KR102149228B1 - Underground mount structure for communication cable in complex - Google Patents

Abstract

The present invention relates to an underground installing structure for a communication cable in a complex, comprising: a protective tube body unit (100) having an opened upper end, a space formed therein, and an insertion hole (101) formed at both ends thereof; a cover unit (200) installed to be rotatably opened/closed at an upper end of the protective tube body unit (100); a cable installation unit (300) disposed to be inserted and removed into/from an inner space of the protective tube body unit (100), and partitioning and accommodating a plurality of communication cables (10); an abnormality detecting unit (400) disposed on the cable installation unit (300) and detecting an electric signal flow of each of the communication cables (10) to determine an abnormal state; a rotating unit (500) for rotating the cable installation unit; and a control unit (600) for rotating the cable installation unit by using the rotating unit (500) so that the communication cable (10), which is determined as an abnormal state by the abnormality detecting unit (400) among the communication cables (10), is positioned at a position of being exposed by the cover unit (200). Accordingly, operation can be easily performed during maintenance.

Description

Underground mount structure for communication cable in complex

The present invention relates to an underground installation structure for communication cables in a complex such as an apartment complex or an industrial complex, and more specifically, communication cables can be independently accommodated, as well as reducing signal interference between communication cables, and abnormal communication cables When it occurs, it relates to an underground installation structure for a communication cable in a complex that can be automatically located at the top so that the work can be easily performed during maintenance from the outside.

Conventional underground communication cable protection plates form a number of reinforcing ribs on the plate to protect the cables from excavation equipment such as excavators during excavation for repair and replacement of communication cables in the ground, and a number of reinforcing ribs are formed on the plate for solid close contact with the underground. It is used by forming a protrusion of.

In particular, since underground communication cable protection plates are individually manufactured, it takes a lot of time to manufacture, and this increases manufacturing costs, and acts as an impediment to mass production.

Accordingly, a large number of communication cables buried in the ground are formed to stably accommodate the cables, and in the event of an abnormality, the abnormal cable should be located upward, and if the protective tube is exposed to the ground, the abnormal communication cable should be maintained. There is a need to develop a technology that can be easily moved to a location.

The present invention is related to Korean Patent Registration No. 10-1565933 (2015.10.29).

An object of the present invention is to be able to independently accommodate communication cables, to reduce signal interference between communication cables, and to automatically position them at the top when abnormal communication cables occur to facilitate external maintenance. It is to provide an underground installation structure for communication cables in the complex.

In addition, another object of the present invention is to provide an openable and closeable cover on the installation exterior, and when the bucket of an excavator is approached for maintenance on the ground, it detects whether the metal is in proximity, and moves the abnormal communication cable, which is a maintenance target, to the top position. To provide an underground installation structure for a communication cable in a complex that opens the cover and moves the abnormal communication cable to the top of the installation exterior when external light is detected through an optical sensor installed on the cover.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention that are not mentioned can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

The underground installation structure for a communication cable in the complex of the present invention for achieving the above object is a protective tube body portion 100 in which the upper end is opened, a space is formed therein, and insertion holes 101 are respectively formed at both ends; A cover part 200 installed at an upper end of the protective tube body part 100 so as to be rotatably opened and closed; A cable installation part 300 disposed to be able to insert and remove the inner space of the protective tube body part 100, and in which a plurality of communication cables 10 are partitioned and accommodated; An abnormality detection unit 400 disposed on the cable installation unit 300 and detecting an electric signal flow of each of the communication cables 10 to determine an abnormal state; A rotating part 500 for rotating the cable installation part; And, among the communication cables 10, the rotation unit 500 so that the communication cable 10 determined to be in an abnormal state by the abnormality detection unit 400 is positioned at a position exposed to the cover unit 200. It includes; a control unit 600 for rotating the cable installation unit using.

