KR102180693B1 - Monitoring and Control System of Communication Ducts using IoT - Google Patents

Abstract

The present invention relates to a monitoring and a control system of communication ducts using IoT to monitor various abnormal phenomena from ducts for wiring communication cables. The system includes: a position sensor installed on a connection socket connecting the ducts and detecting a position of the connection socket; a sag sensor for detecting the inclination of the duct; a distance sensor for detecting a distance from the duct; an encoder for detecting a moving distance of the distance sensor; a moving means including a rail and a motor; a support for supporting a cover at the bottom; an alarm installed on the support; and a controller that controls the moving means so that the support supports the duct when determining an abnormal phenomenon.

Description

Monitoring and Control System of Communication Ducts using IoT}

The present invention relates to a communication duct monitoring and control system, and more particularly, to monitor various abnormal phenomena of a duct for wiring a communication cable (sagging of the duct, detachment of the cover), and to immediately prevent additional abnormal phenomena. It relates to a communication duct monitoring and control system using the Internet of Things.

This part provides background information related to the content of the present application, and is not necessarily prior art.

In general, a communication cable is wired through a communication duct so that it is connected to each communication device from a terminal box after entering the accommodation.

The communication duct is used in which a plurality of unit ducts opened and closed by a cover are connected in series through a connection socket, and there are an indoor type installed in a building (ceiling, wall) and an outdoor type installed outside a building.

Regardless of the indoor type or the outdoor type, communication ducts can cause various abnormal phenomena such as sagging of the duct, detachment of the connection socket, and detachment of the cover due to the assembly structure of the duct and the connection socket and the load on the duct. It leads to the disconnection of the communication cable and causes communication failure.In the past, there is no technology to check and deal with the above-described communication duct abnormality, so the repair work is performed after the abnormality occurs, so the repair work takes a long time and the maintenance cost is also high. Of course, civil complaints are occurring due to poor communication or disconnection.

Registered Patent No. 10-1640351 is a long rectangular tubular shape with an open top, a duct body having a coupling groove formed in the longitudinal direction on the upper side of the side and an electric or communication cable disposed in the longitudinal direction, and the duct body A cable duct comprising a duct cover configured to open and close the duct body with coupling protrusions formed at both end portions in a cover shape covering the upper portion of the duct and fixed with hanger bolts to the ceiling slab of the building; A connect box consisting of a box body with an open lower portion in a rectangular box shape and a box cover coupled to the box body so as to be opened and closed, and configured to couple to a lower portion of the cable duct at regular intervals; A terminal block fixedly coupled to the inside of the connect box body and configured with a plurality of plug-in outlets connected to the electrical or communication cable of the duct body; it is a non-embedded duct for both electric and communication piping for apartment houses, and cannot solve the above problems. .

Registered Patent No. 10-1640351

The present invention is to solve the above-described problems, and use the Internet of Things to monitor various abnormal phenomena (sagging of the duct, detachment of the cover) of the duct for wiring a communication cable and immediately prevent additional abnormal phenomena. Its purpose is to provide a communication duct monitoring and control system.

The system for monitoring and controlling a communication duct using the Internet of Things according to the present invention comprises: a position sensor installed in a connection socket connecting the ducts and detecting a position of the connection socket; A sagging sensor installed at a coupling portion between the duct and the connection socket and detecting an inclination of the duct; A distance sensor for sensing a distance from the duct while moving along the longitudinal direction of the duct; An encoder for sensing a moving distance of the distance sensor; A moving means including a screw-type rail arranged in a lower portion of the duct along a longitudinal direction of the duct and fixed to a connection socket adjacent at both ends thereof, and a motor rotating in both directions; A support moving through the moving means and supporting the cover at the bottom; An alarm installed on the support; A controller configured to control the moving means so that the support supports the duct when one or more of the change in the position of the connection socket and the sag of the duct are determined based on the detection values of the position sensor and the sag sensor Including, the controller controls the moving means when it is determined as an abnormal phenomenon to detect the distance to the duct by moving the distance sensor along the longitudinal direction of the duct, and the distance to the duct among the distance values from the duct The support is moved to the farthest position of the duct to support the part with the greatest sag, while controlling the lighting of the alarm and transmitting an alarm signal along with the location information of the distance sensor to a remote server and a manager terminal. Characterized in that.

