KR101795013B1 - Apparatus for exchanging the distribution line in the status of on line - Google Patents

Abstract

The present invention relates to an apparatus for replacing a distribution line in a live state, and more particularly, to an apparatus for replacing a distribution line in a live state, capable of replacing the distribution line in an uninterruptible state by quickly bypassing a power source to a bypass line part in the distribution line to be replaced by switching a connector by operating a selection switch using a controller on the ground, and protecting a main bypass line from an impact, a vibration, etc. transmitted from the outside.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power line replacement apparatus in a live state, and more particularly, to a power line replacement apparatus in a distribution technology field. More particularly, To a power line replacement device in a live wire state for protecting a main bypass line from an impact such as a vibration transmitted from the outside, while permitting a power source to be bypassed to replace the power line in an uninterrupted state.

It is well known that electric power from power plants is generally supplied to each customer through distribution lines.

Conventional distribution lines for crossover and replacement of distribution lines include a method in which a ground operator bundles a replacement wire into a rope held by a lumbering operator in a state where workers are placed on the ground and the column on each pole in the line work section This was a method of fixing the rope to the insulator on the wire after the pillar operator pulled it up.

In this conventional method, the workers must be placed on the ground and the column on a pole-by-pole basis, and the above-mentioned work must be repeated for each power line installed in the previous pole, It is necessary to pull a large amount of power to keep the installed replacement wire in a tight state. Therefore, a large number of manpower is required, and workability and safety are very weak.

Particularly, such a method has a problem in that it occurs in a power failure state.

As a conventional technique in which such a problem has been partially overcome, Korean Patent Registration No. 10-1704613 (Aug. 20, 2018) discloses a " device for replacing a live wire in a live wire state ".

However, such a conventional power line replacement apparatus in a live-line state has a problem in that it can not stably protect the main bypass line from an impact such as vibration transmitted from the outside.

Korea Patent Registration No. 10-1704613 (Feb. 20, 2017) 'Replacement device for distribution line in live condition'

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for operating a selection switch by using a controller on the ground to quickly switch power from a distribution line, And to provide a device for replacing a live wire from a live wire in order to protect the main bypass wire from an impact such as vibration transmitted from the outside.

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above-mentioned object, the present invention is characterized in that, in order to electrically connect power distribution lines (11) for supplying electric power to a customer on top of a plurality of posts (10) A power connection unit 100 fixedly installed; A bypass wiring part 200 installed in the ground so as to supply electric power to a customer by bypassing electric power supplied to the power distribution line 11 by being electrically connected to at least two power connection parts 100 having a predetermined length; And a control unit controlling the power connection unit (100) so as to bypass the power supplied to the customer by the power distribution line (11) to the bypass wiring unit (200), at least a pair of the power connection unit Wherein the power supply connection part 100 is fixed to each of the struts 10 and the power supplied to the customer according to the control signal of the control part 300 is supplied to the power distribution line 11 or A pair of jump lines 120 electrically connected to the power distribution line 11 at both sides of the connection body 110. The pair of jump lines 120 are electrically connected to the power line 11, A connector 111 formed below the connector 110 and electrically connected to the bypass wiring part 200, a connector 111 formed on the connector 110 and electrically connected to the controller 300, (113), and the bypass wiring part (200) A main bypass line 210 electrically connected to the pair of the coupling members 110 and embedded in the ground surface, one end connected to the main bypass line 210 and the other end connected to the coupling member 110, An auxiliary bypass line 220 provided on the main bypass line 210 so that at least three of the connection bodies 110 are electrically connected to each other and an auxiliary bypass line 220 provided between the main bypass line 210 and the connection body 110, And a bypass switch 230 provided between the auxiliary bypass line 220 and the connection member 110 to electrically switch the auxiliary bypass line 220. The auxiliary bypass line 220 has one end connected to the main bypass line 210, (240), and the other end is connected to the connection unit (110) to which the main bypass line (210) is not connected, and the connection unit (240) There is no foreign matter in the short circuit or inside due to moisture. And a heating member 244. The control unit 300 is formed in a cylindrical shape so as to allow the locking member 24 to be in contact with the support member 24, The control box 310 is installed on the outer surface of the control box 310 and is electrically connected to a pair of the coupling units 110 and switches the coupling units 110 at the same time, A selection switch 313 for applying power to the distribution line 11 or the bypass wiring part 200, a cable roller 320 rotatably provided on both sides of the control enclosure 310, 313 and is wound or windable on the cable roller 320 and the other end is connected to the connector 113 so that the pair of connectors 110 is controlled by the selector switch 313, And a cable 330 which is provided so as to be movable The power line replacing apparatus further includes a protection unit 400 for protecting the main bypass line 210 from an external impact, wherein the protection unit 400 includes a base 400 provided on the ground G, Plate 410; Coupling means 420 coupled to the main bypass line 210; And coupling means 430 connecting the base plate 410 and the coupling means 420 to prevent the main bypass line 210 from moving upward due to an external force, ) Includes a casing (421) coupled to the outside of the main bypass line (210); A support bar 422 extending upwardly from the casing 421; And a coupling member 423 coupling the casing 421 to the main bypass line 210. The coupling unit 430 extends downward from the base plate 410 and has a lower portion A connection bar 431 opened to be coupled to the outside of the support bar 422; And an elastic member 432 accommodated in the connection bar 431 so as to be positioned at an upper portion of the support bar 422. The elastic member 432 is connected to the main bypass line 210 by an external force, And the shock is relaxed as the shrinkage and the relaxation move along with the upward and downward movement of the electric wire.

