KR101587512B1 - Insulator apparatus for the fixing of aerial line - Google Patents

Abstract

The present invention relates to an insulator apparatus for stably fixating an overhead feeder. The insulator apparatus of the present invention comprises: a fixing bracket; a support device installed in an upper part of the fixing bracket; first to fourth insulators for supporting first to fourth aerial lead-in distribution lines, respectively; a case having a case main body and a cover with an insulating material, and installed in an upper part of the support; a fire detection sensor installed outside of the case; first and second conductors electrically connected to the aerial lead-in distribution lines; first and second guide devices with an insulating material; first and second fixing device with an insulating material; first and second fixing body with an insulating material; and first to fourth aerial lead-in distribution line separation detection device having a transmitter for outputting a detection signal.

Description

TECHNICAL FIELD [0001] The present invention relates to an insulator for stably fixing a processing distribution line.

The present invention relates to an insulator for stably fixing a processing distribution line.

Generally, large power generated in a power plant is transmitted to each substation with high-voltage power through a power transmission line such as a transmission tower. Substations are subjected to various stages of transforming process, and processed distribution lines And the distribution process that will be supplied to each region.

On the other hand, if the process line from Jeonju to the customer is long, connect the processing line through a separate connection mechanism in the middle.

However, conventionally, there is no means for supporting the processing distribution line, so that it is not possible to stably fix the processing distribution line drawn into the connection mechanism.

Also, in the past, when a fire occurred in the connection mechanism, it was not immediately known, and coping with fire was delayed.

Conventionally, the connection between the processing distribution line and the connection mechanism is weakened, and when the processing distribution line is disconnected from the connection mechanism, a short circuit may occur due to contact between adjacent processing distribution lines.

In addition, conventionally, when a machining distribution line is disconnected from a connection mechanism for maintenance, when a residual current is left in a state where a residual current is left, a short circuit occurs due to contact between adjacent process distribution lines.

Korean Patent No. 10-1365654

The present invention provides an insulator apparatus for stably fixing a machining distribution line, quickly confirming occurrence of a fire, and stably fixing a machining distribution line to prevent short-circuiting between the machining distribution lines by maintaining a gap between adjacent process distribution lines This is the task to be done.

According to an aspect of the present invention,

Fixing bracket (B) and:

A support mechanism S provided on the upper portion of the fixing bracket B;

, A first insulator (I1) provided on the upper portion of the fixing bracket (B) and supporting the first drawing-in power distribution line (L1) from the electric pole:

A second insulator 12 provided on the upper portion of the fixing bracket B and opposed to the first insulator I1 on the basis of the support mechanism S and supporting the second lead-in power distribution line L2 from the customer, :

A third insulator I3 disposed on the upper portion of the fixing bracket B and located behind the first insulator I1 and supporting the third incoming processing distribution line L3 from the pole,

A fourth insulator 14 which is provided on the upper portion of the fixing bracket B and faces the third insulator 13 on the basis of the support mechanism S and which supports the fourth incoming power distribution line L4 from the customer, :

A first lead-in hole 11a1 which is formed to penetrate laterally on the left side surface and into which the first lead-in power distribution line L1 is led from the left side, a second lead- A first connecting portion 11a having a second receiving hole 11a2 and a first receiving space 11a3 provided inside the first receiving hole 11a2 and communicating with the first receiving hole 11a1 and the second receiving hole 11a2, A third lead-in hole 11a1 formed so as to penetrate laterally on the rear left side of the first lead-in hole 11a1 and parallel to the first lead-in hole 11a1 in the front and rear direction, and a third lead-in power distribution line L3 from the left- Hole 11b1 and the second inlet hole 11a2 and is positioned parallel to the second inlet hole 11a2 in the fore-and-aft direction and the fourth inlet machining distribution line L4 is drawn from the right chamber A fourth receiving hole 11b2, a second receiving space 11b3 provided inside the third receiving hole 11b1 and communicating with the fourth receiving hole 11b2, A case body 11 made of an insulating material having a second connecting portion 11b having a first connecting portion 11a and a second connecting portion 11b and a partition 11c partitioning the first connecting portion 11a and the second connecting portion 11b; A case 10 provided on an upper portion of the support mechanism S and having a cover 12 made of an insulating material detachably mounted on the upper portion of the case body 11;

A fire detection sensor 150 installed outside the case 10;

One end of the first lead-in power distribution line L1 is electrically connected and the other end of the second lead-in power distribution line L2 is electrically connected to the other end of the first lead- And a second conductor

One end of the third incoming processing distribution line L3 is electrically connected and the other end of the fourth incoming processing distribution line L4 is electrically connected to the other end of the fourth reception processing distribution line L4, And a second conductor (30)

A first guide mechanism 40 of an insulating material formed to protrude leftward from the left side surface of the case body 11;

