KR100906790B1 - Insulation panel - Google Patents

Abstract

An isolated insulation panel is provided to give enough buffer force to a shelf on which an underground electronic line is settled in order to stably supply electricity even in earthquake. A protective case(C) is installed below an underground tunnel(T). A guide unit is located on the front of a base(10) along a longitudinal direction. A moving member(20) has a boss at the bottom thereof. The guide unit has a built-in spring. A shelf(40) consists of a supporting stand(41) and a leveling stand(42). A magnetic near-by switch(50) consists of a magnet(51) and a lead switch(52). A sending unit(70) is operated and controlled by a controlling unit(60). A transferring unit(80) is comprised of a pinion(82) and a driving motor(81).

Description

Distribution Line Insulation Panel {Insulation Panel}

The present invention relates to a distribution line insulating insulation panel.

As is well known, underground cables are buried in the basement of the city for supplying power to the respective consumers.

This is because the installation of underground power lines can make the aesthetics of the city more beautiful and space utilization more efficient than the installation of the ground, and in recent years, the usage trend is gradually increasing.

Such underground cables are built in underground tunnels through the shelves where the underground cables are arranged.

On the other hand, the rat can enter the inside of the underground tunnel. As described above, when a rat invades the underground tunnel, the ground wire is cut short by the rat or the equipment installed in the underground tunnel is frequently damaged.

In addition, when trying to change the arrangement position of the underground wire, the work was cumbersome due to the large load of the underground wire.

In addition, when an earthquake occurs, the shelf swings along the underground tunnel, and a significant external force acts on the connection between the underground tunnel and the shelf, causing a problem such as disconnection of the underground wire disposed on the shelf.

In addition, when a disconnection occurs in the underground wire, there is no way to immediately check the recovery, it takes a long time to recover due to the failure of the underground wire.

The present invention is to solve the above problems, to protect the underground wire and underground equipment from the rat, to easily adjust the placement position of the underground wire, the ground wire is not disconnected even in the event of earthquake, of course, underground The problem to be solved is to provide a distribution line insulated insulation panel that can immediately check the abnormality of the wire.

The present invention for solving the above problems, is provided in the lower portion of the underground tunnel, the upper surface is open and the protective case is in communication with the underground tunnel; A guide portion is formed on the upper surface in the longitudinal direction, and the base is embedded in the underground tunnel; A movable member formed on the lower surface of the protrusion to be movably inserted into the guide unit, the movable member being adjacent to the protrusion and having a rack parallel to the protrusion; A spring installed in the guide part to support the moving member in a spring; A supporter installed on the upper portion of the movable member, and a shelf configured to be horizontally installed from the supporter so that the underground wire is seated thereon; A magnetic type proximity switch composed of a magnet installed on the support of the shelf and a reed switch switched on and off by the magnet, the magnetic type proximity switch detecting the shaking of the shelf; A control unit for operating and controlling the reed switch of the magnetic proximity switch; A transmission unit which is operated by the control unit and outputs a signal indicating the shaking of the shelf to the outside; A feed mechanism rotatably embedded in the protective case and configured to be interlocked with the rack of the movable member, and a driving motor installed in the protective case and operated by a control unit to drive the pinion; A cylinder device built in the protective case and configured to elevate the transfer mechanism; An input unit for operating and controlling the control unit; A detection sensor installed at an inner lower portion of the underground tunnel and operated by a control unit to detect a mouse entering the underground tunnel; It is installed in the inner lower portion of the underground tunnel, and is controlled by the control unit, characterized in that it comprises an ultrasonic output device for transmitting a frequency of the band that the rat hates.

According to the present invention as described above, it is possible to prevent the damage to the underground wire by the mouse, and to arbitrarily adjust the position of the shelf, it is possible to easily adjust the position of the underground wire, by providing a sufficient buffering force on the shelf on which the underground cable is seated earthquake Even if this occurs, the power supply is made stable, and by checking the moving state of the shelf there is an effect that can immediately check the state of the underground cable.

Hereinafter will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a distribution line insulating insulating panel according to the present invention, Figure 2 is a cross-sectional view showing a cross section of another position of the distribution line insulating insulating panel according to the present invention, Figure 3 is a base and a moving member of the present invention Figure 4 is a perspective view, Figure 4 is a view showing the transfer mechanism and the cylinder device of the present invention, Figure 5 is a block diagram showing a distribution line insulating insulation panel according to the present invention, with reference to Figures 1 to 5 Referring to the distribution line isolated insulation panel according to the following.

