KR101935345B1 - Connector Of Underground Line - Google Patents

Abstract

The present invention relates to an underground transmission line connector with a fire extinguishing function, which comprises a support (10), an insulation mechanism (20), a connection mechanism (30), a fixing mechanism (40), a leakage sensor (50), a transmitter (60), an alarm sound generator (70), an ultrasonic sensor (80), a fire sensor fixture (100), a fire sensor (110), an injector fixture (120), a fire extinguisher powder injector (130), an air blowing device (140), and a control unit (90). At normal times, if there is a short circuit in an underground transmission line connection portion, the short circuit is quickly reported to a manager. A warning sound is emitted to a person when the person approaches a point at which the short circuit occurred, stable power is connected at a vibration below a certain level, power is cut off at a vibration exceeding a certain level, and a safe zone is secured while quickly extinguishing a fire when the fire occurs.

Description

{Connector Of Underground Line} with fire suppression function.

The present invention relates to an underground transmission line connection connector having a fire suppression function.

Electricity generated by the power plant is transmitted to the substation through the underground transmission line.

The construction method of the underground transmission line through the double ground is the direct burial type, the duct type that the underground transmission cable is accommodated in the pipeline after the pipeline is made, and the power outage type in which the power grid is installed in the underground and the underground transmission cable is installed in the power grid.

Among these methods, power transmission is connected to the underground transmission line through a separate connection mechanism in the middle when the underground transmission section is long.

Conventionally, when a short circuit occurs in a portion where an underground transmission line is connected, it is impossible to promptly notify the manager of the short-circuit, and it is not possible to promptly warn the person when the short- If it was very dangerous.

In addition, conventionally, when the ground surface is shaken by an earthquake, the connection between the ground transmission lines in the power port is easily disconnected, which makes it difficult to stably supply electric power. On the other hand, when an earthquake of high intensity occurs, it is more safe to prevent the electrical connection between the underground transmission lines in case of a short circuit. Therefore, there is a need for an invention that can stably connect electric power at a vibration below a predetermined standard and cut off electric power at a vibration exceeding a certain standard.

In addition, conventionally, when a fire occurs, it can not be suppressed quickly, so that a large-sized fire easily occurs in the power port, and smoke in the power port rapidly spreads when a fire occurs, making it difficult to secure a safety zone.

Korean Patent No. 10-1633795

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 a system and a method for quickly informing an administrator of a short circuit in an underground transmission line connection portion, To solve the problem of providing an underground power transmission line connector capable of stably connecting power at a vibration below a predetermined standard, cutting power at a vibration exceeding a predetermined standard, securing a safety zone while rapidly suppressing fire in the event of a fire .

According to an aspect of the present invention,

A support table 10 installed inside the power tool T;

And the ground transmission line L is connected to the right side of the receiving space 21a and the right side of the first insulating member 21 is connected to the right side of the receiving space 21a. A latching space 21c in which the right side is communicated with the left side of the accommodating space 21a and the width is narrowed toward the left side and the left side is opened, And an upper side is communicated with a lower side of the retaining body insertion hole 21d and opened downward, and the retaining body insertion hole (21d) A first insulating member 21 having an opening 21e larger than the opening 21e; And the ground transmission line L is connected to the left side of the accommodation space 22a and the right side of the ground transmission line L is connected to the left side of the second insulation member 22, The left side of the receiving space 22b communicates with the right side of the accommodating space 22a and becomes narrower toward the right side and the right side thereof opens to the left of the engaging space 21c of the first insulating member 21, An engaging member insertion hole 22d which is provided below the second insulating member 22 and has an upper side communicating with the lower side of the accommodating space 22a, A second insulating member 22 (hereinafter, referred to as " first insulating member 22 ") which is provided in the first insulating member 21 so as to be detachably connected to the lower side of the first insulating member 21, An insulating mechanism 20 provided on the support table 10,