The cable installation part 300,

An installation member 310 formed in a plate shape having a predetermined length, formed in a'+' shape to form four partition plates 311 to form four installation areas in which each of the communication cables 10 are accommodated, and ,

It is installed in the installation areas of the installation member 310, including grip portions 320 for gripping each of the communication cables 10,

Outer plate members 312 are formed at the ends of each of the four diaphragms 311,

A shielding member 313 for shielding electromagnetic waves is formed on the outside or inside of the diaphragm 311.

Each of the grip parts 320,

A cylinder 321 having an elastic shaft 321a,

It is installed at the end of the shaft (321a), provided with a grip member 322 for gripping each of the communication cables 10,

The grip member 322 is formed to surround the communication cable 10, and on the inner surface of the grip member 322, rolling members (not shown) for supporting the outer periphery of the communication cable 10 are formed. do.

Here, the grip member 322 is hinge-connected by forming a pair of C-shaped grippers, and the hinge is rotated by a rotational driving force of a separate motor device, thereby gripping or releasing the grip on the communication cable 10. Here, pressure sensors are installed inside the grippers, and the pressure sensors transmit the measured pressure to the control unit 600, and the control unit 600 monitors the rotational state of the grippers in real time so that the measured pressure maintains a set pressure. Can be adjusted.

In addition, fixing grooves 321b into which the cylinders 321 are slidingly inserted and fixed are formed in the installation member 310. Therefore, the cylinders are replaceable.

One end of the cover part 200 is rotatably connected to one side of the upper end of the protective tube body part 100 through a hinge shaft H,

The hinge shaft (H) is connected to the motor shaft of the motor (M) in an axial manner,

The motor (M) is driven by the control of the control unit,

In the cover part 200,

A metal detection sensor 210 for sensing the proximity of the bucket of the excavator formed of metal close to the ground,

An optical sensor 220 for detecting external light is installed,

When the proximity of the bucket is detected by the metal detection sensor 210 and the external light is detected,

The control unit 600,

The communication cable 10 determined to be in an abnormal state by the abnormality detection unit 400 is set to a position exposed to the cover unit 200, and the cover unit 200 is opened using the motor M. .

In particular, among the outer plate members 312, a gear tooth is formed on a lower surface of the outer plate member 312 disposed below the installation member 310,

In the protective tube body part 100 to be disposed under the outer plate member 312 disposed under the installation member 310,

A gear 330 meshed with the gear teeth of the outer plate member 312 is disposed,

The gear 330 has a central axis 331,

The central shaft 331 is connected to the moving motor 340 in an axial manner,

When the central shaft 331 is rotated according to the driving of the moving motor 340, the gear is rotated, and the outer plate member 310 is moved in a horizontal direction by the rotated gear 330,

The installation member 310,

It is inserted or withdrawn into the inner space of the protective tube body part 100 through any one of the respective insertion holes 101.

In each of the insertion holes 101,

Each ring-shaped ring body 110 is installed,

On the inner periphery of the ring body 110,

Through holes 111 through which the ends of the diaphragms 311 and the outer plate members 312 are penetrated are formed.

The rotating part 500,

Any one of each of the ring bodies 110 and,

Including a rotating gear 510,

Any one of the ring bodies 110 is arranged to be rotated,

On the outer periphery of any one of the ring bodies 110,

A second gear tooth is formed,

In the lower portion of any one of the ring body 110,

The rotation gear 510 is disposed,

The rotation gear 510 is engaged with the second gear tooth,

The center of the rotation gear 510 is connected to another rotation motor 520 in an axial manner, and the rotation motor 520 is rotated under the control of the controller 600.

In the protective tube body portion 100 adjacent to the rotation gear 510,

Guide holes 150 along the top and bottom are formed,

The center of the rotation gear 510,

Doedoe arranged to be elevated along the guide hole 150,

In the lower portion of the protective tube body portion 100,

An elevating cylinder 160 having an elevating shaft 161 that is elevated under control of the controller 600 is installed,

The other rotation motor 520,

It is fixed to the upper end of the lifting shaft 161,

The control unit 600,

While the moving motor 340 is being driven,

The lifting shaft 161 is lowered so that the rotation gear 510 and the ring body 110 are separated,

When the cable installation part 300 is inserted into the inner space of the protective tube body part 100 and the driving of the moving motor 340 is stopped,

The lifting shaft 161 is raised so that the rotation gear 510 and the ring body 110 are engaged.

