KR102153681B1 - Fixing Equipment For Underground Distribution Line - Google Patents

Abstract

The present invention provides a fixed hanger mechanism for a power tunnel arrangement underground distribution line which can simply check a connection point between underground distribution lines. The fixed hanger mechanism for a power tunnel arrangement underground distribution line comprises a driving device (10), a first remote control (20), an electric wire arrangement mechanism (30), a first winding mechanism (40), a second winding mechanism (50), first and second ultrasonic detection sensors (110,120), first and second lighting lamps (130,140), a storage box (160), a second remote control (150), first and second buffer mechanisms (60,70), first and second rollers (80, 90), and a fall prevention mechanism (100).

Description

Fixing Equipment For Underground Distribution Line {Fixing Equipment For Underground Distribution Line}

The present invention relates to a fixed hanger mechanism for an underground power distribution line arrangement.

In general, electricity from substations is distributed to each receiving point through a pole.

However, in recent years, in consideration of the aesthetics and safety of the city, electricity is being distributed to each destination in an underground power distribution method utilizing an electric power outlet.

In this way, when underground power distribution is performed through the power outlet, it was difficult to pass through the power outlet because the inside of the power outlet was dark when the worker passed the inside of the power outlet in order to check the entire distribution facility placed inside the power outlet.

In addition, in the related art, while an operator is inspecting the entire power distribution facility disposed inside the power outlet, if the prepared tool is damaged, there is a problem in that the entire power distribution facility inspection must be stopped.

On the other hand, when underground distribution is performed through the power outlet, the underground distribution line UL1 is connected to another underground distribution line UL2 through a connection mechanism at a certain point in the power outlet EH, as shown in FIG. Connected.

Therefore, it was necessary to periodically check whether the connection between the underground distribution lines was normally performed at a certain point in the power zone.

However, in the related art, since the operator has to move to a corresponding point after entering the power outlet for such confirmation, it is difficult to simplify the confirmation operation.

Korean Patent Registration No. 10-1985768

The present invention is to solve the above-described problems, it is easy to pass inside the power outlet, it is convenient to check the distribution facilities inside the power outlet, and the'electric power outlet arrangement underground ship' that can simply check the connection point between the underground distribution lines. The problem to be solved is to provide'fixed hanger mechanism for all lines'.

The present invention for solving the above problems,

The driving device 10, the first remote control 20, the electric wire arrangement mechanism 30, the first winding mechanism 40, the second winding mechanism 50, the first and second ultrasonic sensing sensors 110,120 ), the first and second lighting lamps (130,140), the storage box (160), the second remote control (150), the first and second buffer mechanisms (60,70), and the first and second rollers (80,90) And, including a fall prevention mechanism 100,

The driving device 10 includes a driving device main body 11 installed in an electric power tool EH; A screw 12 disposed vertically in the power tool EH and the manhole MH communicated with the power tool EH, and rotatably installed in the driving device body 11; A drive motor 13 installed on the drive device body 11 to rotate the screw 12; Equipped with a guide 14 disposed up and down, but disposed adjacent to the screw 12, in the power port EH and the manhole MH communicated with the power port EH,

The first remote control 20 is disposed around the cover MD of the manhole MH, and remote control of the driving motor 13 is possible,

The electric wire arrangement mechanism 30 is provided on the upper side of the electric wire arrangement mechanism 30, and the electric wire arrangement groove 31 in which a connection mechanism CE connecting the first and second underground distribution lines UL1 and UL2 is disposed and; Guide through hole 32 into which the guide 14 is inserted; The screw 12 is inserted and provided with a screw through hole 33 that is thread-connected to the screw 12, and is installed to be movable up and down in the guide 14 and the screw 12, so that the drive motor 13 can be driven. But move up and down by the power outlet (EH) to the manhole (MH) entrance,

The first winding mechanism 40 is disposed on the electric power outlet EH to be located at one side of the electric wire arrangement mechanism 30, and when the pulling force acts, the first underground distribution line UL1 is released, and the pulling force When this is released, the first underground distribution line (UL1) is wound,

