KR102018072B1 - Automatic tilt monitoring system of distribution pole - Google Patents

Abstract

The present invention relates to an automatic tilt monitoring system of a distribution pole, capable of stably supplying power. According to the present invention, the automatic tilt monitoring system of a distribution pole comprises: a housing including a lower body and a cover; an elastic adjustment body; a control unit including a height sensor detecting the height of one side coming in contact with a structure in the elastic adjustment body and a communication module transmitting a result to a manager terminal or a central server when a detection value exceeds a preset reference value or an allowable range; and a power supply means supplying power to the height sensor and the control unit.

Description

Automatic tilt monitoring system of distribution poles

The present invention relates to an automatic monitoring device for the distribution poles of the distribution poles in the field of distribution technology, in particular to monitor the inclination of the steel structure arranged in the poles, producing a power supply means for supplying the monitoring device using solar heat, wherein Solar heat can be simultaneously focused on both sides through the upper surface which collects sunlight directly and the lower surface which collects the sunlight reflected from the ground or structure. It is about.

Telegraph poles are used to support cables such as power transmission lines, telephone lines, optical fibers, and cable broadcasting, and mostly pillars made of reinforced concrete are used.

Typically, the telegraph poles in the distribution line are subjected to compressive force, which is a vertical load by the load of the cable. However, in the case of the end pole located at the end of the distribution line or the angular erecting where the direction of the distribution line is different, the bending moment is applied to the telephone pole due to the load of the cable acting in the direction away from the vertical direction.

As such, the bending moment applied to the poles became a major cause of the collapse of the poles.

Therefore, the inclination of the poles in real time to detect the inclination in real time to prevent the fall of the poles and fall can be prevented.

Conventionally, to prevent the inclination of the pole pole by reinforcing the concrete structure, but this is to reinforce the pole pole in the construction stage, it is not possible to detect the inclination of the pole pole because there is no preparation for the changing load pressure during use, thus the whole body week There was a problem that can not be leveled.

In addition, a variety of structures are arranged on the pole, such a structure is disposed on the upper or lower portion of the cast iron structure is disposed on the pole.

Structures placed on the finished steel structure should be installed in a balanced manner because of its heavy weight, and a plurality of cables are connected in the installed state. Since the weight of these cables continuously presses the finished steel structure, the use time is long. As time goes by, there are problems such as bending and bending of the finished steel structure.

Therefore, by automatically monitoring the horizontal state of the finished steel structure, it is possible to monitor the inclination of the telegraph poles, and to monitor the deformation of the finished steel structure in real time, and necessary maintenance can be performed to prevent large-scale accidents such as fire and short circuits. Technology is desperately needed.

Republic of Korea Patent Publication No. 2008-0032538

The present invention has been proposed to solve the above problems, provided with a tilt detection unit for monitoring in real time the state of the complete steel structure disposed on the pole, the power supply means for supplying power to the tilt detection unit is further provided It is an object of the present invention to provide an automatic monitoring device for tilting power distribution poles capable of supplying stable power by configuring the power supply means to collect sunlight through upper and lower surfaces.

In order to achieve the above object, the present invention,

An anterior portion in which a wrought iron structure provided in the telephone pole is placed;

A receiving portion partitioned by the settling portion and the partition wall is formed,

A plurality of fasteners formed spaced apart from each other along an upper edge of the settling portion,

A lower body including a plurality of through holes formed to communicate the settling portion and the receiving portion;

A housing having a semicircular shape having a lower end opening to surround the outer circumferential surface of the finished steel structure upwardly, and a housing including a cover having a plurality of fastening grooves to which the fastener is coupled;

Is disposed in the receiving portion, one side is exposed through the through-hole elastic side is disposed so that the exposed side is in contact with the outer circumferential surface of the cast iron structure settled in the settle;

A height sensing sensor disposed at the receiving part and sensing a height of one side of the elastic regulator in contact with the wrought iron structure;

A control unit including a communication module for transmitting a value detected by the height sensor to a manager terminal or a central server when the value detected by the height sensor exceeds a reference value or an allowable range,

It includes a power supply means for supplying power to the height sensor and the control unit,

The power supply means,

An upper sealing layer laminated on an upper surface of the solar heat collecting cell,

An upper tempered glass laminated on the upper sealing layer;

A lower sealing layer laminated on a lower surface of the solar heat collecting cell,

Including a lower transparent back sheet laminated to the lower sealing layer,

The solar heat collecting cell collects sunlight from both sides through the upper surface condensing sunlight directly from the sun, and the lower surface condensing sunlight reflected from the ground or the structure to produce electricity,

The elastic regulator,

An elastic control unit disposed at a spaced apart position from each other and having a through hole formed therein;

Curvature is changed by the spacing of the elastic control portion, the elastic portion is disposed so that the end is in contact with the outer peripheral surface of the finished steel structure;

It characterized in that it comprises an elastic adjustment bolt and nut for adjusting the spacing of the elastic control.