According to the present invention, an operator can safely switch a connection member by operating a selection switch by using a controller on the ground, thereby switching power supply from a distribution line to be bypassed to a bypass wiring portion quickly to replace a distribution line in an uninterrupted state .

In addition, there is an effect that the main bypass line can be stably protected from an impact such as vibration transmitted from the outside.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a front view showing a power line replacing apparatus in a live state according to the present invention.
2 is a conceptual view showing a connection state of a power connection part and a bypass wiring part of a power line replacement device in a live state according to the present invention.
3 is a perspective view showing a control unit of a power line replacement apparatus in a live state according to the present invention.
4 is a cross-sectional view showing a connection means of a power line replacement apparatus in a live state according to the present invention.
5 is an exploded perspective view showing the coupling of the main bypass line and the insertion tube in FIG.
6 is a partially enlarged view showing the combination of the main bypass line, the auxiliary bypass line and the insertion tube in FIG.
FIG. 7 is a cross-sectional view illustrating the filling process of FIG. 4.
Fig. 8 is a partially enlarged view showing the heating member of Fig. 4; Fig.
9 is a functional relationship diagram of a power line replacement apparatus in a live state according to the present invention.
10 is a partial enlarged view showing a state in which a protection unit is provided in a power line replacement apparatus in a live state according to the present invention.
And
11 is a side view showing the casing in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And should not be construed as limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein.

It should be understood that the embodiments according to the concept of the present invention are not limited to the particular mode of disclosure but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

Since the present invention uses the later-described Japanese Patent No. 1704613 as it is, all of the features of the device configuration described below can be understood as those described in Japanese Patent Registration No. 1704613. [

However, the present invention further includes a structure for protecting the main bypass line from the impact transmitted from the outside among the structures disclosed in the above-mentioned Japanese Patent No. 1704613 and its operation description, and this part is the most important constitutional feature.

Therefore, the device structure, characteristics, and operating relationship described below will be incorporated by reference in the above-mentioned U.S. Patent No. 1704613, and the structure related to the main features of the present invention will be described in detail at the rear end.

1, a power line replacement apparatus (hereinafter referred to as "replacement apparatus") in a live line state according to the present invention includes a power connection unit 100, a bypass wiring unit 200, and a control unit 300.

The power connection unit 100 is configured to switch the power supply line 11 to be supplied with power to the detour wiring unit 200 to be described later before replacing the power distribution line 11 to be replaced, A jump line 120 and a mounting base 130. [

1 and 2, a pair of jump lines 120 are detachably and electrically connected to both sides of the coupling member 110, and a cable 330 is connected to the coupling member 110 at an upper portion thereof. And a connecting hole 111 through which the main bypass line 210 or the auxiliary bypass line 220 is detachably connected is formed on the lower or side surface of the connector 113 .

A power supply from the power distribution line 11 is normally applied to the other power distribution line 11 through a pair of jump lines 120 to supply power to the inside of the connector 110, One of the pair of jump lines 120 is switched to be electrically connected to the main bypass line 210 or the auxiliary bypass line 220 coupled to the connection port 111 according to operation.