A first insertion mechanism moving portion 51a provided with a lubricating oil inlet port 51a1 formed so as to be vertically penetrated and provided so as to be laterally movable on the upper portion of the first guide mechanism 40 and a first insertion mechanism moving portion 51a opened upward, And a lubricating oil supply port 51b1 communicated with the lubricating oil inlet port 51a1 of the first insertion mechanism moving portion 51a1 and a first hooking mechanism 51b formed to protrude upward on the upper portion of the first insertion mechanism moving portion 51a, A first lead-in power distribution line insertion hole 51c1 through which the first lead-in power distribution line L1 is inserted, and a first lead-in power distribution line upper portion A first insertion processing distribution line lower fixing hole 51c3 formed to penetrate through the upper and lower walls in the lower portion and communicating with the first insertion processing distribution line insertion hole 51c1 and a second insertion processing distribution line lower fixing hole 51c2 communicating with the first insertion processing distribution line insertion hole 51c1, A first lead-in portion provided at the rear and communicating with the first lead-in power distribution line insertion hole 51c1, A first pulling-in power distribution line inserting portion 51c provided at the front of the first inserting mechanism moving portion 51a and having a power line detachment detecting mechanism installation space 51c4, and a third pulling- A third incoming processing distribution line upper fixing hole 51d2 communicating with the third incoming processing distribution line insertion hole 51d1 so as to penetrate the upper portion of the upper portion of the third insertion processing distribution line insertion hole 51d1, A third receiving-processing-distribution-line lower fixing hole 51d3 communicating with the third receiving-processing distribution line insertion hole 51d1 and a third receiving-processing-distribution-line insertion hole 51d1 formed in the lower portion of the lower fixing hole 51d2, And a third insertion processing line disconnection detecting mechanism installation space 51d4 communicating with the third insertion processing power distribution line insertion hole 51d1. The third insertion processing distribution line insertion portion 51d4 provided at the rear of the first insertion mechanism moving portion 51a 51d and an opening / closing port 51e for opening / closing the lubricating oil supply port 51b1 of the first hooking mechanism 51b A first insertion mechanism (51) movably sideways at an upper portion of the first guide mechanism (40); A first lead-in power line upper joining member 52 which is detachably threadedly engaged with the first lead-in power line upper fixing hole 51c2 of the first insertion mechanism 51 to fix the first lead-in power distribution line L1; A first pulling-processing power distribution line lower fastening member 53 detachably threadedly engaged with the first pulling-process distribution line lower fixing hole 51c3 of the first insertion mechanism 51 to fix the first pulling-in processing power distribution line L1; A third lead-in power line upper coupling member 54 that is threadably coupled to the third lead-in power line upper fixing hole 51d2 of the first insertion mechanism 51 to fix the third lead-in power distribution line L3; A third incoming processing distribution line lower fastening member 55 detachably threadably joined to the third incoming processing distribution line lower fixing hole 51d3 of the first insertion mechanism 51 to fix the third incoming processing distribution line L3; A first fixing mechanism 50 made of an insulating material and provided with:

And is provided on the left side surface of the case body 11 so as to be movable up and down and is located above the first insertion mechanism 51 and is connected to the first hooking mechanism 51b of the first insertion mechanism 51 A first fixing member 60 of an insulating material which is inserted and removed;

A second guide mechanism 70 made of an insulating material and protruding to the right side of the right side surface of the case body 11;

A second insertion mechanism moving part 81a provided with a lubricating oil inlet port 81a1 formed so as to be vertically penetrated and provided so as to be laterally movable on the upper portion of the second guide mechanism 70 and a second insertion mechanism moving part 81a opened upward, A second hooking mechanism 81b having a lubricating oil supply port 81b1 communicated with the lubricating oil inlet port 81a1 and protruding upward from the upper portion of the second insertion mechanism moving portion 81a; A second drawing-in power distribution line upper-side fixing hole 81c2 which is formed in an upper portion so as to penetrate through the upper side and communicates with the second drawing-in power distribution line insertion hole 81c1, A second inlet machining distribution line lower fixing hole 81c3 formed to penetrate the upper and lower chambers in the lower portion and communicating with the second inlet machining distribution line insertion hole 81c1 and a second inlet machining distribution line lower fixing hole 81c3 provided in the rear of the second inlet distribution line insertion hole 81c1, And a second inlet machining power line detachment mechanism installation space 81c4 communicating with the second inlet machining power distribution line insertion hole 81c1. The first inlet machining power distribution line insertion portion (81c1) provided in front of the second insertion mechanism movement portion 81a A fourth inlet processing distribution line insertion hole 81d1 formed to penetrate through the upper portion of the upper portion of the fourth inlet processing distribution line insertion hole 81d1 and communicated with the fourth inlet processing distribution line insertion hole 81d1, A hole 81d2, and a through hole 81d2, A fourth inlet machining distribution line lower fixing hole 81d3 communicating with the line insertion hole 81d1 and a fourth inlet machining distribution line insertion hole 81d1 communicating with the fourth inlet machining distribution line insertion hole 81d1, The fourth insertion processing distribution line inserting portion 81d provided at the rear of the second insertion mechanism moving portion 81a and having the four insertion processing line disconnection detecting mechanism installation space 81d4 and the fourth insertion processing line inserting portion 81d provided at the rear of the second insertion mechanism moving portion 81b, A second insertion mechanism 81 which is provided so as to be laterally movable on the upper portion of the second guide mechanism 70, including an opening / closing port 81e for opening / closing the supply port 81b1; A second lead-in power distribution line upper fastening member 82 that is threadably coupled to the second lead-in power line upper fixing hole 81c2 of the second insertion mechanism 81 to fix the second lead-in power distribution line L2; A second pull-in processing distribution line lower fastening member 83 detachably threadably joined to the second pull-in processing distribution line lower fixing hole 81c3 of the second insertion mechanism 81 to fix the second pull-in processing distribution line L2; A fourth lead-in power distribution line upper fastening member 84 that is threadably engaged with the fourth lead-in power distribution line upper fixing hole 81d2 of the second insertion mechanism 81 to fix the fourth lead-in power distribution line L4; A fourth inlet machining distribution line lower fastening member 85 detachably threadably joined to the fourth inlet machining distribution line lower fixing hole 81d3 of the second insertion mechanism 81 to fix the fourth inlet machining distribution line L4; A second fixing mechanism 80 of an insulating material provided with:

And is provided on the right side surface of the case main body 11 so as to be vertically movable and is located above the second insertion mechanism 81 and is inserted into the second hooking mechanism 81b of the second insertion mechanism 81 A second fixing body 90 made of an insulating material;