The first insulating member 21 has a shape corresponding to the engaging space 21c of the first insulating member 21 and has an outer surface spaced apart from the surface of the engaging space 21c of the first insulating member 21, (21a) of the first insulating member (21) so as to be spaced apart from a surface of the first insulating member (21), the outer surface of the first insulating member (21) 21b and the coupling portion 31c1 are formed so as to be larger than the coupling portion 31b and provided on the right side of the coupling portion 31b so as to form the first insulation And a ground transmission line connecting portion 31c disposed in the receiving space 21a of the member 21 so as to be movable laterally in the receiving space 21a and the engaging space 21c of the first insulating member 21 A first connecting member (31) of a conductive material; The second insulating member 22 has a shape corresponding to the engaging space 22c of the second insulating member 22 and has an outer surface spaced apart from the surface of the engaging space 22c of the second insulating member 22, A second engagement member 32a provided on the left side of the engagement portion 32a and having an outer surface connected to the engagement portion 32a of the second connection member 31, A joint part 32b arranged in the receiving space 22a of the second insulating member 22 so as to be spaced apart from the surface of the accommodation space 22a and a joint part 32b having a width so as to form the engagement step 32c1, Ground transmission line connecting portion 32c provided on the left side of the connecting portion 32b and disposed in the receiving space 22a of the second insulating member 22 so that the receiving space 32a of the second insulating member 22 A second connecting member 32 made of a conductive material movably installed to the left and right in the engaging space 22a and the engaging space 22c; A first spring 33 installed in the receiving space 21a of the first insulating member 21 and elastically supporting the first connecting member 31 in the left direction; And a second spring (34) installed in the receiving space (22a) of the second insulating member (22) and elastically supporting the second connecting member (32)

A plug 41a formed with an insertion hole 41a1 opened upward and downward in the center of the plug 41a and threadedly coupled to the lower side of the opening 21e of the first inserting member 21 so as to be movable up and down, A latching portion 41b1 which is vertically movably inserted into the latching member insertion hole 21d of the insulating member 21 and contacts the lower side of the underground power transmission line connecting portion 31c of the first connecting member 31, A moving part 41b2 which is provided below the cap 41b1 and inserted into the opening hole 21e of the first insulating member 21 so as to be movable up and down so as to be positioned above the cap 41a, (41b) having a screw hole (41b3) formed so as to be vertically opened in the engaging portion (41b1) and the moving portion (41b2) so as to be vertically aligned with the insertion hole (41a1) A spring 41c disposed between the stopper 41a and the stopper 41b so as to be seated on the stopper 41a and elastically supporting the stopper 41b upward, The upper side of which is threadably fastened to the threaded hole 41b3 of the stopper 41b so as to be movable up and down and the lower side passes through the insertion hole 41a1 of the stopper 41a and the inside of the spring 41c, And a marking plate 41e which is screwed on the lower side of the bolt bar 41d so as to be movable up and down and spaced apart from the stopper 41a, (41); A plug 42a formed with an insertion hole 42a1 opened upward and downward in the center portion of the plug 42a and threadably fastened to the lower side of the opening hole 22e of the second inserting member 22 so as to be movable up and down, A latching portion 42b1 inserted into the latching body insertion hole 22d of the insulating member 22 so as to be movable up and down and abutting the lower side of the underground transmission line connecting portion 32c of the second connecting member 32, A moving part 42b2 provided below the cap 42b1 and inserted into the opening hole 22e of the second insulating member 22 movably up and down so as to be positioned above the cap 42a, (42b) provided with a screw hole (42b3) formed to be vertically opened in the engaging portion (42b1) and the moving portion (42b2) so as to be vertically aligned with the insertion hole (42a1) A spring 42c disposed between the stopper 42a and the stopper 42b so as to be seated on the stopper 42a and elastically supporting the stopper 42b upward, And the lower side thereof is threadedly engaged with the threaded hole 42b3 of the stopper body 42b so as to be movable upward and downward and the lower side thereof passes through the insertion hole 42a1 of the spring 42c and the plug 42a, And a marking plate 42e which is screwed on the lower side of the bolt bar 42d so as to be movable up and down and spaced apart from the stopper 42a, And a second fixing member (42)

A plurality of leakage detection sensors 50 provided on the surface of the insulation mechanism 20;

A transmitter (60) installed on the support (10) for transmitting a leakage warning signal to the outside when receiving a leakage detection signal from the leakage detection sensor (50)