The jump line 120 is coupled to both sides of the coupling member 110 so that a pair of jump lines 120 may be provided for each coupling member 110. At this time, any one of the pair of jump lines 120 is electrically connected to the distribution line 11 to be replaced and the other is electrically connected to the distribution line 11 not to be replaced, so that the main bypass line 210 ) Or the auxiliary bypass line (220) to be applied to the distribution line (11) not to be replaced through the jump line (120).

The present invention is described with a separate jump line 120 provided in the connecting member 110. However, this is merely one embodiment, and if necessary, a pair of distribution lines 11 may be provided on the support 10 The connecting body 110 may be electrically connected between the conventional bypass lines (not shown) electrically connected to each other.

In the present invention, at least one or more projections formed on the outside of the clamp 141 for pressing the outer surface of the strut 10 The connection member 110 is fixedly installed on the upper portion of the power transmission line 11 by means of fastening means such as bolts or screws. However, this is only one embodiment, It is also possible to install it on a fixing plate or a tenter provided with insulators, in which a transformer (not shown) is fixed.

The bypass wiring part 200 bypasses the power supply line 11 to be supplied to the power distribution line 11 to be replaced and supplies power to the customer even in the non-conductive state. A bypass line 220 and a bypass switch 230.

The main bypass line 210 has a length such that at least the connection members 110 provided in the pair of pillars 10 spaced apart from the ground G are electrically connected to each other, Etc. so that there is less risk of damage or breakage due to damage to the surface of the wafer W or the like. In this case, when the distance between the pair of connectors 110 is long or the installation length of the main bypass line 210 is increased by other obstacles between the pair of supports 10, It is preferable that the main bypass lines 210 are electrically connected to each other and the connection means 240 will be described in more detail in the description of the auxiliary bypass line 220 to be described later.

The auxiliary bypass line 220 is different from the method of connecting the pair of connection bodies 110 to each of the main bypass lines 210 and the other bypass lines 210 are newly installed between the main bypass lines 210 It is the configuration to use in case.

The auxiliary bypass line 220 is connected at one end to be electrically connected to the main bypass line 210 by the connection means 240 and at the other end to the connection body 110 to which the main bypass line 210 is not connected They are used separately.

As shown in FIGS. 4 and 9, the connecting means 240 is formed so that the connecting portion can be hermetically sealed so as to prevent foreign matter from flowing into a short circuit caused by moisture or the like. (249), a filler (242), and a heating member (244).

The insertion tube 241 is basically formed into a tube shape having both sides open so that the main bypass line 210 can be inserted into both sides of the insertion tube 241. When the auxiliary bypass line 220 is connected, Shaped or " b " shape so that the auxiliary bypass line 220 and the main bypass line 210 can be electrically connected to each other.

At least one injection hole 241a is formed on the outer surface of the insertion tube 241 so that a filler 242 to be described later can be injected. At this time, a blocking plate for blocking the lower portion of the injection hole 241a is formed by protruding at the lower end of the injection hole 241a by elasticity so that the filler 242 is injected through the injection hole 241a, Is prevented from flowing out to the outside.

The silicon tube 249 may include at least two openings 241b of the insertion tube 241 having the shape of a '-', a 'T' and a ' And the auxiliary bypass line 220 is inserted through the main bypass line 210 or the auxiliary bypass line 220 so that the interior of the insertion tube 241 is sealed by the heating member 244 To the outer surface of the main bypass line 210 or the auxiliary bypass line 220.

The filler 242 is injected through the nozzle 243 inserted into the injection hole 241a so that the inside of the insertion tube 241 can be filled with no margin to prevent moisture from being generated inside the insertion tube 241. [

Expandable polystyrene (EPS), which is injected into the insertion tube 241 in a liquid state at the time of injection and hardens after a certain period of time, is used as the filler 242.

The heating member 244 includes a first heating body 245 and a second heating body 247 for heating and pressing the silicon tube 249 to seal the inside of the insertion tube 241 do.

Although the heating member 244 has been described as heating the silicon tube 249 by a power source applied from the outside, the heating member 244 is only one embodiment, and if necessary, It is also possible.