The present invention made as described above is provided with a tilt detection unit for monitoring the state of the finished steel structure disposed in the telegraph pole in real time to monitor the state of the finished steel structure in real time, the power source including a solar condensing cell for condensing sunlight from both sides It is possible to supply power to the tilt detection unit stably through the supply means.

1 is an exemplary view showing a state in which the automatic monitoring device for inclination of the distribution telephone pole according to the present invention is coupled to the telephone pole.
2 is an exemplary view showing an automatic monitoring device for tilting the distribution pole of the power distribution according to the present invention.
3 is an exemplary view showing an operating state of the elastic regulator and the tilt detection unit according to the present invention.
4 is an exemplary view showing a power supply means according to the present invention.
5 is an exemplary view showing an elastic regulator according to the present invention.

Hereinafter, other objects and features of the present invention in addition to the above object will be apparent through the description of the embodiments with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the automatic monitoring device for tilting the distribution pole of the present invention.

First, the inclination automatic monitoring device 1 for power distribution poles according to the present invention includes a housing 10, an elastic regulator 20, a tilt detection unit 30 and a power supply means (40).

The housing 10 is disposed to surround the outer circumferential surface of the cast iron structure 200 provided in the telephone pole,

Settlement portion 111 is placed in the cast iron structure provided in the telephone pole,

A receiving portion 112 partitioned by the settled portion 111 and the partition wall 115 is formed,

A plurality of fasteners 113 formed at intervals along the upper edge of the settling portion 111,

A lower body 11 including a plurality of through holes 114 formed to communicate the settling portion 111 and the receiving portion 112,

The cover 12 includes a semicircular shape having a lower end opening to surround the outer circumferential surface of the finished steel structure upward, and includes a plurality of fastening grooves 121 to which the fastener 113 is coupled.

As shown in FIG. 2, the lower body 11 is formed to have an empty housing shape, and both ends and upper ends of the lower body 11 are opened to surround the lower body 11 at a lower side thereof.

The settlement part 111 is a seated structure 200 is placed, it can be changed to correspond to the shape and size of the outer peripheral surface of the seated structure.

The accommodating part 112 includes an elastic regulator 20 and an inclination detecting part 30 to be described later. The accommodating part 112 is formed below the settled part 111 and is divided into separate spaces by the partition wall 115. .

The fastener 113 is formed on the upper edge of the settlement 111 a plurality of spaced apart from each other. The fastener 113 is formed in the shape of a thin wedge of the upper end as shown in the coupling groove 121 formed in the cover 12 is formed to be easily coupled and prevented separation.

The through-hole 114 is to expose a portion of the elastic regulator 20 to be described later, is formed to communicate the settlement 111 and the receiving portion 112, the longitudinal direction of the settlement portion 111 A plurality of penetrating is formed up and down at regular intervals along the.

On the other hand, the cover 12 is disposed to be symmetrical with the settled portion 111 is arranged to surround the outer circumferential surface of the finished steel structure, a plurality of fastening grooves 121 are provided along the rim so that the fastener 113 is Combined.

The elastic regulator 20 is to be arranged in the receiving portion 112 to elastically support the wrought iron structure placed in the settled portion 111 from below,

An elastic control unit 22 disposed at a position spaced apart from each other and having a control hole 21 therethrough;

Curvature is changed by the spacing of the elastic control unit 22, the elastic portion 23 is disposed so that the end portion is in contact with the outer peripheral surface of the telephone pole;

It includes an elastic adjustment bolt 24 and the nut 25 for adjusting the interval of the elastic control unit 22.

The elastic control body 20 is formed in a ring shape with one side open as shown, and is provided with an elastic control unit 22 formed in both ends of the open one side extending in the longitudinal direction, respectively, the elastic control unit 22 Each adjustment hole 21 is formed therein, and the elastic adjustment bolt 24 and the nut 25 are disposed in the adjustment hole 21, respectively, and then a pair of elastic adjustments are made by tightening or releasing the elastic adjustment bolt 24. Adjust the distance between the parts 22.