The distribution line isolation insulating panel according to the present invention includes a protective case (C) installed under the underground tunnel (T), a base (10) built in the underground tunnel (T), and a base (10) to be movable. The movable member 20 to be installed, the spring 30 is installed on the base 10 to support the movable member 20, the shelf 40 is installed on the movable member 20, the shelf 40 Magnetic proximity switch 50 for detecting movement, control unit 60 for operation control of magnetic proximity switch 50, transmission unit 70 operationally controlled by control unit 60, and moving member (20) a transfer mechanism (80) for transferring, a cylinder device (90) for moving the transfer mechanism (80), an input unit (100) for operating and controlling the control unit (60), and a control unit (60). The sensor 110 is controlled by the operation, and the ultrasonic output device 120 is controlled by the control unit 60.

The underground tunnel T has an opening T1 penetrating up and down in the center of the lower surface thereof.

The protective case C is inserted into the opening T1 of the underground tunnel T so that the opening C1 communicating with the inside of the underground tunnel T is formed thereon. At this time, the inner surface of the protective case (C) is formed with guide grooves (C2) facing each other along the longitudinal direction.

The base 10 has a rectangular plate shape, and a guide portion 11 having a rectangular groove shape is formed on an upper surface thereof, and cylindrical spring fixing portions 12 are formed on both inner side surfaces of the guide portion 11. In addition, the opening portion 13 communicating with the opening portion T1 of the underground tunnel T is formed at the center of the base portion 10 by vertically passing through. Although two guide parts 11 are formed in this embodiment, the number of the guide parts 11 is not limited.

The movable member 20 has a rectangular plate shape having a narrower width than that of the base 10, and protrusions 21 are formed on the lower surface of the movable member 20 so as to be movable in the guide part 11 of the base 10. A spring fixing portion 22 corresponding to the spring fixing portion 12 of the base 10 is formed. In addition, a rack 22 parallel to the protrusion 21 is formed between the protrusions 21.

At this time, the movable member 20 has a narrower width than the base 10 in order to allow the movable member 20 to have sufficient mobility on the upper surface of the base 10. In addition, the width of the movable member 20 is such that the end of the movable member 20 moves to the opening 13 of the base 10 or the opening T1 of the underground tunnel T when the movable member 20 moves left and right. It is desirable to have a sufficient width so as not to fall out.

One end of the spring 30 is inserted into the spring fixing part 12 of the base 10, and the other end of the spring 30 is inserted into the spring fixing part 22 of the moving member 20. 11) is seated. At this time, the spring 30 is disposed between the inner side of the guide portion 11 of the base 10 and the outer side of the moving member 20 to support the moving member 20 in the center direction.

The shelf 40 includes a plurality of supports 41 fixed to the upper surface of the movable member 20, and a plurality of horizontal stands 42 protruding horizontally from both sides of the support 41.

At this time, the support 41 has a rectangular panel shape, the narrow surface is fixed to the upper surface of the moving member (20).

The horizontal stage 42 is for seating the underground wire (L), it is provided on the support 41 so as to face each other around the support (41).

In addition, as long as the said support stand 41 can fully support the horizontal stand 42, any shape may be sufficient.

The magnetic proximity switch 50 is conventionally used to detect the presence or absence of an object by using a magnetic force, and corresponds to a magnet 51 provided on an upper surface of the support 41 of the shelf 40, and a magnet 51. It is composed of a plurality of reed switch 52 provided on the upper surface of the underground tunnel (T).

The magnet 51 is a normal magnetic force is generated, the reed switch 52 to operate.

The reed switch 52 is a normal one that is turned on and off in accordance with the magnetic force of the magnet 51. The reed switch 52 is turned on when the magnetic force is received from the magnet 51, and turned off when the magnetic force is released. At this time, the plurality of reed switch 52 is installed in the underground tunnel T via the bracket (B) to be perpendicular to the longitudinal direction of the underground wire (L).

The control unit 60 is installed on the inner upper surface of the underground tunnel T to operate and control the reed switch 52 and is electrically connected to the reed switch 52 to be turned on and off from the reed switch 52. Receive the signal. At this time, the control unit 60 individually controls the plurality of reed switches 52, and wirelessly outputs the ON-OFF signal from each reed switch 52 via the transmission unit 70.

The transmission unit 70 is operated and controlled by the control unit 60, is installed on the outer upper surface of the underground tunnel (T), when the underground tunnel (T) is buried underground, it is electrically connected with the control unit (60) It is exposed to the ground in the connected state.

On the other hand, the separate situation room is provided with a display device (D) for indicating the operating state of the insulating panel.

The display device D includes a receiving unit D1 for receiving ON-OFF signals of the respective reed switches 52 from the transmitting unit 70, and a control unit for discriminating the ON-OFF signals from the receiving unit D1 ( D2) and the output part D3 which is operationally controlled by the control part D2 and displays the state of an insulation panel.