According to the communication duct monitoring and control system using the Internet of Things according to the present invention, the state of the duct, the connection socket, and the cover are monitored in real time, and after determining the deflection of the ducts, the change of the position of the connection socket, and the separation of the duct cover, abnormal In the event of an abnormality, the duct is supported through the support to prevent or delay additional abnormality, thereby protecting the communication duct facility as well as preventing communication defects due to the disconnection of the communication cable. Also, support and site managers In addition, the effect is maximized because rapid maintenance is possible by immediately notifying an abnormal phenomenon to a remote controller.

In addition, since the presence or absence of an abnormal phenomenon and its location can be checked in a quick time from a convenient posture through the terminal box indicator of the terminal box, the maintenance work time is further shortened and the communication duct facility is more effectively protected.

1 is an overall configuration diagram of a communication duct monitoring and control system using the Internet of Things according to the present invention.
2 is a view showing the installation positions of the position sensor and the deflection sensor applied to the monitoring and control system of the communication duct using the IoT according to the present invention.
3 is a block diagram showing the configuration of a communication duct monitoring and control system using the Internet of Things according to the present invention.
4 is a cross-sectional view showing the configuration of a support applied to a communication duct monitoring and control system using the IoT according to the present invention.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout this specification.

As shown in FIGS. 1 to 3, in the communication duct monitoring and control system using the Internet of Things according to the present invention, ducts (1) whose internal space is opened and closed by a cover (2) are connected through a connection socket (3). It is connected, installed on the ceiling, and used to monitor abnormalities in the communication duct where the communication cable (4) is wired inside (sagging of the duct (1), the change in the position of the connection socket (3), the detachment of the cover (2)). When these abnormal phenomena occur, it is to prevent additional abnormal phenomena or to delay the deflection of the duct (1) and the detachment of the cover (2), and a sensor for detecting the abnormal phenomena and to check the deflection position of the duct (1) , Controller for the determination and control of abnormal phenomena, support for preventing additional abnormal phenomena, and alarm means to inform managers and residents of abnormal phenomena, and the specific configuration is as follows.

1. Sensor.

end. Position sensor 10: It is to detect the position change of the connection socket (3), as shown in Figure 2, for example, installed on the wall facing the connection socket (3) and the connection socket (3) to connect the socket ( 3) Two or more sensors that detect two or more things, such as detecting the movement toward or against the wall surface, and the connection socket 3 sagging downward, are also possible.

I. Sag sensor 20: It detects the sag of the duct 1, for example, when the duct 1 sags, the inclination of the part connected to the connecting socket 3, which is both ends in the longitudinal direction, changes and the connecting socket (3) The load applied to the duct (3) will vary, and therefore, the sagging point sensor (20) is a tilt sensor that detects the inclination of the duct (1), the upper part of the duct (1) or the cloth of the connection socket (3) corresponding thereto. A load sensor that is installed in the front to detect the load is possible.

All. Cover release sensor 30: A sensor exclusively for the cover 2 to confirm that the cover 2 is removed while the duct 1 does not sag, and is preferably attached to the bottom of the cover 2 to increase the inclination. It is a tilt sensor that detects.

Cover separation sensors 30 are installed on both sides of the cover 2 in the longitudinal direction, respectively.

la. Distance sensor 40: It is for installing the support 60 in the place where the sag is the most severe when the duct 1 is sagging. That is, the position sensor 10, the deflection sensor 20, and the cover separation sensor 30 are to detect an abnormal phenomenon, and the distance sensor 40 is to check the operation position of the support 60. There is.

The distance sensor 40 should maintain its position even if the duct 1 sags, and in the present invention, it is fixedly installed on the support 60.

hemp. Encoder 41: for confirming the position of the support 60. In other words, the distance sensor 40 can check only the supporting position of the duct 1, and this supporting position can be confirmed through the encoder 41, and the controller 50 is the detection value of the distance sensor 40 and the By constructing the encoder value as a database together, the place where the sagging of the duct 1, which is checked through the distance sensor 40, is the most severe is confirmed through the encoder 41.