Here, when the distance between the elastic control unit 22 is adjusted, the curvature of the elastic unit 23 is changed. That is, the curvature of the ring-shaped central portion constituting the elastic portion 23 is changed according to the distance between the elastic adjustment portion 22.

When the curvature of the elastic part 23 is changed, the elastic restoring force is also changed. For example, when the curvature of the elastic part is small, the elastic restoring force is relatively strong. On the contrary, when the curvature of the elastic part is large, the elastic restoring force is relatively weak.

The elastic part constitutes an elastic restoring force supporting the wrought structure below, but serves to cushion shocks, vibrations, and the like in addition to the situation in which the wrought structure is inclined.

In addition, it is to be able to maintain the level of the wrought structure by elastically supporting the wrought structure below.

The inclination detection unit 30, for detecting the horizontal state of the finished steel structure,

A height detecting sensor 31 disposed on the receiving part 112 and detecting a height of one side of the elastic adjuster 20 in contact with the wrought iron structure;

And a control unit 32 including a communication module 33 for transmitting the value detected by the height sensor 31 to a manager terminal or a central server when the value detected by the height sensor 31 exceeds a reference value or an allowable range. .

The height sensor 31 detects the height of the elastic part 23 of the elastic regulator 20, is disposed in the receiving portion 112 corresponding to the number and position of the elastic regulator 20 Are placed in number and position.

The height sensor 31 detects the height of the elastic part using a laser, and the detected value is transmitted to the controller 32.

The height sensor 31 may be replaced with a pressure sensor, it may be configured to detect the pressure transmitted to the elastic portion 23 through the pressure sensor.

The control unit 32 is provided with a processor for comparing the communication module 33 and the above-described sensed value and the reference value, wherein the reference value and the allowable range is the weight of the corresponding fully-secured structure, the structure disposed on the fully-structured structure It is set and changed in consideration of its weight.

The height sensor 31 is to compare the values detected in a plurality of at the same time to determine the angle of bending of the corresponding sturdy structure.

The communication module 33 may be provided with a Zigbee communication means as an example of a wireless communication means, the Zigbee communication means as one of the wireless communication means, can implement a wireless mesh network (mesh) It is a low power wireless communication means that guarantees wide communication range and high stability but low power consumption.

Here, the communication module 33 is configured to transmit the tilt generating signal of the telephone pole to the repeater through a wireless communication means so that the signal transmitted through the repeater transmits the telephone pole leaning signal to the central server or the manager terminal. The repeater may use other communication modules provided in each telephone pole.

To this end, the communication module 33 may be configured to enable transmission and reception.

The power supply means 40 is for supplying power to the height sensor 31 and the control unit 32,

An upper sealing layer 42 stacked on an upper surface of the solar heat collecting cell 41,

An upper tempered glass 43 laminated on the upper sealing layer 42,

A lower sealing layer 44 stacked on the bottom surface of the solar heat collecting cell 41,

Including a lower transparent back sheet 45 laminated on the lower sealing layer 44,

The solar heat collecting cell 41 collects sunlight on both sides through an upper surface condensing sunlight directly from the sun and a lower surface condensing sunlight reflected from the ground or a structure to generate electricity.

That is, in the present invention, the power supply means 40 is capable of condensing sunlight on both sides compared to the conventional solar module, which is limited in size because of the limited size of the power supply means installed on the telephone pole. This is because the light condensing efficiency needs to be increased at.

To this end, in the present invention, the sunlight irradiated from the sun is passed through the upper tempered glass, the upper sealing layer, the lower sealing layer and the lower transparent backsheet, and then reflected from the ground or the structure, the reflected solar light of the solar heat collecting cell It is condensed through the lower surface.

On the other hand, although not shown in the drawings, while protecting the cable connecting the solar heat collecting cell and the storage battery and at the same time the solar heat collecting cell is covered by the shadow, foreign matter, etc., the solar heat collecting cell stops electricity production, By blocking the current flow of the surrounding heat collecting cell connected in series with the light collecting cell, the total power loss is brought, which causes a problem such as a fire due to an increase in the temperature of the heat collecting cell.

Therefore, a junction box having a bypass circuit for solving this problem may be further provided.