The second winding mechanism 50 is disposed on the power outlet EH so as to be located on the other side of the electric wire arrangement mechanism 30, and when the pulling force acts, the second underground distribution line UL2 is released, and the pulling force When this is released, the second underground distribution line (UL2) is wound,

The first and second ultrasonic sensing sensors 110 and 120 are installed on the first and second winding mechanisms 40 and 50, respectively, and when detecting objects approaching each of the first and second winding mechanisms 40 and 50, the object Each output detection signal,

The first and second lighting lamps 130 and 140 are respectively installed in the first and second winding mechanisms 40 and 50, and are respectively lit when object detection signals are received from the first and second ultrasonic sensors 110 and 120, respectively,

The storage box 160 includes a main body 161 with one side open; Equipped with a door 162 for opening and closing the main body 161, it is installed in the first winding mechanism 40 or the second winding mechanism 50,

The second remote control 150 is disposed in the storage box 160, and remote control of the driving motor 13 is possible,

The first and second buffer mechanisms (60,70), and supports (61,71); Springs 62 and 72 installed on the supports 61 and 71; Each of the shock absorbers 63 and 73 installed on the upper side of the springs 62 and 72 and capable of moving up and down are provided on the lower inner walls of both sides of the manhole MH, respectively,

The first and second rollers 80 and 90 are provided under the supports 61 and 71 of the first and second buffer mechanisms 60 and 70, and the first and second underground distribution lines UL1 and UL2 When moving toward the manhole (MH), guide the first and second underground distribution lines (UL1, UL2), respectively,

The fall prevention mechanism 100 includes an upper opening hole 101a1 formed on the upper side of the seating member 101, a lower opening hole 101a2 formed on the lower side of the seating member 101, an upper opening hole 101a1, and A handle hole (101a) having a width smaller than that of the lower opening hole (101a2) and having a communication hole (101a3) communicating the upper opening hole (101a1) and the lower opening hole (101a2), and a larger diameter than the screw (12). It has a screw insertion hole 101b into which the screw 12 is inserted, and a guide insertion hole 101c into which the guide 14 of the driving device 10 is inserted, and is provided to be movable up and down, and both sides are removed. A seating member 101 that is respectively seated in the buffers 63 and 73 of the 1 and 2 buffer mechanisms 60 and 70; It is movably inserted into the communication hole 101a3 of the seating member 101 and is provided on the upper side of the inserting portion 102a and the upper and lower lengths longer than the communication hole 101a3 of the seating member 101 The upper engaging portion 102b, which can be inserted into the upper opening hole 101a1 of the seating member 101, and the lower engaging portion 102b, which is provided below the insertion portion 102a, and which can be inserted into the lower opening hole 101a2 of the seating member 101 Consisting of a handle 102 with a part 102c

It features.

The present invention according to the means for solving the above problems, when the operator passes through the inside of the power outlet (EH) and integrally inspects the entire distribution facilities disposed inside the power outlet (EH), when the operator approaches the present invention, the surrounding Can be brightened, so the operator can conveniently check the distribution facilities. At this time, a worker located inside the power tool EH can conveniently check the configuration of the present invention using the second remote control 150.

In addition, in the present invention, if a tool that was in use is damaged while an operator is inspecting a power distribution facility inside the electric power tool (EH), the inspection work can be continued using a spare tool stored in the storage box 160.

In addition, the present invention, when briefly checking the connection device (CE) arranged at a certain point of the power tool (EH), even if the operator does not enter the power tool (EH), the connection device (CE) is inserted into the manhole (MH). ), you can conveniently check the connection mechanism (CE). In this case, in the present invention, when the manhole MH is a narrow simple manhole MH that cannot be passed by a person, the connection mechanism CE can be checked more conveniently.