A speaker rotation motor 71 provided on the upper side of the support table 10; A warning sound generating device 70 provided in the speaker rotation motor 71 and having a speaker 72 which is rotated by the speaker rotation motor 71 and outputs a warning sound;

An ultrasonic sensor 80 installed on the first and second insulating members 21 and 22 to sense an object approaching the first and second insulating members 21 and 22;

A plurality of protrusions 101 protruding downward and provided at both ends of the upper side of the insulation mechanism 20 and disposed above the underground transmission line L exposed from the insulation mechanism 20, The fixing table 100 and:

A fire detection sensor 110 installed in the fire detection sensor fixture 100;

An injector fixing table 120 installed below the first and second insulating members 21 and 22,

A fire extinguisher powder injector 130 installed in the injector fixture 120;

A fan direction switching motor 141 installed on the support table 10; An air blowing device 140 provided in the fan direction switching motor 141 and having a fan 142 for switching the direction by the fan direction switching motor 141 and blowing air;

The ultrasonic sensor 80, the fire sensor 110, the fire extinguishing powder injector 130, and the fire extinguishing powder injector 50, which are installed on the support table 10, The fan rotation direction motor 141 and the fan 142 are operated and when the object detection signal is received from the ultrasonic sensor 80 in a state that the electric leak detecting signal is received from the electric leak detecting sensor 50, The controller 70 drives the speaker 72 while controlling the speaker 72 to face the ultrasonic sensor 80 while receiving the fire detection signal from the fire detection sensor 50. The fire detection sensor 110 The control unit 90 drives the fan 142 while driving the fire extinguisher powder injector 130 located in the direction of the fire detection sensor 50 and controlling the fan 142 to face the fire detection sensor 50,

And a control unit.

The present invention can promptly inform the outside of the insulation mechanism (20) when a short circuit occurs, thereby quickly responding to a short circuit.

In addition, the present invention senses a person approaching a point where a short circuit of the insulation mechanism 20 is detected and directly outputs a short-circuit warning sound toward a person approaching the point where the short circuit occurs, thereby unintentionally reaching a person Leakage warning can be effectively performed.

Further, when the flame advances along the underground transmission line (L) along the underground transmission line (L), the fire extinguishing powder is sprayed toward the underground transmission line (L) through which the flame advances, so that the fire suppression can be accelerated.

Further, the present invention blows wind in the direction opposite to the direction in which the fire advances, and prevents the smoke from moving to the non-fire occurrence area, thereby securing the safety zone and preventing the smoke from being suffocated by smoke.

Further, the present invention maintains the connection of the first and second connecting members (31, 32) when a weak earthquake occurs and cuts off the connection of the first and second connecting members (31, 32) , Transmission and disconnection can be appropriately performed according to the strength of the earthquake.

The elastic force of the springs 41c and 42c of the first and second fixing members 41 and 42 is changed by changing the position of the markers 41e and 42e of the first and second fixing members 41 and 42 When the occurrence of the elastic force problem is confirmed, the stoppers 41a and 42a of the first and second fixing members 41 and 42 are moved upward so that the spring of the first and second fixing members 41 and 42 The spring members 41c and 42c of the first and second fixing members 41 and 42 having problems may be replaced with new springs 41c and 42c after provisionally compensating the elastic forces of the first and second fastening members 41c and 42c. Therefore, the present invention can effectively cope with the occurrence of the problems of the first and second fixing members 41 and 42.

The present invention is also advantageous in that the first and second fastening members 41 and 42 have a problem that the fastening members 41b and 42b of the first and second fastening members 41 and 42 are effectively connected to the first and second connecting members 32b of the first and second fixing members 41 and 42 through movement of the bolt bars 41d and 42d of the first and second fixing members 41 and 42, It is possible to restrict the movement and achieve a more stable outage.

When the first and second fixing members 41 and 42 are separated from the first and second insulating members 21 and 22 to confirm the deterioration of the first and second fixing members 41 and 42, The stoppers 41a and 42a of the first and second fixing members 41 and 42 are projected by the elastic force of the springs 41c and 42c of the first and second fixing members 41 and 42, The bolts 41d and 42d of the first and second fixing members 41 and 42 and the markers 41e and 42e of the first and second fixing members 41 and 42, It is possible to prevent the stoppers 41a and 42a of the shutters 41 and 42 from splashing toward the manager, thereby preventing the manager from being injured.