On the other hand, the upper tempered glass 43 has a thickness of 3.2mm or less to use any one of PM (Prismatic Mat Finished) or MM (Matt Matt finished), preferably the reflectance of the sunlight is reduced to increase the transmittance MM type with special surface treatment on both sides is used.

The upper sealing layer 42 and the lower sealing layer 44 are made of the same shape and material, and have a high elasticity property, low heat sealing temperature characteristics, impact reinforcement and moisture-proof polyolefin elastomer (Polyolefin Elastomer) as a material It is preferable to form.

The polyolefin elastomer is a material mainly used for shoe soles, films, wires & communication cables, and has a high flash point of 340 ° C., thus reducing the risk of fire, having no smell, and no pH, and is stable at room temperature and pressure. In particular, the material having the characteristics is very high moisture-proof is mainly to serve to protect the solar heat collecting cell 41 from the external moisture in the solar module installed on the outside.

The lower transparent backsheet 45 is made of a transparent material through which sunlight passes. The lower transparent backsheet 45 allows sunlight not collected by the solar heat collecting cell 41 to pass through the upper tempered glass 43. .

The lower transparent backsheet 45 has the advantages of being lighter in weight and easier to form than tempered glass, and in addition, it is possible to lower the production cost due to the low price, thereby making solar light highly efficient for both producers and consumers. There is an advantage to providing modules.

In the present invention as described above has been described by the specific embodiments, such as specific components and limited embodiments and drawings, but this is provided to help a more general understanding of the present invention, the present invention is not limited to the above embodiments. For those skilled in the art, various modifications and variations are possible from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and all of the equivalents and equivalents of the claims, as well as the appended claims, will belong to the scope of the present invention. .

1: Automatic monitoring device tilt of the telephone pole for distribution
10 housing 11 lower body
12: cover 111: securement
112: receiving portion 113: fastener
114 through hole 115 partition wall
121: fastening groove 20: elastic regulator
21: adjusting hole 22: elastic control unit
23: elastic portion 24: elastic adjustment bolt
25 nut 30 tilt sensor
31: height sensor 32: control unit
33: communication module 40: power supply means
41: solar heat collecting cell 42: upper sealing layer
43: upper tempered glass 44: lower sealing layer
45: bottom transparent backsheet

Claims (1)

Settlement portion 111 is placed in the cast iron structure provided in the telephone pole,
A receiving portion 112 partitioned by the settled portion 111 and the partition wall 115 is formed,
A plurality of fasteners 113 formed at intervals along the upper edge of the settling portion 111,
A lower body 11 including a plurality of through holes 114 formed to communicate the settling portion 111 and the receiving portion 112,
A housing 10 including a cover 12 formed of a semicircular shape having a lower end opening to surround the outer circumferential surface of the finished steel structure from above, and having a plurality of fastening grooves 121 to which the fasteners 113 are coupled;
The elastic regulator 20 is disposed in the receiving portion 112, one side is exposed through the through hole 114, the exposed side is in contact with the outer peripheral surface of the complete iron structure settled in the settlement portion 111 ;Wow,
A height detecting sensor 31 disposed on the receiving part 112 and detecting a height of one side of the elastic adjuster 20 in contact with the wrought iron structure;
Inclination including the control unit 32 including a communication module 33 for transmitting the value detected by the height sensor 31 to the administrator terminal or the central server when the value exceeded the reference value or the allowable range compared with the preset reference value Sensing unit 30; And
It includes a power supply means 40 for supplying power to the height sensor 31 and the control unit 32,
The power supply means 40,
An upper sealing layer 42 stacked on an upper surface of the solar heat collecting cell 41,
An upper tempered glass 43 laminated on the upper sealing layer 42,
A lower sealing layer 44 stacked on the bottom surface of the solar heat collecting cell 41,
Including a lower transparent back sheet 45 laminated on the lower sealing layer 44,
The solar heat collecting cell 41 collects sunlight on both sides through an upper surface condensing sunlight directly from the sun and a lower surface condensing sunlight reflected from the ground or a structure to produce electricity,
The elastic regulator 20,
An elastic control unit 22 disposed at a position spaced apart from each other and having a control hole 21 therethrough;
Curvature is changed by the spacing of the elastic adjustment unit 22, the elastic portion 23 is disposed so that the end is in contact with the outer peripheral surface of the finished steel structure,
Slope automatic monitoring device for power distribution poles, characterized in that it comprises an elastic adjustment bolt (24) and a nut (25) for adjusting the interval of the elastic control unit (22).

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