In addition, the present invention, when the operator moves the connection mechanism (CE) to the upper side of the manhole (MH) for checking the connection mechanism (CE), when the mobile phone (or tool, etc.) falls into the manhole (MH), the connection mechanism Along with the movement of (CE), the mobile phone can be moved to the entrance of the manhole (MH), so important items such as mobile phones are not lost.

In addition, the present invention can prevent damage to the mobile phone by colliding the mobile phone with the handle 102 of the fall prevention mechanism 100 when the mobile phone (or tool) falls into the manhole (MH). 2 The shock applied to the mobile phone can be minimized through the buffer mechanism (60,70).

In addition, in the present invention, the connection mechanism CE moves upward by the movement of the electric wire arrangement mechanism 30, and the connection mechanism CE pushes the handle 102 of the fall prevention mechanism 100 upward, It is possible to conveniently move the seating member 101 out of the manhole (MH) by using the handle 102.

In addition, in the present invention, when the seating member 101 is reinserted into the manhole (MH), the first and second buffering mechanisms 60 and 70 buffer the seating member 101, thereby damaging the seating member 101. Can be minimized.

In addition, according to the present invention, the first and second underground distribution lines UL1 and UL2 can be stably moved up and down through the first and second winding mechanisms 40 and 50.

In addition, the present invention applies a ball screw method when moving the electric wire arrangement mechanism 30 up and down, which is the first and second in the electric power outlet (EH) when the electric wire arrangement mechanism 30 moves in a cylinder manner. This is because it is difficult to adjust the installation position between each component, such as setting the arrangement position of the underground power distribution lines UL1 and UL2 and the arrangement position of the electric wire arrangement mechanism 30. Therefore, in the present invention, by applying the ball screw method to vertically move the wire arrangement mechanism 30, it is possible to conveniently arrange each component.

1 is a view for briefly explaining the prior art,
2 is an overall view for explaining the present invention,
3(a,b), 4,5 are views showing a part of FIG. 2,
6 is a perspective view showing a portion of the wire arrangement mechanism and the fall prevention mechanism in the present invention,
7 to 11 are views for explaining the operation of the present invention.

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

Figure 2 is an overall view for explaining the present invention, Figures 3 (a, b), 4, 5 is a view showing a part of Figure 2, Figure 6 is a wire arrangement mechanism and a fall prevention mechanism in the present invention. As a perspective view, the configuration of the present invention will be described with reference to FIGS. 2 to 6 as follows.

The fixed hanger mechanism for an underground power distribution line arrangement according to the present invention includes a driving device 10, a first remote control 20, an electric wire arrangement mechanism 30, a first winding mechanism 40, and a second winding The device 50, the first and second ultrasonic sensors 110 and 120, the first and second lighting lamps 130 and 140, the storage box 160, the second remote control 150, and the first and second buffer mechanism 60 , 70), and the first and second rollers 80 and 90, and a fall prevention mechanism 100.

The drive device 10 is provided with a drive device body 11, a screw 12, a drive motor 13, and a guide 14, as shown in FIGS. 2, 4, and 6.

The drive device body 11 is installed in the power outlet EH.

The screw 12 is disposed up and down in the power port EH and the manhole MH communicated with the power port EH, and is rotatably installed in the driving device body 11.

The driving motor 13 is installed on the driving device body 11 to rotate the screw 12. In this embodiment, the drive motor 13 rotates the screw 12 in the forward or reverse direction.

The guide 14 is disposed up and down in the power port EH and the manhole MH communicating with the power port EH, and is disposed adjacent to the screw 12. In this embodiment, the guide 14 has a long bar shape. Meanwhile, in this embodiment, a manhole MH in communication with the power tool EH is provided at a certain point of the power tool EH. At this time, the manhole (MH) may have a width that is difficult for people to enter.

As shown in FIG. 2, the first remote control 20 is disposed around the cover MD of the manhole MH, and remote control of the driving motor 13 is possible. In this embodiment, the first remote control 20 performs wireless communication with the driving motor 13 to remotely control the driving motor 13.