The first fixing mechanism 50 is provided in the first insertion processing line disconnection detecting mechanism installation space 51c4 and is inserted into the first insertion processing line insertion hole 51c1 of the first fixing mechanism 50, An ultrasonic sensor 111 for detecting the departure of the first fluid L1; And a transmitter 112 installed outside the first fixing mechanism 50 and electrically connected to the ultrasonic sensor 111 for outputting a detection signal from the ultrasonic sensor 111. [ (110) and:

 The third fixing device 50 is provided in the third insertion processing line disconnection detecting mechanism installation space 51d4 so as to be connected to the third inlet processing distribution line inserted into the third inlet processing line insertion hole 51d1 of the second fixing mechanism 80, An ultrasonic sensor 121 for detecting the departure of the third lens L3; And a transmitter 122 provided outside the first fixing mechanism 50 and electrically connected to the ultrasonic sensor 121 for outputting a detection signal from the ultrasonic sensor 121. [ (120) and:

The second fixing mechanism 80 is provided in the second insertion processing line disconnection detecting mechanism installation space 81c4 and is inserted into the second insertion processing line insertion hole 81c1 of the second fixing mechanism 80, An ultrasonic sensor 131 for detecting a departure of the second lens L2; And a transmitter 132 provided outside the second fixing mechanism 80 and electrically connected to the ultrasonic sensor 131 for outputting a detection signal from the ultrasonic sensor 131. [ (130) and:

Is inserted into the fourth insertion processing distribution line insertion hole 81d1 of the second fixing mechanism 80 and is provided in the fourth insertion processing line disconnection detecting mechanism installation space 81d4 of the second fixing mechanism 80, An ultrasonic sensor 141 for detecting the departure of the second lens L4; And a transmitter 142 provided outside the second fixing mechanism 80 and electrically connected to the ultrasonic sensor 141 for outputting a detection signal from the ultrasonic sensor 141. [ (140):

And a control unit.

The present invention has the effect of preventing a short circuit between power distribution lines by stably fixing a processing distribution line located between a pole and a customer and coping with a fire quickly, and by maintaining a spacing between adjacent distribution lines.

1 is a whole view for explaining the present invention,
Fig. 2 is an enlarged view showing a part of Fig. 1,
3 is a partial plan sectional view for explaining the present invention,
4 is an enlarged view showing a part of Fig. 3,
Fig. 5 is a sectional view taken along line XX and YY in Fig. 1,
Figs. 6 and 7 are enlarged views showing a part of Fig. 5
8 to 12 are diagrams for explaining the operation of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in detail with reference to the accompanying drawings.

1 is an overall view for explaining the present invention, Fig. 2 is an enlarged view showing a part of Fig. 1, Fig. 3 is a partial plan sectional view for explaining the present invention, Fig. 5 is a sectional view taken along line XX of Fig. 1 and Fig. 7 is a partially enlarged view of Fig. 5, and structural characteristics of the present invention will be described with reference to Figs. 1 to 7 As follows.

The present invention relates to a fixing device comprising a fixing bracket B, a supporting mechanism S, a first insulator I1, a second insulator I2, a third insulator I3, a fourth insulator I4, (10), a fire detection sensor (150), a first conductor (20), a second conductor (30), a first guide mechanism (40), a first fixing mechanism The second fixing mechanism 80, the second fixing body 90, the first drawing-in power distribution line separation detecting mechanism 110, the third drawing processing A power line detachment detecting mechanism 120, a second incoming power line disconnection detecting mechanism 130, and a fourth incoming power line disconnection detecting mechanism 140, and connects the processing power distribution lines.

The fixing bracket (B) is installed on the structure between the pole and the customer.

The support mechanism S is installed on the upper portion of the fixing bracket B.

The first insulator 11 is provided on the upper portion of the fixing bracket B and supports the first drawing-in power distribution line L1 from the pole.

The second insulator 12 is provided on the upper portion of the fixing bracket B and is opposed to the first insulator 11 on the basis of the support mechanism S and supports the second incoming processing distribution line L2 from the customer .

The third insulator I3 is disposed on the upper portion of the fixing bracket B and is located behind the first insulator I1 and supports the third incoming processing distribution line L3 from the pole.

The fourth insulator I4 is provided on the upper portion of the fixing bracket B and is opposed to the third insulator 13 on the basis of the support mechanism S and supports the fourth incoming processing distribution line L4 from the customer .

The case 10 has a case body 11 and a cover 12 and is made of an insulating material and has a rectangular case shape.

The case body 11 has a first connecting portion 11a, a second connecting portion 12a, and a partitioning portion 11c, and is formed to open upward.

The first connecting portion 11a is formed so as to penetrate laterally on the left side surface and has a first inlet hole 11a1 through which the first inlet drawing distribution line L1 is drawn from the left chamber, A second inlet hole 11a2 into which the second inlet processing distribution line L2 is drawn and a first accommodation space 11a3 provided inside and communicating with the first inlet hole 11a1 and the second inlet hole 11a2 Equipped.

The second connecting portion 11b is formed to penetrate laterally on the rear left side of the first receiving hole 11a1 and is positioned parallel to the first receiving hole 11a1 in the fore and aft direction and is connected to the third incoming processing distribution line L3, And a second inlet hole 11a2 which is formed so as to penetrate laterally on the rear right side surface of the second inlet hole 11a2 and which is parallel to the front inlet and the back inlet 11a2, A fourth inlet hole 11b2 into which the power distribution line L4 is inserted and a second accommodation space 11b3 provided inside and communicating with the third inlet hole 11b1 and the fourth inlet hole 11b2.

The partitioning portion 11c has a plate shape and defines a first connecting portion 11a and a second connecting portion 11b.