In addition, cameras are installed on the ground. The camera acquires an image of the surroundings in which the protective tube body is buried and transmits it to the control unit.

The control unit selects a case in which the bucket is included in the transmitted image by storing the image of the bucket of the excavator.

A proximity sensor is installed on the cover part. It detects the proximity of the bucket to the upper part of the cover and transmits it to the control unit.

The controller includes the bucket in the transmitted image, and when it is sensed that the bucket is close within a certain distance through the proximity sensor, the control unit rotates the cover to open the inside of the protective tube body, and an abnormal communication occurs. The cable can be positioned by rotating it near the opening of the protective tube body part.

According to the above solution, the present invention can independently accommodate communication cables, reduces signal interference between communication cables, and automatically locates abnormal communication cables at the top to perform external maintenance tasks. It can be done easily.

In addition, the present invention is provided with a cover part that can be opened and closed on the installation exterior, and when the bucket of the excavator is approached for maintenance on the ground, it detects the proximity of metal and moves the abnormal communication cable, which is the maintenance target, to the top position, and the cover part When external light is detected through an optical sensor installed in the cover, open the cover and move the abnormal communication cable to the top of the installation exterior.

In addition to the above-described effects, specific effects of the present invention will be described together while describing specific details for carrying out the present invention.

1 is a perspective view showing an underground installation structure for a communication cable in a complex according to the present invention.
2 is a view showing an underground installation structure for a communication cable in a complex according to the present invention.
3 is a view showing a cable installation according to the present invention.
4 is a diagram showing a configuration of a cable installation unit connected to a gear and capable of moving.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily implement the present invention.

The present invention may be implemented in various different forms, and is not limited to the embodiments described herein.

In order to clearly describe the present invention, parts irrelevant to the description have been omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

Hereinafter, it means that an arbitrary configuration is provided or arranged on the "upper (or lower)" or "upper (or lower)" of the substrate, wherein the arbitrary configuration is provided or arranged in contact with the upper (or lower) surface of the substrate. Means that.

In addition, it is not limited to not including other configurations between the substrate and any configuration provided or disposed on (or under) the substrate.

Hereinafter, an underground installation structure for a communication cable in a complex of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing an underground installation structure for a communication cable in a complex according to the present invention, FIG. 2 is a view showing an underground installation structure for a communication cable in a complex according to the present invention, and FIG. 3 is a view showing a cable installation part according to the present invention And FIG. 4 is a diagram showing the configuration of a cable installation unit connected to a gear and capable of moving.

Referring to Figures 1 to 4, the underground installation structure for a communication cable in the complex of the present invention, the upper end is open, a space is formed therein, the insertion hole 101 is formed at both ends of the protective tube body portion 100; A cover part 200 installed at an upper end of the protective tube body part 100 so as to be rotatably opened and closed; A cable installation part 300 disposed to be able to insert and remove the inner space of the protective tube body part 100, and in which a plurality of communication cables 10 are partitioned and accommodated; An abnormality detection unit 400 disposed on the cable installation unit 300 and detecting an electric signal flow of each of the communication cables 10 to determine an abnormal state; A rotating part 500 for rotating the cable installation part; And, among the communication cables 10, the rotation unit 300 so that the communication cable 10 determined to be in an abnormal state by the abnormality detection unit 400 is positioned at a position exposed to the cover unit 200. It includes; a control unit 600 for rotating the cable installation unit using.

Here, the cable installation part 300 is formed in a plate shape having a predetermined length, and is formed in a'+' shape to form four installation areas in which each of the communication cables 10 is accommodated. ) Forming an installation member 310, and grip portions 320 installed in the installation areas of the installation member 310 and gripping each of the communication cables 10.

Outer plate members 312 are formed at ends of each of the four diaphragms 311, respectively.

A shielding member 313 for shielding electromagnetic waves is formed on the outside or inside of the diaphragm 311.