The wire arrangement mechanism 30 is provided with a wire arrangement groove 31, a guide through hole 32, and a screw through hole 33, as shown in Figs. 4 and 6, and a guide 14 and a screw ( It is installed to be able to move up and down on 12) and moves up and down by the drive of the drive motor 13. Meanwhile, in the present embodiment, the installation position between the wire arrangement mechanism 30 and the guide 14, and the installation position between the wire arrangement mechanism 30 and the screw 12 may be variously modified in consideration of interference between components.

The electric wire arrangement groove 31 is provided on the upper side of the electric wire arrangement mechanism 30, and a connection mechanism CE connecting the first and second underground distribution lines UL1 and UL2 is disposed. In the present embodiment, the first and second underground distribution lines UL1 and UL2 are physically and electrically connected to each other through a connection mechanism CE. And in this embodiment, the wire arrangement groove 31 is provided to correspond to the number of underground distribution lines. Meanwhile, in the present embodiment, the connection mechanism CE has a cylindrical shape, but may be variously modified such as a square cylindrical shape.

The guide through hole 32 is a guide 14 is inserted.

The screw through hole 33 is inserted into the screw 12 and is threadedly connected to the screw 12. Accordingly, according to the rotation of the screw 12, the wire arrangement mechanism 30 can be moved up and down.

As shown in Figs. 2 and 3, the first winding mechanism 40 is disposed on the power outlet EH so as to be located at one side (left side) of the electric wire arranging mechanism 30, and when the pulling force acts The first underground distribution line (UL1) is released, and when the pulling force is released, the first underground distribution line (UL1) is wound. In this embodiment, the first winding mechanism 40 may be provided with a spring or the like so that the first underground distribution line UL1 released by the pulling force returns to its original position. Meanwhile, in the present embodiment, the first winding mechanism 40 may wind or unwind the first underground distribution line UL1 by winding or unwinding the cord wire in a home appliance such as a vacuum cleaner. In addition, the first underground distribution line UL1 If you can wind or unwind, various methods can be applied. And in this embodiment, the first winding mechanism 40 is provided to correspond to the number of underground distribution lines.

As shown in Figs. 2 and 3, the second winding mechanism 50 is disposed on the power outlet EH so as to be located on the other side of the electric wire arrangement mechanism 30, and when the pulling force acts, the second underground distribution The line UL2 is released, and when the pulling force is released, the second underground distribution line UL2 is wound. In this embodiment, the first winding mechanism 40 may be provided with a spring or the like so that the first underground distribution line UL1 released by the pulling force returns to its original position. Meanwhile, in the present embodiment, the second winding mechanism 50 may wind or unwind the second underground distribution line UL2 by winding or unwinding the cord wire in a home appliance such as a vacuum cleaner, and in addition, the second underground distribution line UL2 If you can wind or unwind, various methods can be applied. And in this embodiment, the second winding mechanism 50 is provided to correspond to the number of underground distribution lines.

The first and second ultrasonic sensors 110 and 120 are installed on the first and second winding mechanisms 40 and 50, respectively, as shown in FIGS. 2 and 3, and the first and second winding mechanisms 40 and 50 When each approaching object is detected, the object detection signal is output. In this embodiment, the first and second ultrasonic sensing sensors 110 and 120 detect an object approaching the first and second winding mechanisms 40 and 50, but the object approaching the first and second winding mechanisms 40 and 50 is If it can be detected, various sensors can be applied. In addition, in the present embodiment, the first and second ultrasonic sensing sensors 110 and 120 can be installed in various positions as long as they can detect objects approaching the first and second winding mechanisms 40 and 50.

The first and second lighting lamps 130 and 140 are installed on the first and second winding mechanisms 40 and 50, respectively, as shown in Figs. 2 and 3, and detect objects from the first and second ultrasonic sensors 110 and 120. When each signal is received, it lights up respectively. In this embodiment, if the first and second lighting lamps 130 and 140 can illuminate the periphery of the first and second winding mechanisms 40 and 50, their installation positions may be variously modified.