The first heating body 245 has a predetermined length and is connected to an external power source to apply power to the first and second heating plates 246 and 248 so that the first and second heating plates 246 and 248 can generate heat. 247 and a plurality of first heating plates 246 having a semicircular shape in the longitudinal direction are formed at a lower portion of the hinge shaft.

The first heating plate 246 having a semicircular shape is formed to have different diameters and selectively pressurized and heated according to the outer diameter of the main bypass line 210 or the auxiliary bypass line 220 inserted into the silicon tube 249 .

Of course, it is preferable that the second heating plate 248, which will be described later, also has a different diameter size, but is formed to have a circular shape with the second heating plate 248.

The second heating body 247 is formed to have the same shape as that of the first heating body 245 described above. On one side of the second heating body 247, a rotation hole for axial coupling with the hinge shaft is formed, and a first heating plate 246 The second heating plate 248 is provided so as to be heated by a power source to which the semicircular second heating plate 248 is applied.

A plurality of first heating plates 248 are provided on the outer surface of the first heating body 245 or the second heating body 247 so that the operator can individually select the first heating plate 248 and the second heating plate 248 on / A switch is provided to minimize power consumption for heat generation.

The bypass switch 230 is provided between the connection body 110 and the main bypass line 210 and between the connection body 110 and the auxiliary bypass line 220 so as to be able to be turned on and off so that unnecessary wiring .

That is, when the length of the power distribution line 11 to be replaced is long and it is necessary to proceed to a state that does not include a part of the connection body 110, the connection member 110 The power source of the distribution line 11 can be bypassed, thereby making it possible to achieve a convenient operation (see FIG. 9). [

1 and 3, the controller 300 controls the pair of connectors 110 simultaneously so that the power of the power distribution line 11 to be replaced is not interrupted, A cable roller 320, and a cable 330. The control box 310 includes a control cable 310, a cable roller 320,

Here, the control enclosure 310 is provided with the mounting base 130 or the above-described bracket so as to have an overall shape, and the connection body 110 is connected to the upper portion through the cable 330 to be described later, A selection switch 313 is provided which is capable of applying power to the bypass line portion 200 or bypassing the bypass line portion 200 when the power line 11 is replaced. At this time, it is preferable that the selection switch 313 is operated by the controller 311 carried by the operator on the ground with a diameter.

On both sides of the control enclosure 310, a rotation shaft 315, into which a cable roller 320 is rotatably inserted, is protruded.

The cable roller 320 is rotatably inserted into the rotation shaft 315 of the control enclosure 310 and has a pair of coupling members 110 to be connected to the outer surface of the cable roller 320 so that the cable 330 has a predetermined length in the form of a scroll. So that the cable 330 can be pulled or rewound according to the distance between the cable 330 and the cable 330. At this time, it is preferable that the control box 310 equipped with the cable roller 320 is detachably installed to the mounting stand 130 or the tear band so that the cable 330 can be elongated and prevented from being stretched more than necessary .

The pair of cable rollers 320 are installed on both sides of the control box 310 so as to be rotatable.

The cable 330 is wound around the cable roller 320 in a rolled shape so that one end thereof is connected to the selection switch 313 and the other end thereof is electrically connected to the connector 113 so that the selection switch 313 The pair of connectors 110 are switched at the same time so that power can be supplied to the customer through the distribution line 11 or the bypass wiring part 200. [

The replacement apparatus according to the present invention having the above-described structure is different from the conventional one in that a worker can safely operate the selection switch 313 using the controller on the ground to switch the connection body 110, There is an effect that the power supply line 11 can be replaced in an uninterrupted state by bypassing the power supply to the bypass wiring part 200 quickly.

In the present invention, the configuration of the protection unit 400 for protecting the main bypass line 210 from an external impact or the like is further implemented as shown in FIGS. 10 to 11 while including the above configuration as it is .

The protection unit 400 stably protects the main bypass line 210 from an impact due to vibrations or the like generated in an earthquake or a construction site while the main bypass line 210 can be generated To prevent disconnection or the like.

The protection unit 400 includes a base plate 410 provided on the ground G, coupling means 420 coupled to the outside of the main bypass line 210 and coupling means 420 coupled to the base plate 410 and the coupling means 420 And connecting means 430 for preventing the main bypass line 210 from being moved upward by an external force.