1 is a partial sectional view for explaining a ground transmission line connection connector according to the present invention,
FIG. 2 is a partial view of FIG. 1,
3 is a sectional view taken along the line X-X 'in Fig. 1,
4 is a perspective view showing a warning sound generating apparatus according to the present invention,
Fig. 5 is an electric configuration diagram for explaining the control relationship of the present invention,
Figs. 6 to 20 are views for explaining the operation of the present invention. Fig.

Hereinafter, the present invention will be described in detail.

FIG. 1 is a partial cross-sectional view for explaining an underground transmission line connecting connector according to the present invention, FIG. 2 is a partial view of FIG. 1, FIG. 3 is a sectional view taken along line XX ' FIG. 5 is a circuit diagram for explaining the control relation of the present invention, and the configuration of the present invention will be described with reference to FIGS. 1 to 5. FIG.

The underground power transmission line connector according to the present invention includes a support base 10, an insulation mechanism 20, a connection mechanism 30, a fixing mechanism 40, an electrical leakage detection sensor 50, a transmitter 60, A fire alarm sensor 100, a fire detection sensor 110, an injector fixing stand 120, a fire extinguisher powder injector 130, a blower (not shown) 140, and a control unit 90.

The support base (10) is installed inside the power source (T). In this embodiment, the support base 10 is provided with a support bar 11 provided at the bottom of the electric power source T and a U-shaped base 12 provided on the upper side of the support bar 11.

The insulation mechanism 20 is provided on the support base 10 with the first insulation member 21 and the second insulation member 22. In this embodiment, the insulation mechanism 20 is mounted on the pedestal 12 of the pedestal 10. Here, the insulating mechanism 20 is made of an insulating material.

The first insulating member 21 has a receiving space 21a, a lead-in hole 21b, a holding space 21c, a stopper insertion hole 21d, and an opening hole 21e.

The receiving space 21a of the first insulating member 21 is formed inside the first insulating member 21. [ In the present embodiment, it is preferable that the accommodation space 21a is formed to have a hexahedral or cylindrical shape.

The inlet hole 21b of the first insulation member 21 is provided on the right side of the first insulation member 21 so that the left side communicates with the right side of the accommodation space 21a of the first insulation member 21, The transmission line L is drawn.

The engaging space 21c of the first insulating member 21 communicates with the left side of the accommodating space 21a of the first insulating member 21 on the right side and becomes narrower toward the left side and opens on the left side . In the present embodiment, the latching space 21c is formed so as to have a narrower vertical width toward the left.

The engaging member insertion hole 21d of the first insulating member 21 is provided below the first insulating member 21 and the upper side thereof communicates with the lower side of the receiving space 21a of the first insulating member 21 .

The upper opening of the opening 21e of the first insulating member 21 communicates with the lower side of the engaging member insertion hole 21d of the first insulating member 21 and opens downward, 21d.

The second insulating member 22 has a receiving space 22a, a receiving hole 22b, an engaging space 22c, an engaging member insertion hole 22d and an opening hole 22e, And is detachably attached to the insulating member 21.

The accommodating space 22a of the second insulative member 22 is formed inside the second insulative member 22. In the present embodiment, it is preferable that the accommodation space 22a is formed to have a hexahedral shape or a cylindrical shape.

The inlet hole 22b of the second insulating member 22 is provided on the left side of the second insulating member 22 and the right side communicates with the left side of the receiving space 22a of the second insulating member 22, The transmission line L is drawn.

The engagement space 22c of the second insulation member 22 communicates with the right side of the accommodation space 22a of the second insulation member 22 on the left side and becomes narrower toward the right side, And communicates with the left side of the engaging space 21c of the first insulating member 21. [ In this embodiment, the latching space 22c is formed so as to have a narrower vertical width as it goes all the way.

The retaining member insertion hole 22d of the second insulating member 22 is provided below the second insulating member 22 and the upper side communicates with the lower side of the accommodating space 22a of the second insulating member 22 .