The storage box 160, as shown in Figs. 2 and 3, has a body 161 with one side open and a door 162 for opening and closing the body 161, and the first winding mechanism 40 or It is installed in the second winding mechanism 50. In the present embodiment, if the storage box 160 can be provided with a spare tool and a flashlight therein, its installation position can be variously modified. Meanwhile, in this embodiment, the storage box 160 is installed on the first and second winding mechanisms 40 and 50, respectively.

The second remote control 150 is disposed in the storage box 160, and remote control of the driving motor 13 is possible. In this embodiment, it is possible to control the operation of the driving motor 13 inside the power tool EH through the second remote control 150. Meanwhile, in this embodiment, two second remote controllers 150 are provided, and are provided in each storage box 160. Here, the second remote control 150 is disposed above the storage box 160, but may be disposed inside the storage box 160.

As shown in Fig. 5, the first and second buffering mechanisms 60 and 70 are provided with supports 61 and 71, springs 62 and 72, and buffers 63 and 73, respectively, and manholes It is installed on both inner walls of (MH). In this embodiment, a plurality of first and second buffer mechanisms 60 and 70 may be provided, respectively.

The supports 61 and 71 have spring receiving grooves 61a and 71a opened upward.

The springs 62 and 72 are installed on the supports 61 and 71. In this embodiment, the springs 62 and 72 have a lower end installed in the spring receiving grooves 61a and 71a of the supports 61 and 71, and the upper end protrudes above the supports 61 and 71.

The buffers 63 and 73 are installed on the upper side of the springs 62 and 72 and are movable up and down. In this embodiment, the buffers 63 and 73 form a plate shape.

The first and second rollers 80 and 90 are provided under the supports 61 and 71 of the first and second buffering mechanisms 60 and 70, as shown in FIGS. When the underground distribution lines (UL1, UL2) move toward the manhole (MH), the first and second underground distribution lines (UL1, UL2) are guided, respectively. In this embodiment, the first and second rollers 80 and 90 are installed on the supports 61 and 71 of the first and second buffer mechanisms 60 and 70, but the first and second underground distribution lines UL1 and UL2 If it can be guided, the position can be variously modified. Meanwhile, in this embodiment, the first and second rollers 80 and 90 are provided to correspond to the number of underground distribution lines.

The fall prevention mechanism 100 is provided with a seating member 101 and a handle 102 as shown in FIGS. 5 and 6.

The seating member 101 has a handle hole 101a, a screw insertion hole 101b, and a guide insertion hole 101c, and is provided to be movable up and down, and the first and second buffering mechanisms 60 on both sides thereof. It is seated on the buffers 63 and 73 of 70), respectively. In this embodiment, the seating member 101 is preferably made of a material that is light and has constant elasticity.

The handle hole (101a), an upper opening hole (101a1) formed on the upper side of the seating member 101, a lower opening hole (101a2) formed on the lower side of the seating member (101), and the upper opening hole (101a1) And a communication hole 101a3 having a width smaller than the lower opening hole 101a2 and communicating the upper opening 101a1 and the lower opening 101a2. In this embodiment, a plurality of handle holes 101a may be provided.

The screw insertion hole 101b has a larger diameter than the screw 12, and the screw 12 is inserted.

In the guide insertion hole 101c, the guide 14 of the driving device 10 is inserted.

The handle 102 has an insertion portion 102a, an upper engaging portion 102b, and a lower engaging portion 102c. In this embodiment, the handle 102 may be provided with a plurality.

The insertion portion 102a is movably inserted into the communication hole 101a3 of the seating member 101 and has a vertical length longer than the communication hole 101a3 of the seating member 101. In this embodiment, the insertion portion 102a forms a bar shape.

The upper engaging portion (102b) is provided on the upper side of the insertion portion (102a), it is removable in the upper opening (101a1) of the seating member (101). In this embodiment, the upper engaging portion 102b forms a plate shape.

The lower engaging portion 102c is provided under the insertion portion 102a, and is removable in the lower opening 101a2 of the seating member 101. In this embodiment, the lower engaging portion 102c forms a plate shape.