The transfer mechanism 80 is composed of a drive motor 81 in the protective case (C) and a pinion (82) connected to the drive motor (81) via a rotating member (R). At this time, the rotating member (R) is rotatably installed in the guide (G) which is built in the protective case (C). On the other hand, the guide (G) is formed with a guide hole (H) to move the rotating member (R) up and down.

The drive motor 81 is a conventional motor that provides rotational force, and is operated and controlled by the control unit 60.

The pinion 82 is connected to the rotating member R, and rotates in the forward or reverse direction according to the rotation of the drive shaft of the drive motor 81. At this time, the pinion 82 is engaged with the rack 23 of the moving member 20, thereby horizontally moving the moving member 20.

On the other hand, the moving panel (P) is installed inside the protective case (C). At this time, both ends of the movable panel P are movably inserted into the guide grooves C2 of the protective case C, and the driving motor 81 is seated thereon.

The cylinder device 90 is a conventional cylinder device using hydraulic pressure or pneumatic pressure, and is built in the protective case C so as to be disposed under the transfer mechanism 80. At this time, the cylinder device 90 is operated and controlled by the control unit 60, the rod 91 is connected to the lower portion of the moving panel (P) to move the transfer mechanism (80) up and down.

The input unit 100 is installed in the underground tunnel T to control the operation of the control unit 60. That is, when a signal for operating the driving motor 81 is input through the input unit 100, the driving motor 81 is operated by controlling the rotation speed or direction of the driving motor 81 according to the input signal. In addition, when a signal for driving the cylinder device 90 through the input unit 100 is input, the stroke distance of the rod 91 of the cylinder device 90 is adjusted according to the input signal, the transfer mechanism 80 This is going up and down. In addition, the input unit 100 may control the control unit 60 to control the detection sensor 110 and the ultrasonic output device 120 ON-OFF.

On the other hand, in the present embodiment, although the input unit 100 is installed in the underground tunnel (T), it can be anywhere as long as the operator can easily operate.

The sensor 110 is a conventional sensor for detecting the approach of the object by using ultrasonic waves or infrared rays, and is operated and controlled by the control unit 60, and is installed below the inner surface of the underground tunnel T, so that the rat is underground. Detects access to wire (L) or underground equipment. At this time, the installation position of the detection sensor 110, as long as it can detect the mouse entered into the underground tunnel (T) may be any.

The ultrasonic output device 120 is operated and controlled by the control unit 60, is installed in the lower surface of the underground tunnel (T), so that the rat does not have access to the underground wire (L) or underground equipment, particular rat hate Ultrasonic waves of the frequency band is output to the underground tunnel (T). At this time, the ultrasonic output device 120 is not heard by people, but it is preferable to generate 20KHZ ~ 50KHZ, which is the ultrasound of the band that the rat can hear.

Hereinafter will be described the operation of the distribution line insulating insulating panel according to the present invention.

6 to 8 are views showing the action of the distribution line insulating insulating panel according to the present invention, with reference to FIGS. 6 to 8 will be described the distribution line insulating insulating panel according to the present invention.

First, in the state as shown in Figure 2, when it is necessary to move the position of the underground wire (L) in order to work in the underground tunnel (T), when the operator drives the cylinder device 90 through the input unit 100 As the rod 91 of the cylinder device 90 moves upward, the pinion 82 moves upward, and the pinion 82 and the rack 23 mesh with each other.

Then, when the operator inputs a signal to drive the drive motor 81 through the input unit 100, the control unit 60 rotates the drive motor 81 in accordance with the input signal.

When the rotating member R is rotated by the driving motor 81, the pinion 82 also rotates accordingly, and the moving member 20 moves horizontally while the pinion 82 and the rack 23 mesh with each other. At this time, the operator may adjust the rotational speed of the driving motor 81 through the input unit 100, thereby adjusting the moving distance of the moving member 20.

As described above, when the moving member 20 is moved by adjusting the driving motor 81, the shelf 40 is moved as shown in FIG. 7.

Therefore, the worker can secure a working space for working, and can facilitate the work.

Thereafter, after the operator returns the moving member 20 to the original position through the input unit 100, the cylinder device 90 is driven to move the rod 91 of the cylinder device 90 downward, FIG. 2. The initial state is as follows.

In addition, in the state as shown in Figure 1, when the earthquake occurs, the underground tunnel (T) is shaken the external force acts on the shelf (40).

At this time, the moving member 20 is naturally moved to the left and right along the guide portion 11 of the base 10, by the elastic force of the spring 30 connected to both sides of the moving member 20 to the moving member 20 The external force acting is buffered.