2. Controller.

The controller 50 checks the deflection of the duct 1, the detachment of the cover 2, and the detachment of the connection socket 3 based on the detected values of the sensors 10, 20, 30, and the sensor 10 ,20,30) and the previously stored reference value are compared to determine the abnormal phenomenon, and then move the distance sensor 40 to check the place where the sag is the most severe, and then move the support 60 to this place. To support the duct (1).

However, even if only the detachment of the connection socket (3) is confirmed and the duct (1) sagging is not confirmed, the support (60) is moved to the center of the duct (1) and the alarm is the same. Make it work.

The controller 50 can be installed on the connection socket 3 or the support 60, or can be installed in a remote control room.

3. Support.

1 and 4, the support 60 is elastically supported by the support body 61, an elastic member 62 installed on the support body 61, and an elastic member 62 on the support body 31. The upper part is composed of a support rod 63 supporting the cover 2 while moving along the ceiling surface of the cover 2.

The support body 61 is in the form of a cylinder in which a part of the support rod 63 is inserted while the elastic member 62 is received therein.

The support body 61 has a distance sensor 40 fixedly installed.

The support body 61 is configured to accommodate a battery (a secondary battery is also possible) that supplies power to the distance sensor 40 and the alarm 80.

The elastic member 62 elastically supports the upper portion of the support rod 63 so that it is always in close contact with the cover 2, and is preferably disposed at the lower and upper portions of the hydraulic plate formed on the bottom of the support rod 62, respectively.

The support rod 63 receives the elastic force of the elastic member 62 through the pressure plate at the bottom, and the upper part supports the cover 2, that is, the force that the elastic member 62 pushes the sutope rod 63 upward. The cover (2) is supported by using and eventually the duct (1) is also supported.

The support rod 63 may be configured with a roller to reduce friction at the upper end in contact with the cover 2.

The support 60 of this configuration reciprocates along the longitudinal direction of the duct 1 through the moving means, and the support body 61 is integrated with the slider 64 so that it can be moved to the rail 70 of the moving means. It may be formed and directly connected, or fixed to a slider that is movably connected to the rail of the moving means.

The slider 64 is connected to the rail 70 so as to move forward and backward by bi-directional rotation of the rail 70, and in the same direction as the rail 70 on both the left and right sides of the rail 70 to prevent left and right shaking when linearly moving. Includes a portion through which the guide rod 72 is installed.

The support 60 moves along the duct 1 connected between the two connection sockets 3, and the position attached to any one connection socket 3 is an initial position.

The moving means are arranged in the longitudinal direction of the duct 1 at the lower part of the duct 1, and both ends are fixed to the neighboring connection sockets 3 and are connected to the slider 64 of the support 60. 70), a motor 71 that rotates the rail 70 in both directions through the control of the controller 50, a guide rod that penetrates the slider 64 of the support 60 to guide the stable movement of the slider 64 ( 72).

4. Alarm means.

The alarm means is composed of an alarm (alarm, etc.) 80 for notifying the abnormality at the place where there is an abnormality, a server 81 for notifying the remote control room, and a portable manager terminal 82 for notifying the administrator, and the controller Made through the control of 50.

The alarm 80 is installed on the support body 61 of the support 60 to inform the exact position of supporting the duct 1, and the server 81 is a warning light in the control room based on the signal transmitted from the controller 50. Or displays an abnormal phenomenon on the display together with information (location, etc.), and the manager terminal 82 outputs a screen so that the administrator can check the signal transmitted from the controller 50 by using a smartphone or the like.

A method of monitoring and controlling a communication duct using the Internet of Things according to the present invention is as follows.

1. Communication duct monitoring.

The position sensor 10 detects the position of the connection socket 3, the deflection sensor 20 detects the deflection of the duct 1, and the cover release sensor 30 detects the detachment of the cover 2.

The detection values of these sensors 10, 20, and 30 are stored through the controller 50 and generated as a later report.