On the other hand, in this embodiment, the first and second underground distribution lines (UL1, UL2) are designed to be wound or unwound on the first and second winding mechanisms 40, 50, but the first and second winding mechanisms 40, 50 When is not provided, the first and second underground distribution lines UL1 and UL2 may be arranged to be drooped with sufficient margin.

7 to 11 are views for explaining the operation of the present invention, but FIG. 11 is a view showing a part of FIG. 10, and the operation of the present invention will be described with reference to FIGS. 7 to 11 as follows.

In order to check the entire distribution facility provided inside the power outlet (EH), when an operator approaches the first winding mechanism 40 after entering the power outlet (EH), the first ultrasonic wave as shown in FIG. The detection sensor 110 detects a worker, and accordingly, the first lighting lamp 130 is turned on.

Then, the operator can conveniently check the configuration of the present invention in a bright environment.

At this time, the operator can check whether the configuration of the present invention operates normally by raising the wire tray 30 to a predetermined height using the second remote control 150 as shown in FIG. 8.

Here, when the operator checks the configuration of the present invention, if the tool in use is damaged, the spare tool provided in the storage box 160 may be used.

On the other hand, in the state where the present invention is installed as shown in Fig. 2, the connection state of the first and second underground distribution lines UL1 and UL2 in the connection device CE, or a distribution facility provided in the connection device CE (for example, For example, a periodic inspection of the earth leakage detection sensor, etc.) can be performed simply.

At this time, the worker opens the cover MD of the manhole MH and then drives the driving motor 13 using the first remote control 20.

Then, the wire arranging mechanism 30 moves upward by the forward rotation of the screw 12. At this time, when the operator drops the mobile phone (or work tool) into the manhole (MH) (or soil may flow into the manhole (MH)), as shown in Figure 9, the mobile phone is seated on the seating member 101 The impact is alleviated by the first and second buffering mechanisms 60 and 70.

Here, when the mobile phone falls to the seating member 101, the handle 102 is accommodated in the seating member 101 by its own weight, so that damage does not occur while the mobile phone collides with the handle 102.

On the other hand, when the electric wire arrangement mechanism 30 moves upward by the driving of the driving motor 13, the connection mechanism CE contacts the seating member 101, while the electric wire arrangement mechanism 30 and the seating member 101 ) Moves upward together, and is positioned as shown in FIG. 10.

At this time, the first and second underground distribution lines (UL1, UL2) are guided by the first and second rollers (80, 90) while being unwound from the first and second winding mechanisms (40, 50), so that the connection mechanism (CE) is It is located on the upper side of the manhole (MH) as shown in FIGS. 10 and 11. Here, the connection mechanism CE pushes the handle 102 upward, as shown in FIG. 11, so that the handle 102 protrudes from the seating member 101.

Then, the operator takes the mobile phone seated on the seating member 101, moves the seating member 101 out of the manhole (MH) by using the handle 102, and then removes the soil, etc. seated on the seating member 101 do.

And, the operator checks the connection mechanism (CE) at the inlet portion of the manhole (MH).

Thereafter, when the inspection of the connection mechanism CE is completed, the operator drives the driving motor 13 through the first remote control 20 so that the screw 12 rotates in the reverse direction.

Then, the electric wire arranging mechanism 30 moves downward and returns to its original position, and the first and second underground distribution lines UL1 and UL2 are wound around the first and second winding mechanisms 40 and 50 to return to their original position.

In this way, when the wire arrangement mechanism 30 returns to its original position, the operator inserts the seating member 101 into the screw 12 and the guide 14 and then falls into the manhole MH.

Then, the seating mechanism 101 falls to the lower side of the manhole MH, and is seated in the first and second buffer mechanisms 60 and 70 as shown in FIG. 2. At this time, the seating mechanism 101 is provided with a buffering force by the first and second buffering mechanisms 60 and 70, so that physical damage does not occur.

