accommodated in the electromagnetic field of the underground transmission line 501, the AC signal of the underground transmission line 501 is guided to the winding coil. The transmission voltage of the underground transmission line is 22,000V, and the winding coil has the number of turns of the coil for deriving an appropriate voltage from the transmission voltage. The number of induction is determined according to the amount of power consumed by the alarm device 251 compared to the transmission voltage.

The alarm device 251 is preferably provided in any one body 213, but since it requires electrical connection between each body 213, a risk may occur in the manufacturing production process. Therefore, the alarm device 251 is preferably installed in each body 213, in conjunction with the switching operation of the body 213, has a structure connected to the winding coil installed in the body 213.

6 is a configuration diagram for explaining the main function of the alarm device according to the present invention. As shown in the drawing, the coil 601 is installed inside the body 213 and connected to both ends of the winding coil 601 to receive electric power from the underground power distribution line 501. A DC converter 603 for converting the voltage into a high voltage, and a high output circuit 605 for withstanding the voltage output from the DC converter 603 to a rated voltage for starting the horn means 607 and increasing the amount of current to provide a high output signal. And a switching unit for supplying output power of the high output circuit unit 605 to the horn means 607 when the switching cover 211 is buried in one end of the switching cover 211 and approaches the body 213. 609).

Here, the horn means 607 is a device for generating a high output horn sound, has a signal size of 120dB to 150dB by an electrical signal. The horn means 607 preferably provides a sound wave signal having a frequency of 3500kHz to 40000kHz to facilitate listening from the operator.

The horn means 607 configured as described above causes an induced voltage to the winding coil 601 by an AC signal flowing through the underground transmission line 501. The AC signal of the underground transmission line is 22,000V, and the winding coil 601 is also induced with a high voltage, and the DC converter 603 converts the AC high voltage signal into a DC signal. This is converted into a direct current signal by a direct current conversion circuit composed of a bridge diode.

In addition, the DC signal is converted into an appropriate voltage for operating the horn means 607, and as the amount of current increases as the voltage withstands the low voltage, it induces the amount of power of the low voltage and high current.

On the other hand, the switching cover 211 maintains the switching off state unless an external force is generated, and the DC signal output from the high output circuit unit 605 is not provided to the horn means 607. On the other hand, when an external force is generated in the underground power distribution line 501, for example, when the bucket of the excavator presses the switching cover 211 due to a worker's work accident at the construction site, the switching cover 211 is burnt by the spring 215. It is rotated to suppress the intelligence and to approach the body 213.

The rotation of the switching cover 211 induces the operation of the switching unit 609, and the switching unit 609 provides the output voltage of the high output circuit unit 605 to the horn means 607. Accordingly, the horn means 607 transmits a horn sound of a set level by the rated voltage and current output from the high output circuit portion 605. Therefore, even if a work mistake occurs, the worker can be required to pay attention to the work by the horn of the horn means 607.

200: first pair 211: switching cover
213: body 215: spring
217: cover hinge 219: fastening protrusion
221: coupling pin 223: coupling sphere
230: second pair 251: alarm device
601 winding coil 603 DC converter
605: high output circuit portion 607: horn means
609: switching unit

Claims (7)

In the device for protecting underground transmission line,
A body having a semicircular hollow structure installed along the outer circumferential surface of the underground transmission line and having a winding coil for guiding electric force lines of the underground transmission line, and rotatably installed at the end of the body to perform a switching operation during rotation. And a first cover comprising a switching cover which is supported by the outer circumferential surface of the body and accommodates the outer circumferential surface of the body, and an alarm device that emits a horn sound using electric power generated from the winding coil based on a switching operation of the switching cover;
An underground transmission line damage warning device comprising a second pair having the same structure as the first pair and being opposed to each other, thereby winding an outer circumferential surface of the underground transmission line. The method of claim 1,
The body is made of a polycarbon material so as to easily accommodate the electric power line of the underground transmission line, the switching cover is a ground damage distribution line warning device, characterized in that made of a metallic material. The method of claim 1,
Underground transmission line damage warning device, characterized in that the both ends of the spring is provided between the switching cover and the body so that the switching cover is carried from the body. The method of claim 3, wherein
The spring is an underground transmission line damage warning device, characterized in that it has an elastic modulus of 15 to 20kg / cm to be switched by the pressing force of the heavy equipment. The method of claim 1,
The sound pressure output from the alarm device is 120dB to 150dB, the frequency of the sound pressure is an underground transmission line damage warning device, characterized in that the 3500kHz to 40000kHz. The method of claim 5, wherein
The warning device further comprises a signal device for blinking a high brightness lamp underground transmission line damage warning device. 7. The method according to any one of claims 1 to 6,
The alarm device, the winding coil is installed inside the body for receiving power from the underground transmission line;
A DC converter connected to both ends of the winding coil to convert an induced power signal into a DC signal;
A high output circuit unit for supplying a high output signal by withstanding the voltage output from the DC converter to a rated voltage for starting the horn means and increasing the amount of current;
A switching unit which is embedded in one end of the switching cover and switches the output power of the high output circuit unit when the switching cover is rotated to approach the body; And
Underground transmission line damage warning device, characterized in that consisting of a horn means for transmitting a horn sound according to the operation of the switching unit.

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