The base plate 410 may be made of a heavy material having a predetermined load and may be placed on the ground G so as to be disposed between the supports 10 or the upper surface may be flush with the ground G. [

The coupling means 420 includes a casing 421 coupled to the outside of the main bypass line 210, a support bar 422 extending upward from the casing 421, And a binding member 423 that binds to the bypass line 210.

Both ends of the casing 421 extend in the longitudinal direction of the main bypass line 210 and have a tube shape that is coupled to the outside of the main bypass line 210 while both ends are opened.

The casing 421 may be composed of a pair of casing units 424 which are branched in the vertical direction about the main bypass line 210.

The pair of casing units 424 may be coupled to each other by the coupling member 423 while flanges 424a extending outward at both ends are formed.

The binding member 423 includes bolts and nuts and binds the pair of casing units 424 to each other.

Therefore, the pair of casing units 424 can be easily detached and attached to the main bypass line 210.

The coupling means 420 may further include a pressing member 425 provided on the inner surface of the pair of casing units 424.

The pressing member 425 is preferably made of an insulating material including silicon or rubber.

The pressing member 425 is compressed by the binding of the binding member 423 so that the casing 421 can be hermetically sealed between the casing 421 and the main bypass line 210 so that the casing 421 contacts the main bypass line 210 So that they can be stably bound to each other.

The supporting bar 422 is formed in a cylindrical shape extending upward from a casing unit positioned above the pair of casing units 424.

The support bar 422 may be integrally connected to a casing unit located at an upper portion of the pair of casing units 424, separately manufactured, and then connected by welding or the like.

The connecting means 430 includes a connecting bar 431 extending downward from the base plate 410 and opened at the bottom to be coupled to the outside of the supporting bar 422, And an elastic member 432 accommodated in the connection bar 431 so as to be positioned.

The connecting bar 431 has a cylindrical shape in which a lower portion thereof is opened, and the supporting bar 422 is vertically movably coupled to the lower inner side.

The elastic member 432 is made of a spring, and contracts and relaxes as the main bypass line 210 moves up and down due to an external force so that the impact is buffered.

The base plate 410 may have a hollow 411 through which the upper portion of the connection bar 431 passes.

The connecting means 430 may further comprise adjusting means 433 for binding the connecting bar 431 to the base plate 410 and adjusting the elastic force of the elastic member 432.

The connection bar 431 is formed with a thread on the outer circumferential surface thereof and the adjusting means 433 is rotatably coupled around the hollow 411 while a thread is formed on the inner circumferential surface of the connection bar 431, And an adjustment lever 434 screwed outwardly.

The control lever 434 may be rotatably coupled to the hollow 411 by a bearing or the like.

The connection bar 431 is moved in the vertical direction according to the rotation of the control lever 434 so that the degree of pressing the elastic member 432 can be adjusted.

Accordingly, the protection unit 400 appropriately adjusts the elastic force of the elastic member 432 through the adjustment of the adjustment lever 434, thereby effectively preventing the shock from being transmitted to the main bypass line 210 The main bypass line 210 can be protected stably and also it is possible to prevent disconnection or the like which may be generated when the main bypass line 210 is moved in the vertical direction.

100: power connection part 110: connection part
120: Jump line 200: Bypass wiring part
210: Main bypass line 220: Second bypass line
230: Bypass switch 240: Connection means
300: control unit 310: control enclosure
320: cable roller 330: cable
400: protective part 410: base plate
411: hollow 420: coupling means
421: casing 422: support bar
423: binding member 424: casing unit
425: compression member 430: connecting means
431: connecting bar 432: elastic member
433: adjusting means 434: adjusting lever

Claims (1)