And each of the grip parts 320, a cylinder 321 having a shaft 321a that expands and contracts, and a grip member 322 installed at an end of the shaft 321a and gripping each of the communication cables 10 ).

The grip member 322 is formed to surround the communication cable 10, and on the inner surface of the grip member 322, rolling members (not shown) for supporting the outer periphery of the communication cable 10 are formed. do.

Here, the grip member 322 is hinge-connected by forming a pair of C-shaped grippers, and the hinge is rotated by a rotational driving force of a separate motor device, thereby gripping or releasing the grip on the communication cable 10. Here, pressure sensors are installed inside the grippers, and the pressure sensors transmit the measured pressure to the control unit 600, and the control unit 600 monitors the rotational state of the grippers in real time so that the measured pressure maintains a set pressure. Can be adjusted.

In addition, fixing grooves 321b into which the cylinders 321 are slidingly inserted and fixed are formed in the installation member 310. Therefore, the cylinders are replaceable.

In addition, one end of the cover part 200 is rotatably connected to an upper end side of the protective tube body part 100 through a hinge shaft H.

The hinge shaft H is connected to the motor shaft of the motor M in an axial manner.

The motor M is driven under the control of the controller.

In the cover part 200, a metal detection sensor 210 for sensing the proximity of a bucket of an excavator formed of metal close to the ground, and an optical sensor 220 for sensing external light are installed.

When the proximity of the bucket is sensed by the metal detection sensor 210 and the external light is sensed, the control unit 600, the communication cable 10 determined as an abnormal state by the abnormality detection unit 400 The cover part 200 is rotated to a position exposed to the cover part 200, and the cover part 200 is opened using the motor M.

In particular, among the outer plate members 312, a gear tooth is formed on a lower surface of the outer plate member 312 disposed below the installation member 310.

A gear 330 meshed with the gear teeth of the outer plate member 312 is disposed in the protective tube body part 100 so as to be disposed under the outer plate member 312 disposed below the installation member 310.

The gear 330 has a central axis 331.

The central shaft 331 is connected to the moving motor 340 in an axial manner.

When the central shaft 331 is rotated according to the driving of the moving motor 340, the gear is rotated, and the outer plate member 310 is moved in a horizontal direction by the rotated gear 330.

The installation member 310 is inserted or withdrawn into the inner space of the protective tube body 100 through any one of the respective insertion holes 101.

In addition, in each of the insertion holes 101, ring-shaped ring bodies 110 are respectively installed.

In the inner circumference of the ring body 110, through grooves 111 through which the ends of the diaphragms 311 and the outer plate members 312 are penetrated are formed.

In addition, the rotation unit 500 includes any one of each of the ring bodies 110 and a rotation gear 510.

Any one of the ring bodies 110 is arranged to be rotated,

A second gear is formed on the outer periphery of any one of the ring bodies 110.

The rotation gear 510 is disposed under any one of the ring bodies 110.

The rotation gear 510 is engaged with the second gear tooth, the center of the rotation gear 510 is connected to another rotation motor 520 in an axial manner, and the rotation motor 520 is the control unit 600 It is rotated under the control of ).

In addition, the protective tube body portion 100 adjacent to the rotation gear 510 is formed with a guide hole 150 along the top and bottom.

The center of the rotation gear 510 is disposed to be elevated along the guide hole 150.

An elevating cylinder 160 having an elevating shaft 161 that is elevated under the control of the controller 600 is installed below the protective tube body portion 100.

The other rotation motor 520 is fixed to the upper end of the lifting shaft 161.

The control unit 600, while the moving motor 340 is driven, lowers the lifting shaft 161 so that the rotation gear 510 and the one ring body 110 are separated, and the cable is installed. When the part 300 is inserted into the inner space of the protective tube body part 100 and the driving of the moving motor 340 is stopped, the rotation gear 510 and the one ring body 110 may be engaged with each other. The lifting shaft 161 is raised.

In addition, a camera (not shown) is installed on the ground. The camera acquires an image of the surroundings in which the protective tube body part 100 is buried and transmits it to the control unit 600.