2. Determination of abnormal phenomena and support control.

The controller 50 compares the current detection values of these sensors 10, 20, and 30 with a pre-stored reference value, and determines that the current value deviates from the reference value as an abnormal phenomenon. Even if only one or more of the values deviate from the reference value, it is judged as an abnormal phenomenon.

The controller 50 controls the moving means when it is determined as an abnormal phenomenon, moves the distance sensor 40 and the support 60 together in one direction, and operates the distance sensor 40 and the encoder 41.

The distance sensor 40 detects the distance to the duct 1 and the distance detection value is managed by the controller 50 together with the moving distance by the encoder 41.

The controller 50 compares the sensing values of the distance sensor 40 to extract the farthest value and extracts the moving distance value at this time, and the position at this time is the support position.

Then, by controlling the moving means, the support 60 is moved to the support position.

In addition, it notifies the abnormal phenomenon of the duct (1) by operating the alarm member.

According to this control method, even when only the position of the connection socket 3 is changed, the change of the position of the connection socket 3 can be prevented from leading to sagging of the duct 1, and when the duct 1 sags, the duct 1 ) Can be delayed, and even if the duct 1 maintains the installation position, if the cover 2 is separated, additional separation of the cover 2 can be prevented.

On the other hand, the present invention may include a terminal box indicator light 83 to check the abnormality of the duct 1 through the terminal box (5).

The terminal box 5 is a part to which the cable 4 is connected, and is mainly installed on the wall, so that it is easy for administrators or residents to check it, and even if the alarm 80 of the support 60 cannot be confirmed using this, the terminal box indicator 83 ) Only to check the duct (1).

All ducts (1), cover (2), connection socket (3), and support (60) to which the present invention is applied are each given a unique code, and a terminal box corresponding to the unique code is provided on the front plate of the terminal box (5). The indicator 83 is provided, and the controller 50 controls the lighting of the terminal box indicator 83 having the same unique code as the support 60 controlling the operation by determining that there is an abnormal phenomenon.

1: duct, 2: cover
3: connection socket, 4: communication cable
5: terminal box,
10: position sensor, 20: deflection sensor
30: cover separation sensor, 40: distance sensor
41: encoder, 50: controller
60: support, 70: rail
71: motor, 72: guide rod
80: alarm, 81: server
82: administrator terminal, 83: terminal box indicator

Claims (4)

A position sensor installed in a connection socket connecting the ducts and detecting a position of the connection socket;
A sagging sensor installed at a coupling portion between the duct and the connection socket and detecting an inclination of the duct;
A distance sensor for sensing a distance to the duct while moving along the longitudinal direction of the duct;
An encoder for sensing a moving distance of the distance sensor;
A moving means including a screw-type rail arranged in a lower portion of the duct along the longitudinal direction of the duct and fixed to adjacent connection sockets at both ends, and a motor for rotating the rail in both directions;
A support installed in the moving means so as to be elevating through an elastic member and moving in a state in which the upper part is in close contact with the outer circumferential surface of the duct while elevating according to the sagging of the duct to support the duct with the elastic force of the elastic member;
An alarm installed on the support;
A cover release sensor installed on a cover that opens and closes the opening of the duct and senses a tilt of the cover;
A controller configured to control the moving means so that the support supports the duct when one or more of the change in the position of the connection socket and the sag of the duct are determined based on the detection values of the position sensor and the sag sensor Including 50,
When it is determined as an abnormal phenomenon, the controller controls the moving means to move the distance sensor along the length of the duct to detect the distance to the duct, and the distance to the duct is the farthest from the distance to the duct. The support is moved to support the portion of the duct with the largest deflection, while controlling the lighting of the alarm and transmitting an alarm signal along with the location information of the distance sensor to a remote server and a manager terminal. Monitoring and control of a communication duct using the Internet of Things, characterized in that the inclination of the cover is determined based on the detected value of the cover release sensor, and when the inclination of the cover is changed, the support is moved to raise the cover to its original position. system. delete delete The method according to claim 1, wherein the duct, the connection socket, and the support are each given a unique code, and are installed in a terminal box (5) to which a communication cable is connected, and include a terminal box indicator (83) that is lit when the support is operated. A communication duct monitoring and control system using the IoT.

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