The cover 12 is detachably mounted on the upper portion of the case body 11.

The fire detection sensor 150 is installed outside the case 10, detects a fire when the present invention occurs, and outputs a warning signal to the external manager wirelessly. In the present embodiment, the fire detection sensor 150 may be applied with a conventional technique for detecting heat or smoke.

The first conductor 20 is installed on the inner bottom of the first housing space 11a3 of the case body 11 and has one end of the first lead-in power distribution line L1 electrically connected to the second lead-in power distribution line L2 Are electrically connected to each other. In this embodiment, the first conductor 20 has a rectangular plate shape.

The second conductor 30 is installed on the inner bottom of the second housing space 11b3 of the case body 11 and one end of the third incoming processing power distribution line L3 is electrically connected and the fourth incoming processing power distribution line L4 Are electrically connected to each other. In this embodiment, the second conductor 30 has a rectangular plate shape.

The first guide mechanism (40) is formed on the left side surface of the case body (11) so as to protrude leftward. At this time, the first guide mechanism 40 is made of an insulating material and is formed to be long in the side direction.

The first fixing mechanism 50 includes a first insertion mechanism 51, a first drawing-in power distribution line upper fastening member 52, a first drawing-in power distribution line lower fastening member 53, a third drawing- A member 54, and a lower third coupling-in power distribution line fastening member 55, and is made of an insulating material.

The first insertion mechanism 51 includes a first insertion mechanism moving portion 51a, a first hooking mechanism 51b, a first incoming processing distribution line insertion portion 51c, a third incoming processing distribution line insertion portion 51d, And an opening / closing port 51e, so as to be laterally movable above the first guide mechanism 40. [

The first insertion mechanism moving portion 51a is provided with a lubricating oil inlet port 51a1 formed so as to pass through the upper and lower portions and is provided so as to be laterally movable on the upper portion of the first guide mechanism 40. [

The first hooking mechanism 51b is provided with a lubricating oil supply port 51b1 which is opened upward and communicated with the lubricating oil inlet 51a1 of the first insertion mechanism moving portion 51a and is provided on the upper portion of the first insertion mechanism moving portion 51a And is formed so as to protrude upward.

The first lead-in power distribution line insertion portion 51c is formed to penetrate laterally and has a first lead-in power distribution line insertion hole 51c1 into which the first lead-in power distribution line L1 is inserted, A first pulling-in power distribution line upper fixing hole 51c2 communicating with the first pulling-in power distribution line insertion hole 51c1 and a second pulling-in power distribution line upper fixing hole 51c2 communicating with the first pulling-in power distribution line insertion hole 51c1, A first incoming processing line disconnection detecting mechanism installation space 51c4 provided at the rear of the first input line inserting hole 51c1 and in communication with the first incoming processing line inserting hole 51c1, And is provided in front of the first insertion mechanism moving portion 51a.

The third incoming processing distribution line inserting portion 51d includes a third incoming processing distribution line inserting hole 51d1 formed to penetrate laterally and into which the third incoming processing distribution line L3 is inserted, A third inlet machining distribution line upper fixing hole 51d2 communicating with the third inlet machining distribution line insertion hole 51d1 and a third inlet inlet hole 51d2 formed in the lower portion so as to pass through the upper and lower chambers and in communication with the third inlet machining distribution line insertion hole 51d1, A third incoming processing line disconnection detecting mechanism installation space 51d4 provided in front of the third incoming processing line inserting hole 51d1 and communicating with the third incoming processing line inserting hole 51d1, And is provided at the rear of the first insertion mechanism moving portion 51a.

The opening 51e of the first insertion mechanism 51 is detachably provided in the lubricating oil supply port 51b1 of the first hooking mechanism 51b so that the lubricating oil supply port 51b1 of the first hooking mechanism 51b is opened / do.

The first lead-in power distribution line upper fastening member 52 is detachably coupled to the first lead-in power distribution line upper fixing hole 51c2 of the first insertion mechanism 51 to fix the first lead-in power distribution line L1.

The first pull-in processing distribution line lower fastening member 53 is detachably and threadably engaged with the first pull-in processing distribution line lower fixing hole 51c3 of the first insertion mechanism 51 to fix the first pull-in processing distribution line L1.

The third lead-in power distribution line upper coupling member 54 is detachably coupled to the third lead-in power distribution line upper fixing hole 51d2 of the first insertion mechanism 51 to fix the third lead-in power distribution line L3.

The third incoming processing distribution line lower fastening member 55 is detachably and threadably connected to the third incoming processing distribution line lower fixing hole 51d3 of the first insertion mechanism 51 to fix the third incoming processing distribution line L3.

The first fixing member 60 has an annular shape and is vertically movably provided on the left side surface of the case body 11. The first fixing member 60 is located above the first insertion mechanism 51, And is inserted into the first hooking mechanism 51b. At this time, the first fixing body 60 is made of an insulating material.

The second guide mechanism (70) is formed on the right side surface of the case body (11) so as to protrude rightward. At this time, the second guide mechanism 70 is made of an insulating material and is formed to be long in the side direction.

The second fixing mechanism 80 includes a second insertion mechanism 81, a second incoming processing distribution line upper fastening member 82, a second incoming processing distribution line lower fastening member 83, a fourth incoming processing distribution line upper fastening member 83, Member 84, and a fourth lead-in power distribution line lower fastening member 85, and is made of an insulating material.