The controller 600 selects a case in which the bucket is included in the transmitted image by storing the image of the bucket of the excavator.

A proximity sensor (not shown) is installed on the cover part 200. It senses that the bucket is close to the upper part of the cover part 200 and transmits it to the controller.

The control unit 600 includes the bucket in the transmitted image, and when the proximity sensor detects that the bucket is close within a certain distance, the control unit 600 rotates the cover unit 200 to provide the protective tube body unit 100. The inside of the tube may be opened, and the communication cable 10 in which the abnormality occurred may be rotated near the opening of the protective tube body 100 to be positioned.

According to the above configuration and operation, the present invention can independently accommodate communication cables, reduces signal interference between communication cables, and automatically locates abnormal communication cables at the top when they occur and works during external maintenance. Can be easily performed.

In addition, the present invention is provided with a cover part that can be opened and closed on the installation exterior, and when the bucket of the excavator is approached for maintenance on the ground, it detects the proximity of metal and moves the abnormal communication cable, which is the maintenance target, to the top position, and the cover part When external light is detected through an optical sensor installed in the cover, open the cover and move the abnormal communication cable to the top of the installation exterior.

As described above, specific embodiments related to the present invention have been described, but it is obvious that various implementation modifications are possible within the limit not departing from the scope of the present invention.

Therefore, the scope of the present invention is limited to the described embodiments and should not be transmitted, and should be defined by the claims and equivalents as well as the claims to be described later.

That is, the above-described embodiments are to be understood as illustrative in all respects and not limiting, and the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims and their equivalents All changes or modifications derived from the concept should be interpreted as being included in the scope of the present invention.

100: protective tube body
200: cover part
300; Cable installation part
400: abnormality detection unit
500: rotating part
600: control unit

Claims (4)

The upper end is opened, a space is formed therein, and a protective tube body portion having an insertion hole formed at each end;
A cover portion installed to be rotatably opened and closed on an upper end of the protective tube body portion;
A cable installation unit disposed to allow insertion and removal of the inner space of the protective tube body portion, and in which a plurality of communication cables are partitioned and received;
An abnormality detection unit disposed on the cable installation unit and determining an abnormal state by sensing an electrical signal flow of each of the communication cables;
A rotating part that rotates the cable installation part; And,
Including, among the communication cables, a control unit for rotating the cable installation unit using the rotation unit so that the communication cable determined as an abnormal state by the abnormality detection unit is positioned at a position exposed to the cover unit,
The cable installation part,
An installation member formed in a plate shape having a predetermined length and formed in a'+' shape to form four partition plates to form four installation areas in which each of the communication cables is accommodated,
It is installed in the installation areas of the installation member, including grip portions for gripping each of the communication cables,
Outer plate members are formed at the ends of each of the four diaphragms,
An underground installation structure for a communication cable in a complex, characterized in that a shield member for shielding electromagnetic waves is formed on the outer surface or inside of the diaphragm.
delete The method of claim 1,
Each of the grip parts,
A cylinder having an elastic shaft,
It is installed at the end of the shaft and has a grip member for gripping each of the communication cables,
The grip member is formed to surround the communication cable, and the inner surface of the grip member is formed with rolling members supporting the outer periphery of the communication cable.
◈ Claim 4 was abandoned upon payment of the set registration fee. The method of claim 3,
One end of the cover part is rotatably connected to one side of the upper end of the protective tube body part through a hinge shaft,
The hinge shaft is connected to the motor shaft of the motor in an axial manner,
The motor is driven by the control of the controller,
In the cover part,
A metal detection sensor that detects the proximity of the bucket of the excavator formed of metal close to the ground,
An optical sensor that detects external light is installed,
When the proximity of the bucket is sensed by the metal detection sensor and the external light is sensed,
The control unit,
An underground installation structure for a communication cable in a complex, characterized in that the communication cable determined by the abnormality detection unit is rotated to a position exposed to the cover unit, and the cover unit is opened using the motor.

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