The upper opening of the opening 22e of the second insulating member 22 communicates with the lower side of the engaging member insertion hole 22d of the second insulating member 22 and opens downward, 22d.

The connection mechanism 30 is provided with a first connecting member 31, a second connecting member 32, a first spring 33 and a second spring 34.

The first connecting member 31 has the engaging portion 31a and the connecting portion 31b and the underground transmission line connecting portion 31c so that the receiving space 21a of the first insulating member 21 and the engaging space 21c. In this embodiment, the first connecting member 31 is made of a conductive material.

The engaging portion 31a of the first connecting member 31 has a shape corresponding to the engaging space 21c of the first insulative member 21 and the outer surface of the engaging portion 21a of the first insulative member 21 (21c) of the first insulating member (21) so as to be spaced apart from the surface of the first insulating member (21). In the present embodiment, the latching portion 31a has a shape that becomes narrower toward the left.

The connecting portion 31b of the first connecting member 31 is provided on the right side of the latching portion 31a of the first connecting member 31 and the outer surface of the connecting portion 31b is formed in the receiving space 21a of the first insulating member 21. [ (21a) of the first insulating member (21) so as to be spaced from the surface of the first insulating member (21).

The underground transmission line connecting portion 31c of the first connecting member 31 is larger in width than the connecting portion 31b of the first connecting member 31 so that the engaging protrusion 31c1 is formed, And is disposed in the receiving space 21a of the first insulating member 21 on the right side. In the present embodiment, the underground transmission line L is connected to the right side of the underground transmission line connecting portion 31c.

The second connecting member 32 has the engaging portion 32a and the connecting portion 32b and the underground transmission line connecting portion 32c so that the receiving space 22a of the second insulating member 22 and the engaging space 22c. In this embodiment, the second connecting member 32 is made of a conductive material.

The engaging portion 32a of the second connecting member 32 has a shape corresponding to the engaging space 22c of the second insulating member 22 and the outer surface of the engaging portion 32a of the second insulating member 22 And is in contact with the latching portion 31a of the first connecting member 31. The latching portion 31a of the first connecting member 31 is in contact with the latching portion 22c of the second insulating member 22, In this embodiment, the engaging portion 31a of the first connecting member 31 and the engaging portion 32a of the second connecting member 32 come into contact with each other in an irregular shape.

The connecting portion 32b of the second connecting member 32 is provided on the left side of the latching portion 32a of the second connecting member 32 and the outer surface of the connecting portion 32b is connected to the receiving space 22a of the second insulating member 22 And is disposed in the receiving space 22a of the second insulating member 22 so as to be spaced from the surface that is formed.

The underground transmission line connecting portion 32c of the second connecting member 32 is larger than the connecting portion 32b of the second connecting member 32 so that the engaging protrusion 32c1 is formed, And is disposed in the accommodating space 22a of the second insulating member 22 on the left side. In this embodiment, the underground transmission line (L) is connected to the left side of the underground transmission line connecting portion (32c).

The first spring 33 is installed in the receiving space 21a of the first insulating member 21 to elastically support the first connecting member 31 in the left direction.

The second spring 34 is installed in the receiving space 22a of the second insulating member 22 to elastically support the second connecting member 32 in the right direction.

The fixing mechanism 40 has a first fixing member 41 made of an insulating material and a second fixing member 42 made of an insulating material.

The first fixing member 41 is provided with a stopper 41a, a stopper 41b, a spring 41c, a bolt bar 41d and a marking plate 41e.

The stopper 41a of the first fixing member 41 is formed with an insertion hole 41a1 which is vertically opened at the center of the stopper 41a and is provided at the lower side of the opening hole 21e of the first insulating member 21 And is screwed so as to be movable up and down.

The stopper 41b of the first fixing member 41 is inserted into the stopper insertion hole 21d of the first insulation member 21 so as to be movable up and down and the underground transmission line connection portion And a first fixing member (41b1) provided below the engaging portion (41b1) and inserted into the opening hole (21e) of the first insulating member (21) so as to be movable up and down, 41b of the first fixing member 41 and the insertion hole 41a1 of the stopper 41a of the first fixing member 41 so as to be positioned on the upper side and the lower side of the stopper 41a, And a screw hole 41b3 formed in the moving part 41b2 so as to be opened upward and downward.