The second insertion mechanism 81 includes a second insertion mechanism moving portion 81a, a second hooking mechanism 81b, a first drawing processing distribution line insertion portion 81c, a fourth drawing processing distribution line insertion portion 81d, And an opening / closing port 81e, so as to be laterally movable in the upper portion of the second guide mechanism 70. [

The second insertion mechanism moving portion 81a has a lubricating oil inlet 81a1 formed so as to pass through the upper and lower portions thereof and is provided so as to be laterally movable in the upper portion of the second guide mechanism 70. [

The second hooking mechanism 81b is provided with a lubricating oil supply port 81b1 which is opened upward and communicated with the lubricating oil inlet 81a1 of the second insertion port 81a, And is formed so as to protrude upward.

The first pull-in processing power distribution line insertion portion 81c includes a second pull-in processing power distribution line insertion hole 81c1 formed to penetrate laterally, and a second pull-in processing distribution line insertion hole 81c1 formed to penetrate the upper portion of the upper pull- A second inlet machining distribution line lower fixing hole 81c3 which is formed so as to penetrate through the upper and lower walls in the lower portion and communicates with the second inlet machining distribution line insertion hole 81c1, And a second insertion processing line disconnection detecting mechanism installation space 81c4 which is provided at the rear of the second inlet distribution line insertion hole 81c1 and communicates with the second inlet processing distribution line insertion hole 81c1. .

The fourth inlet machining distribution line inserting portion 81d has a fourth inlet machining distribution line insertion hole 81d1 formed to penetrate laterally and a second inlet machining distribution line insertion hole 81d1 formed to penetrate the upper portion of the fourth inlet processing distribution line insertion hole 81d1, A fourth inlet machining distribution line lower fixing hole 81d3 which is formed so as to pass through the upper and lower walls in the lower portion and communicates with the fourth inlet machining distribution line insertion hole 81d1, And a fourth insertion processing line disconnection detecting mechanism installation space 81d4 provided in front of the four insertion processing distribution line insertion hole 81d1 and in communication with the fourth insertion processing line insertion hole 81d1, 81a.

The opening 81e of the second insertion mechanism 81 is detachably provided in the lubricating oil supply port 81b1 of the second latching mechanism 81b so that the lubricating oil supply port 81b1 of the second latching mechanism 81b is opened / do.

The second lead-in power distribution line upper coupling member 82 is detachably coupled to the second lead-in power distribution line upper fixing hole 81c2 of the second insertion mechanism 81 to fix the second lead-in power distribution line L2.

The second inlet machining distribution line lower fastening member 83 is detachably coupled to the second inlet machining distribution line lower fixing hole 81c3 of the second insertion mechanism 81 to fix the second inlet machining distribution line L2.

The fourth lead-in power distribution line upper fastening member 84 is detachably and threadably engaged with the fourth lead-in power distribution line upper fixing hole 81d2 of the second insertion mechanism 81 to fix the fourth lead-in power distribution line L4.

The fourth inlet machining distribution line lower connecting member 85 is detachably and threadably coupled to the fourth inlet machining distribution line lower fixing hole 81d3 of the second insertion mechanism 81 to fix the fourth inlet machining distribution line L4.

The second fixing member 90 has an annular shape and is vertically movably provided on the right side surface of the case body 11 and is positioned above the second insertion mechanism 81, 2 hook mechanism 81b. At this time, the second fixing body 90 is made of an insulating material.

The first incoming processing line disconnection detecting mechanism 110 includes an ultrasonic sensor 111 and a transmitter 112 and notifies the external manager when the first incoming processing line L1 is detached.

The ultrasonic sensor 111 of the first lead-in power line disconnection detecting mechanism 110 is installed in the first lead-in processing line disconnection detecting mechanism installation space 51c4 of the first securing mechanism 50, And detects the departure of the first drawing-in power distribution line L1 inserted into the first drawing-in power distribution line insertion hole 51c1. At this time, the ultrasonic sensor 111 detects the departure of the first incoming processing distribution line L1 through confirmation of the distance change to the first incoming processing distribution line L1.

The transmitter 112 of the first incoming processing line disconnection detecting mechanism 110 is installed outside the first fixing mechanism 50 and is electrically connected to the ultrasonic sensor 111 of the first incoming processing line disconnection detecting mechanism 110 And outputs a sensing signal from the ultrasonic sensor 111. At this time, the external manager receives the detection signal through a separate terminal, thereby recognizing the departure of the first incoming processing distribution line L1.

The third incoming processing line disconnection detecting mechanism 120 includes the ultrasonic sensor 121 and the transmitter 122 and notifies the external manager when the third incoming processing line E3 is deviated.

The ultrasonic sensor 121 of the third lead-in power line disconnection detecting mechanism 120 is installed in the third lead-in processing line disconnection detecting mechanism installation space 51d4 of the first securing mechanism 50, And detects the departure of the third incoming processing distribution line L3 inserted into the third incoming processing distribution line insertion hole 51d1. At this time, the ultrasonic sensor 121 detects the deviation of the third incoming processing distribution line L3 through confirmation of the distance change to the third incoming processing distribution line L3.

The transmitter 122 of the third incoming processing power distribution line departure detecting mechanism 120 is installed outside the first fixing mechanism 50 and is electrically connected to the ultrasonic sensor 121 of the third incoming processing power line departure detecting mechanism 120 And outputs a sensing signal from the ultrasonic sensor 121. At this time, the external manager receives the detection signal through a separate terminal, so that the third manager can know the departure of the third incoming processing distribution line L3.

The second incoming processing line disconnection detecting mechanism 130 includes an ultrasonic sensor 131 and a transmitter 132 and notifies the external manager when the second incoming processing line L2 is detached.

The ultrasonic sensor 131 of the second lead-in power line disconnection detecting mechanism 130 is installed in the second lead-in processing line disconnection detecting mechanism installation space 81c4 of the second securing mechanism 80, And detects the escape of the second lead-in power distribution line L2 inserted into the second lead-in power distribution line insertion hole 81c1. At this time, the ultrasonic sensor 131 detects the departure of the second incoming processing distribution line L2 through confirmation of the distance change to the second incoming processing distribution line L2.