In the present invention as described above, when the operator passes through the inside of the electric power outlet (EH) and integrally inspects the entire distribution facilities arranged inside the electric power outlet (EH), the operator approaches the present invention, so that the surroundings can be brightened. , Workers can conveniently check distribution facilities. At this time, a worker located inside the power tool EH can conveniently check the configuration of the present invention using the second remote control 150.

In addition, in the present invention, if a tool that was in use is damaged while an operator is inspecting a power distribution facility inside the electric power tool (EH), the inspection work can be continued using a spare tool stored in the storage box 160.

In addition, the present invention, when briefly checking the connection device (CE) arranged at a certain point of the power tool (EH), even if the operator does not enter the power tool (EH), the connection device (CE) is inserted into the manhole (MH). ), you can conveniently check the connection mechanism (CE). In this case, in the present invention, when the manhole MH is a narrow simple manhole MH that cannot be passed by a person, the connection mechanism CE can be checked more conveniently.

In addition, the present invention, when the operator moves the connection mechanism (CE) to the upper side of the manhole (MH) for checking the connection mechanism (CE), when the mobile phone (or tool, etc.) falls into the manhole (MH), the connection mechanism Along with the movement of (CE), the mobile phone can be moved to the entrance of the manhole (MH), so important items such as mobile phones are not lost.

In addition, the present invention can prevent damage to the mobile phone by colliding the mobile phone with the handle 102 of the fall prevention mechanism 100 when the mobile phone (or tool) falls into the manhole (MH). 2 The shock applied to the mobile phone can be minimized through the buffer mechanism (60,70).

In addition, in the present invention, the connection mechanism CE moves upward by the movement of the electric wire arrangement mechanism 30, and the connection mechanism CE pushes the handle 102 of the fall prevention mechanism 100 upward, It is possible to conveniently move the seating member 101 out of the manhole (MH) by using the handle 102.

In addition, in the present invention, when the seating member 101 is reinserted into the manhole (MH), the first and second buffering mechanisms 60 and 70 buffer the seating member 101, thereby damaging the seating member 101. Can be minimized.

In addition, according to the present invention, the first and second underground distribution lines UL1 and UL2 can be stably moved up and down through the first and second winding mechanisms 40 and 50.

In addition, the present invention applies a ball screw method when moving the electric wire arrangement mechanism 30 up and down, which is the first and second in the electric power outlet (EH) when the electric wire arrangement mechanism 30 moves in a cylinder manner. This is because it is difficult to adjust the installation position between the respective components, such as setting the arrangement position of the underground distribution lines UL1 and UL2 and the arrangement position of the electric wire arrangement mechanism 30. Therefore, in the present invention, by applying the ball screw method to vertically move the wire arrangement mechanism 30, it is possible to conveniently arrange each component.

On the other hand, the present invention, in the sense that the structure in which the underground distribution line is mounted and fixed by the wire arrangement mechanism 30, further includes a variety of underground distribution equipment configurations for underground distribution, the name and claim of the present invention It is defined as'fixed hanger mechanism for old-placed underground distribution lines'.

10: drive device 20: first remote control
30: electric wire arrangement mechanism 40,50: first, second winding mechanism
60,70: 1st and 2nd buffer mechanism 80,90: 1st, 2nd roller
100: fall prevention mechanism 110, 120: first, second ultrasonic sensor
130,140: 1st, 2nd lighting, etc. 150: 2nd remote control
160: storage box EH: power outlet

Claims (1)