Therefore, while the external force acting on the shelf 40 connected to the movable member 20 is alleviated, the external force acting on the underground wire L seated on the horizontal bar 42 of the shelf 40 is also alleviated. (L) remains intact.

In addition, when the movable member 20 is shaken, the support 41 of the shelf 40 moves, and the magnet 51 installed on the upper surface of the support 41 moves to interact with the reed switch 52. .

That is, by the magnetic force of the magnet 51 moved, the reed switch 52 adjacent to the magnet 51 is turned on, and the ON signal of the reed switch 52 is transmitted to the control unit 60. At this time, the reed switch 52 which does not act with the magnet 51 transmits an OFF signal to the control unit 60.

Subsequently, the control unit 60 having received the ON signal from the reed switch 52 wirelessly outputs the ON signal of the reed switch 52 to the outside via the delivery unit 70.

At this time, the receiver D1 of the display apparatus D receives the ON-OFF signal indicating the operation state of each reed switch 52 in the separate situation room, and transmits it to the controller D2.

Receiving the ON-OFF signal, the control unit D2 determines each signal, reads which reed switch 52 has been operated, and displays the read result on the output unit D3.

Therefore, the manager can know how much the moving member 20 has moved, can predict the abnormality of the underground wire L according to the degree of movement, and can accurately determine whether the insulation panel is repaired.

On the other hand, when the mouse invades the underground tunnel (T), the sensor 110 detects the presence of the mouse, and sends a detection signal to the control unit 60 to detect the mouse. The control unit 60 receiving the detection signal operates the ultrasonic output device 120 to transmit ultrasonic waves into the underground tunnel T. Thus, the rats hearing the ultrasonic waves go out of the underground tunnel (T) again.

As described above, the distribution line insulating insulation panel according to the present invention can facilitate the operation by adjusting the position of the shelf 40, and prevents the underground wire L from being damaged by an earthquake, and the underground wire (L) and the protection panel has the effect that the external manager can immediately check whether the damage.

In addition, by allowing the rat to exit the rat invading the underground tunnel (T) again, it is possible to safely maintain the underground wire (L) or underground equipment.

1 is a cross-sectional view showing a distribution line insulating insulating panel according to the present invention,

Figure 2 is a cross-sectional view showing a cross section of another position of the distribution line insulating insulating panel according to the present invention,

Figure 3 is a perspective view of the base and the moving member of the present invention,

4 is a view showing the transfer mechanism and the cylinder device of the present invention,

5 is a schematic view showing a distribution line insulating insulating panel according to the present invention;

6 to 8 are views showing the operation of the distribution line insulating insulating panel according to the present invention.

-Explanation of terms for main parts of attached drawings-

10; Base 20; Moving member

30; Spring 40; shelf

50; Magnetic proximity switch 60; Control unit

70; Sending unit 80; Transfer mechanism

90; Cylinder device 100; Input unit

110; Detection sensor 120; Ultrasonic Output Device

C; case

Claims (1)

A protective case (C) installed at a lower portion of the underground tunnel (T) and having an upper surface opened to communicate with the inside of the underground tunnel (T); A guide portion 11 is formed on the upper surface in the longitudinal direction, and the base 10 is installed in the underground tunnel (T); A movable member 20 formed at a lower surface thereof with a protrusion 21 movably inserted into the guide part 11, and having a rack 23 adjacent to the protrusion 21 and having a rack 23 parallel to the protrusion 21; A spring 30 installed in the guide part 11 to support the moving member 20 in a shot manner; A shelf (40) comprising a support (41) installed on an upper portion of the moving member (20), and a horizontal support (42) installed horizontally from the support (41) to which the underground wire (L) is seated; The magnet 51 is installed on the support 41 of the shelf 40, and the reed switch 52 is turned on and off by the magnet 51, the magnetic type proximity switch for detecting the shaking of the shelf 40 50; A control unit 60 for operating and controlling the magnetic proximity switch 50; A transmission unit 70 which is operationally controlled by the control unit 60 and which outputs a signal indicating the shaking of the shelf 40 to the outside; The pinion 82 is rotatably installed in the protective case C and interlocks with the rack 23 of the movable member 20, and is installed in the protective case C and is operated and controlled by the control unit 60. A transfer mechanism 80 composed of a drive motor 81 for driving 82; A cylinder device (90) built in the protective case (C) to lift and lower the transfer mechanism (80); An input unit 100 for operating and controlling the control unit 60; A detection sensor 110 installed at an inner lower portion of the underground tunnel T and operated and controlled by the control unit 90 to detect a mouse coming into the underground tunnel T; An ultrasonic output device 120 installed in the lower portion of the underground tunnel T and operated by the control unit 90 to transmit a frequency of a band disliked by the rat; Distribution line isolation insulating panel comprising a.

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