The transmitter 132 of the second incoming processing line disconnection detecting mechanism 130 is installed outside the second securing mechanism 80 and is electrically connected to the ultrasonic sensor 131 of the second incoming processing line disconnection detecting mechanism 130 And outputs a sensing signal from the ultrasonic sensor 131. At this time, the external manager receives the detection signal through a separate terminal, so that the external manager can know the departure of the second incoming processing distribution line L2.

The fourth incoming processing line disconnection detecting mechanism 140 includes the ultrasonic sensor 141 and the transmitter 142 and notifies the external manager when the fourth incoming line L4 is deviated.

The ultrasonic sensor 141 of the fourth lead-in power distribution line departure detecting mechanism 140 is installed in the fourth lead-in power line detachment mechanism installation space 81d4 of the second fixing mechanism 80, And detects the departure of the fourth lead-in power distribution line L4 inserted into the fourth lead-in power distribution line insertion hole 81d1. At this time, the ultrasonic sensor 141 detects the departure of the fourth lead-in processing distribution line L4 through confirmation of the distance change to the fourth lead-in power distribution line L4.

The transmitter 142 of the fourth lead-in power distribution line departure detecting mechanism 140 is installed outside the second fixing mechanism 80 and is electrically connected to the ultrasonic sensor 141 of the fourth lead- And outputs a sensing signal from the ultrasonic sensor 141. At this time, the external manager receives the detection signal through a separate terminal, thereby recognizing the departure of the fourth incoming processing distribution line L4.

8 to 12 are views for explaining the operation of the present invention, and the operation of the present invention will be described with reference to FIGS. 8 to 12. FIG.

As shown in Fig. 1, the first to fourth lead-in power distribution lines L1 to L4 are provided in the insulator for stably fixing the power distribution lines according to the present invention, and the power distribution lines are connected.

At this time, the first to fourth lead-in power distribution lines L1 to L4 are stably fixed to the first to fourth insulators I1 to I4, respectively, and stably enter the case 10.

The first lead-in power distribution line L1 and the third lead-in power distribution line L3 provided inside the case body 11 are prevented from contacting each other by the partitioning portion 11c of the case body 11, The processing power distribution line L2 and the fourth drawing power distribution line L4 are also prevented from contacting each other by the partitioning portion 11c of the case body 11. [ The contact between the first lead-in power distribution line L1 and the third lead-in power distribution line L3 or the contact between the second lead-in power distribution line L2 and the fourth lead-in power distribution line L4 in the case body 11, Can be prevented.

Meanwhile, when an unexpected fire occurs in the present invention, the fire detection sensor 150 detects a fire and outputs a warning signal to an external administrator as shown in FIG. The external administrator can then confirm this and respond quickly to the fire that has occurred.

In the present invention, an external force acts on the first drawing-in power distribution line (L1) and the third drawing-in power distribution line (L3) which are fixed by the first fixing mechanism (50) And the first conductor 20 are disconnected and the connection between the third lead-in power distribution line L3 and the second conductor 30 is released, the first lead-in power distribution line L1 and the third lead-in power distribution line L3 Is disengaged from the case body 11. 9, when the first lead-in power distribution line L1 and the third lead-in power distribution line L3 are separated from the first fixing mechanism 50 by an external force, The three-lead processing power distribution line sensing mechanism 120 senses the departure of the first lead-in power distribution line L1 and the third lead-in power distribution line L3, respectively, and notifies the external manager of the first lead-in power distribution line L1 and the third lead- And informs the departure of the power distribution line L3. Therefore, the external manager can quickly respond to the departure of the first incoming processing distribution line L1 and the third incoming processing distribution line L3. The description of the notification to the external manager in accordance with the departure of the second incoming processing distribution line L2 and the fourth incoming processing distribution line L4 from the case body 11 and the departure from the second stationary mechanism 80, It is not described here because it is the same as the notifying process according to the departure of the incoming processing power distribution line L1 and the third incoming processing distribution line L3.

10, the lubricating oil supply port 51b1 of the first insertion mechanism 51 and the lubricating oil supply port 51b1 of the second insertion mechanism 81, as shown in Fig. 10, And supplies lubricant to the supply port 81b1. The supplied lubricating oil then moves to the lower portion of the first insertion mechanism moving portion 51a and the second insertion mechanism moving portion 81a to facilitate the movement of the first insertion mechanism moving portion 51a and the second insertion mechanism moving portion 81a do.

11, in the state where the first to fourth lead-in power distribution lines L1 to L4 are separated from the first conductor 20 and the second conductor 30, respectively, the first and second fixed bodies 60, The first fixing mechanism 50 and the second fixing mechanism 80 are moved laterally. Then, the first to fourth lead-in power distribution lines L1 to L4 are drawn out of the case main body 11 (see Fig. 12, drawing out drawings of the second lead-in power distribution line and the fourth lead-in power distribution line are omitted).

At this time, the first lead-in power distribution line L1 and the third lead-in power distribution line L3 are drawn out while keeping a certain distance from each other, and the second lead-in power distribution line L2 and the fourth lead- The short circuit due to the remaining electricity is prevented.