A power connection part 100 fixedly installed on each of the support posts 10 so that a distribution line 11 supplying electric power to a customer can be electrically connected to the upper part of a pillar 10 installed adjacent to each other on the ground;
A bypass wiring part 200 installed in the ground so as to supply electric power to a customer by bypassing electric power supplied to the power distribution line 11 by being electrically connected to at least two power connection parts 100 having a predetermined length; And
A control unit connected to at least a pair of the power connection units 100 and controlling the power connection unit 100 so that power supplied to the customer by the power distribution line 11 can be bypassed to the bypass wiring unit 200 300)
The power connection unit (100)
The control unit 300 is connected to the support posts 10 so that the power supplied to the customer can be supplied to the customer through the distribution line 11 or the bypass wiring unit 200 according to the control signal of the control unit 300 A pair of jump lines 120 provided on both sides of the connecting body 110 and electrically connected to the power distribution line 11, a pair of jump lines 120 formed on both sides of the connecting body 110, A connector 111 electrically connected to the connector 200 and a connector 113 formed on the connector 110 and electrically connected to the controller 300,
The bypass wiring portion 200 is formed of a metal,
A main bypass line 210 electrically connected to a pair of the coupling members 110 and embedded in the ground surface, one end connected to the main bypass line 210 and the other end connected to the coupling member 110, A sub bypass line 220 electrically connected to at least three of the connection bodies 110 on the main bypass line 210 of the main bypass line 210, And a detour switch (230) provided between the auxiliary bypass line (220) and the connecting body (110) to electrically switch the auxiliary detour line (220)
One end of the auxiliary bypass line 220 is electrically connected to the main bypass line 210 by the connection means 240 and the other end of the auxiliary bypass line 220 is connected to the connection body 240 to which the main bypass line 210 is not connected The connection unit 240 installed in the basement is connected to the connection pipe 240 through the insertion pipe 241, the silicon pipe 249, ), A filler (242), and a heating member (244)
The control unit (300)
A controller 310 installed on the outer surface of the control enclosure 310 and electrically connected to a pair of the connectors 110, A selection switch 313 that switches power supply lines 110 to the power distribution lines 11 or the bypass wiring unit 200 and a cable roller 320 that is rotatably provided on both sides of the control enclosure 310, And one end thereof is electrically connected to the selection switch 313 and is wound or windable on the cable roller 320 while the other end is connected to the connector 113 so that a pair of And a cable (330) configured to control the connection member (110), wherein the connection member (110)
It is possible to stably protect the main bypass line 210 from an impact caused by vibration by buffering vibrations generated in an earthquake or a construction site and to prevent a disconnection that may occur due to upward movement of the main bypass line 210 And a protection unit (400)
The protection unit 400 includes:
A base plate 410 provided on the ground G;
Coupling means 420 coupled to the main bypass line 210; And
And connecting means 430 connecting the base plate 410 and the coupling means 420 to prevent the main bypass line 210 from moving upward due to an external force,
The coupling means (420)
A casing (421) having both ends extended in the longitudinal direction of the main bypass line (210) and coupled to the outside of the main bypass line (210) while being opened;
A support bar 422 extending upwardly from the casing 421; And
And a binding member (423) for binding the casing (421) to the main bypass line (210)
The casing (421)
And a pair of casing units 424 branched vertically about the main bypass line 210,
The pair of casing units 424,
Flanges 424a extending outward at both ends are formed so as to be detachable to the main bypass line 210 and are coupled to each other by the coupling members 423,
The coupling means (420)
And a pressing member (425) provided on an inner surface of the pair of casing units (424)
The pressing member (425)
The casing 421 and the main bypass line 210 can be hermetically sealed while being tightened by the binding member 423 so that the casing 421 can be stably bound to the main bypass line 210 However,
The connecting means (430)
A connection bar 431 extending downward from the base plate 410 and having a lower portion opened to be coupled to the outside of the support bar 422 and having a thread formed on an outer circumferential surface thereof; And
Is accommodated in the connection bar 431 so as to be positioned on the upper portion of the support bar 422 and is contracted and relaxed in accordance with the movement of the main bypass line 210 in the vertical direction by an external force, An elastic member 432; And
And adjusting means 433 for binding the connection bar 431 to the base plate 410 and adjusting the elastic force of the elastic member 432,
The support bar 422,
And is integrally connected to a casing unit located at an upper portion of the pair of casing units 424,
The base plate 410 may be formed,
A hollow 411 through which the upper portion of the connecting bar 431 passes is formed,
The adjusting means (433)
And an adjusting lever 434 rotatably coupled to the hollow 411 and threaded on an inner circumferential surface thereof and screwed to the outside of the connecting bar 431,
The regulating lever 434,
And the elastic force of the elastic member (432) is adjusted by moving the connection bar (431) in the vertical direction according to the rotation.

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