The driving device 10, the first remote control 20, the electric wire arrangement mechanism 30, the first winding mechanism 40, the second winding mechanism 50, the first and second ultrasonic sensing sensors 110,120 ), the first and second lighting lamps (130,140), the storage box (160), the second remote control (150), the first and second buffer mechanisms (60,70), and the first and second rollers (80,90) And, including a fall prevention mechanism 100,
The driving device 10 includes a driving device main body 11 installed in an electric power tool EH; A screw 12 disposed vertically in the power tool EH and the manhole MH communicated with the power tool EH, and rotatably installed in the driving device body 11; A drive motor 13 installed on the drive device body 11 to rotate the screw 12; Equipped with a guide 14 disposed up and down, but disposed adjacent to the screw 12, in the power port EH and the manhole MH communicated with the power port EH,
The first remote control 20 is disposed around the cover MD of the manhole MH, and remote control of the driving motor 13 is possible,
The electric wire arrangement mechanism 30 is provided on the upper side of the electric wire arrangement mechanism 30, and the electric wire arrangement groove 31 in which a connection mechanism CE connecting the first and second underground distribution lines UL1 and UL2 is disposed and; Guide through hole 32 into which the guide 14 is inserted; The screw 12 is inserted and provided with a screw through hole 33 that is thread-connected to the screw 12, and is installed to be movable up and down in the guide 14 and the screw 12, so that the drive motor 13 can be driven. But move up and down by the power outlet (EH) to the manhole (MH) entrance,
The first winding mechanism 40 is disposed on the electric power outlet EH to be located at one side of the electric wire arrangement mechanism 30, and when the pulling force acts, the first underground distribution line UL1 is released, and the pulling force When this is released, the first underground distribution line (UL1) is wound,
The second winding mechanism 50 is disposed on the power outlet EH so as to be located on the other side of the electric wire arrangement mechanism 30, and when the pulling force is applied, the second underground distribution line UL2 is released and the pulling force When this is released, the second underground distribution line (UL2) is wound,
The first and second ultrasonic sensing sensors 110 and 120 are installed on the first and second winding mechanisms 40 and 50, respectively, and when detecting objects approaching each of the first and second winding mechanisms 40 and 50, the object Each output detection signal,
The first and second lighting lamps 130 and 140 are respectively installed in the first and second winding mechanisms 40 and 50, and are respectively lit when object detection signals are received from the first and second ultrasonic sensors 110 and 120, respectively,
The storage box 160 includes a main body 161 with one side open; Equipped with a door 162 for opening and closing the main body 161, it is installed in the first winding mechanism 40 or the second winding mechanism 50,
The second remote control 150 is disposed in the storage box 160, and remote control of the driving motor 13 is possible,
The first and second buffer mechanisms (60,70), and supports (61,71); Springs 62 and 72 installed on the supports 61 and 71; Each of the shock absorbers 63 and 73 installed on the upper side of the springs 62 and 72 and capable of moving up and down are provided on the lower inner walls of both sides of the manhole MH, respectively,
The first and second rollers 80 and 90 are provided under the supports 61 and 71 of the first and second buffer mechanisms 60 and 70, and the first and second underground distribution lines UL1 and UL2 When moving toward the manhole (MH), guide the first and second underground distribution lines (UL1, UL2), respectively,
The fall prevention mechanism 100 includes an upper opening 101a1 formed on the upper side of the seating member 101, a lower opening 101a2 formed on the lower side of the seating member 101, and an upper opening 101a1, and A handle hole (101a) having a width smaller than that of the lower opening hole (101a2) and having a communication hole (101a3) communicating the upper opening hole (101a1) and the lower opening hole (101a2), and a larger diameter than the screw (12). It has a screw insertion hole 101b into which the screw 12 is inserted, and a guide insertion hole 101c into which the guide 14 of the driving device 10 is inserted, and is provided to be movable up and down, and both sides are removed. A seating member 101 that is respectively seated in the buffers 63 and 73 of the 1 and 2 buffer mechanisms 60 and 70; It is movably inserted into the communication hole 101a3 of the seating member 101 and is provided on the upper side of the insertion portion 102a and the upper and lower lengths longer than the communication hole 101a3 of the seating member 101 The upper engaging portion (102b) that can be inserted into the upper opening hole (101a1) of the seating member (101), and the lower engaging portion (102b) that is provided below the insertion portion (102a) and is insertable into the lower opening hole (101a2) of the seating member (101) Consisting of a handle 102 with a part 102c
A fixed hanger mechanism for an underground distribution line arranged in a power outlet, characterized in that.

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