10; Case 20; The first conductor
30; A second conductor 40; The first guide mechanism
50; A first fixing mechanism 60; The first fixed body
70; A second guide mechanism 80; The second fixing mechanism
90; A second fixture 110; The first incoming processing line disconnection detection mechanism
120; A third incoming processing line disconnection detecting mechanism 130; 2nd incoming processing Distribution line disengagement mechanism
140; A fourth incoming processing line disconnection detecting mechanism 150; Fire sensor
B; Bracket S; Support mechanism
I1; First insulator I2; Second insulator
I3; Third insulator I4; Fourth insulator

Claims (1)

Fixing bracket (B) and:
A support mechanism S provided on the upper portion of the fixing bracket B;
, A first insulator (I1) provided on the upper portion of the fixing bracket (B) and supporting the first drawing-in power distribution line (L1) from the electric pole:
A second insulator 12 provided on the upper portion of the fixing bracket B and opposed to the first insulator I1 on the basis of the support mechanism S and supporting the second lead-in power distribution line L2 from the customer, :
A third insulator I3 disposed on the upper portion of the fixing bracket B and located behind the first insulator I1 and supporting the third incoming processing distribution line L3 from the pole,
A fourth insulator 14 which is provided on the upper portion of the fixing bracket B and faces the third insulator 13 on the basis of the support mechanism S and which supports the fourth incoming power distribution line L4 from the customer, :
A first lead-in hole 11a1 which is formed to penetrate laterally on the left side surface and into which the first lead-in power distribution line L1 is led from the left side, a second lead- A first connecting portion 11a having a second receiving hole 11a2 and a first receiving space 11a3 provided inside the first receiving hole 11a2 and communicating with the first receiving hole 11a1 and the second receiving hole 11a2, A third lead-in hole 11a1 formed so as to penetrate laterally on the rear left side of the first lead-in hole 11a1 and parallel to the first lead-in hole 11a1 in the front and rear direction, and a third lead-in power distribution line L3 from the left- Hole 11b1 and the second inlet hole 11a2 and is positioned parallel to the second inlet hole 11a2 in the fore-and-aft direction and the fourth inlet machining distribution line L4 is drawn from the right chamber A fourth receiving hole 11b2, a second receiving space 11b3 provided inside the third receiving hole 11b1 and communicating with the fourth receiving hole 11b2, A case body 11 made of an insulating material having a second connecting portion 11b having a first connecting portion 11a and a second connecting portion 11b and a partition 11c partitioning the first connecting portion 11a and the second connecting portion 11b; A case 10 provided on an upper portion of the support mechanism S and having a cover 12 made of an insulating material detachably mounted on the upper portion of the case body 11;
A fire detection sensor 150 installed outside the case 10;
One end of the first lead-in power distribution line L1 is electrically connected and the other end of the second lead-in power distribution line L2 is electrically connected to the other end of the first lead- And a second conductor
One end of the third incoming processing distribution line L3 is electrically connected and the other end of the fourth incoming processing distribution line L4 is electrically connected to the other end of the fourth reception processing distribution line L4, And a second conductor (30)
A first guide mechanism 40 of an insulating material formed to protrude leftward from the left side surface of the case body 11;
A first insertion mechanism moving portion 51a provided with a lubricating oil inlet port 51a1 formed so as to be vertically penetrated and provided so as to be laterally movable on the upper portion of the first guide mechanism 40 and a first insertion mechanism moving portion 51a opened upward, And a lubricating oil supply port 51b1 communicated with the lubricating oil inlet port 51a1 of the first insertion mechanism moving portion 51a1 and a first hooking mechanism 51b formed to protrude upward on the upper portion of the first insertion mechanism moving portion 51a, A first lead-in power distribution line insertion hole 51c1 through which the first lead-in power distribution line L1 is inserted, and a first lead-in power distribution line upper portion A first insertion processing distribution line lower fixing hole 51c3 formed to penetrate through the upper and lower walls in the lower portion and communicating with the first insertion processing distribution line insertion hole 51c1 and a second insertion processing distribution line lower fixing hole 51c2 communicating with the first insertion processing distribution line insertion hole 51c1, A first lead-in portion provided at the rear and communicating with the first lead-in power distribution line insertion hole 51c1, A first pulling-in power distribution line inserting portion 51c provided at the front of the first inserting mechanism moving portion 51a and having a power line detachment detecting mechanism installation space 51c4, and a third pulling- A third incoming processing distribution line upper fixing hole 51d2 communicating with the third incoming processing distribution line insertion hole 51d1 so as to penetrate the upper portion of the upper portion of the third insertion processing distribution line insertion hole 51d1, A third receiving-processing-distribution-line lower fixing hole 51d3 communicating with the third receiving-processing distribution line insertion hole 51d1 and a third receiving-processing-distribution-line insertion hole 51d1 formed in the lower portion of the lower fixing hole 51d2, And a third insertion processing line disconnection detecting mechanism installation space 51d4 communicating with the third insertion processing power distribution line insertion hole 51d1. The third insertion processing distribution line insertion portion 51d4 provided at the rear of the first insertion mechanism moving portion 51a 51d and an opening / closing port 51e for opening / closing the lubricating oil supply port 51b1 of the first hooking mechanism 51b A first insertion mechanism (51) movably sideways at an upper portion of the first guide mechanism (40); A first lead-in power line upper joining member 52 which is detachably threadedly engaged with the first lead-in power line upper fixing hole 51c2 of the first insertion mechanism 51 to fix the first lead-in power distribution line L1; A first pulling-processing power distribution line lower fastening member 53 detachably threadedly engaged with the first pulling-process distribution line lower fixing hole 51c3 of the first insertion mechanism 51 to fix the first pulling-in processing power distribution line L1; A third lead-in power line upper coupling member 54 that is threadably coupled to the third lead-in power line upper fixing hole 51d2 of the first insertion mechanism 51 to fix the third lead-in power distribution line L3; A third incoming processing distribution line lower fastening member 55 detachably threadably joined to the third incoming processing distribution line lower fixing hole 51d3 of the first insertion mechanism 51 to fix the third incoming processing distribution line L3; A first fixing mechanism 50 made of an insulating material and provided with:
And is provided on the left side surface of the case body 11 so as to be movable up and down and is located above the first insertion mechanism 51 and is connected to the first hooking mechanism 51b of the first insertion mechanism 51 A first fixing member 60 of an insulating material which is inserted and removed;
A second guide mechanism 70 made of an insulating material and protruding to the right side of the right side surface of the case body 11;
A second insertion mechanism moving part 81a provided with a lubricating oil inlet port 81a1 formed so as to be vertically penetrated and provided so as to be laterally movable on the upper portion of the second guide mechanism 70 and a second insertion mechanism moving part 81a opened upward, A second hooking mechanism 81b having a lubricating oil supply port 81b1 communicated with the lubricating oil inlet port 81a1 and protruding upward from the upper portion of the second insertion mechanism moving portion 81a; A second drawing-in power distribution line upper-side fixing hole 81c2 which is formed in an upper portion so as to penetrate through the upper side and communicates with the second drawing-in power distribution line insertion hole 81c1, A second inlet machining distribution line lower fixing hole 81c3 formed to penetrate the upper and lower chambers in the lower portion and communicating with the second inlet machining distribution line insertion hole 81c1 and a second inlet machining distribution line lower fixing hole 81c3 provided in the rear of the second inlet distribution line insertion hole 81c1, And a second inlet machining power line detachment mechanism installation space 81c4 communicating with the second inlet machining power distribution line insertion hole 81c1. The first inlet machining power distribution line insertion portion (81c1) provided in front of the second insertion mechanism movement portion 81a A fourth inlet processing distribution line insertion hole 81d1 formed to penetrate through the upper portion of the upper portion of the fourth inlet processing distribution line insertion hole 81d1 and communicated with the fourth inlet processing distribution line insertion hole 81d1, A hole 81d2, and a through hole 81d2, A fourth inlet machining distribution line lower fixing hole 81d3 communicating with the line insertion hole 81d1 and a fourth inlet machining distribution line insertion hole 81d1 communicating with the fourth inlet machining distribution line insertion hole 81d1, The fourth insertion processing distribution line inserting portion 81d provided at the rear of the second insertion mechanism moving portion 81a and having the four insertion processing line disconnection detecting mechanism installation space 81d4 and the fourth insertion processing line inserting portion 81d provided at the rear of the second insertion mechanism moving portion 81b, A second insertion mechanism 81 which is provided so as to be laterally movable on the upper portion of the second guide mechanism 70, including an opening / closing port 81e for opening / closing the supply port 81b1; A second lead-in power distribution line upper fastening member 82 that is threadably coupled to the second lead-in power line upper fixing hole 81c2 of the second insertion mechanism 81 to fix the second lead-in power distribution line L2; A second pull-in processing distribution line lower fastening member 83 detachably threadably joined to the second pull-in processing distribution line lower fixing hole 81c3 of the second insertion mechanism 81 to fix the second pull-in processing distribution line L2; A fourth lead-in power distribution line upper fastening member 84 that is threadably engaged with the fourth lead-in power distribution line upper fixing hole 81d2 of the second insertion mechanism 81 to fix the fourth lead-in power distribution line L4; A fourth inlet machining distribution line lower fastening member 85 detachably threadably joined to the fourth inlet machining distribution line lower fixing hole 81d3 of the second insertion mechanism 81 to fix the fourth inlet machining distribution line L4; A second fixing mechanism 80 of an insulating material provided with:
And is provided on the right side surface of the case main body 11 so as to be vertically movable and is located above the second insertion mechanism 81 and is inserted into the second hooking mechanism 81b of the second insertion mechanism 81 A second fixing body 90 made of an insulating material;
The first fixing mechanism 50 is provided in the first insertion processing line disconnection detecting mechanism installation space 51c4 and is inserted into the first insertion processing line insertion hole 51c1 of the first fixing mechanism 50, An ultrasonic sensor 111 for detecting the departure of the first fluid L1; And a transmitter 112 installed outside the first fixing mechanism 50 and electrically connected to the ultrasonic sensor 111 for outputting a detection signal from the ultrasonic sensor 111. [ (110) and:
The third fixing device 50 is provided in the third insertion processing line disconnection detecting mechanism installation space 51d4 so as to be connected to the third inlet processing distribution line inserted into the third inlet processing line insertion hole 51d1 of the second fixing mechanism 80, An ultrasonic sensor 121 for detecting the departure of the third lens L3; And a transmitter 122 provided outside the first fixing mechanism 50 and electrically connected to the ultrasonic sensor 121 for outputting a detection signal from the ultrasonic sensor 121. [ (120) and:
The second fixing mechanism 80 is provided in the second insertion processing line disconnection detecting mechanism installation space 81c4 and is inserted into the second insertion processing line insertion hole 81c1 of the second fixing mechanism 80, An ultrasonic sensor 131 for detecting a departure of the second lens L2; And a transmitter 132 provided outside the second fixing mechanism 80 and electrically connected to the ultrasonic sensor 131 for outputting a detection signal from the ultrasonic sensor 131. [ (130) and:
Is inserted into the fourth insertion processing distribution line insertion hole 81d1 of the second fixing mechanism 80 and is provided in the fourth insertion processing line disconnection detecting mechanism installation space 81d4 of the second fixing mechanism 80, An ultrasonic sensor 141 for detecting the departure of the second lens L4; And a transmitter 142 provided outside the second fixing mechanism 80 and electrically connected to the ultrasonic sensor 141 for outputting a detection signal from the ultrasonic sensor 141. [ (140):
And an insulator for fixing the processing power distribution line stably.

Images