The spring 41c of the first fixing member 41 is disposed to be seated on the stopper 41a of the first fixing member 41 so that the stopper 41a of the first fixing member 41 and the spring 41c of the first fixing member 41 41 so as to elastically support the stopper 41b upward.

The bolt bar 41d of the first fixing member 41 is screwed on the screw hole 41b3 of the stopper 41b of the first fixing member 41 so as to be movable upward and downward, 1 passes through the inside of the spring 41c of the fixing member 41 and the insertion hole 41a1 of the stopper 41a of the first fixing member 41 and is directed to the outside of the stopper 41a of the first fixing member 41 Respectively.

The marking plate 41e of the first fixing member 41 is threadably fastened to the lower side of the bolt bar 41d of the first fixing member 41 so as to be movable up and down and the stopper 41e of the first fixing member 41 41a.

The second fixing member 42 is provided with a stopper 42a, a stopper 42b, a spring 42c, a bolt bar 42d and a marking plate 42e.

The stopper 42a of the second fixing member 42 is formed with an insertion hole 42a1 which is vertically opened at the center of the stopper 42a and which is provided on the lower side of the opening hole 22e of the second insulation member 22 And is screwed so as to be movable up and down.

The engaging member 42b of the second fixing member 42 is inserted into the engaging member insertion hole 22d of the second insulating member 22 so as to be movable up and down and is connected to the underground power transmission line connecting portion A second fixing member 42b1 which is provided below the engaging portion 42b1 and is vertically movably inserted into the opening hole 22e of the second insulating member 22, 42b of the second fixing member 42 and the insertion hole 42a1 of the stopper 42a of the second fixing member 42 so as to be positioned on the upper side and the lower side of the stopper 42a, And a screw hole 42b3 formed to be vertically opened in the movable portion 42b2.

The spring 42c of the second fixing member 42 is disposed to be seated on the stopper 42a of the second fixing member 42 and the stopper 42a of the second fixing member 42 and the stopper 42a of the second fixing member 42 42 so as to elastically support the stopper 42b upward.

The bolt bar 42d of the second fixing member 42 is screwed on the screw hole 42b3 of the stopper 42b of the second fixing member 42 so as to be movable upward and downward, 2 passes through the spring 42c of the fixing member 42 and through the insertion hole 42a1 of the stopper 42a of the second fixing member 42 and reaches the outer side of the stopper 42a of the second fixing member 42 Respectively.

The marking plate 42e of the second fixing member 42 is threadably fastened to the lower side of the bolt bar 42d of the second fixing member 42 so as to be movable up and down and the stopper 42e of the second fixing member 42 42a.

A plurality of the leakage detection sensors 50 are installed on the surface of the insulation mechanism 20 to detect a short circuit of the insulation mechanism 20. In the present embodiment, the leakage detecting sensor 50 is installed in the first and second insulating members 21 and 22 of the insulation mechanism 20, respectively.

The transmitter 60 is installed on the support 10, and upon receipt of the leakage detection signal from the leakage detection sensor 50, it transmits a leakage notification signal to the outside. In the present embodiment, the transmitter 60 is installed in the pedestal 12 of the support platform 10. On the other hand, in the present embodiment, it is preferable that a repeater (not shown) communicating with the transmitter 60 be provided to more reliably send the earth leakage notification signal to the ground.

The warning sound generating device 70 includes a speaker rotation motor 71 provided on the upper side of the support table 10 and a loudspeaker 71 which is installed on the speaker rotation motor 71 and rotated by the speaker rotation motor 71, (72). In this embodiment, the speaker rotation motor 71 is installed on the pedestal 12 of the support stand 10.

The ultrasonic sensor 80 is installed on the first and second insulating members 21 and 22 to sense an object approaching the first and second insulating members 21 and 22. In the present embodiment, it is preferable that a plurality of ultrasonic sensors 80 are provided. Meanwhile, in the present embodiment, various sensors can be applied as long as they can detect an object using an ultrasonic sensor but can detect an object.

The fire detection sensor fixture 100 includes a plurality of protrusions 101 protruding downward and is installed at both ends of the upper side of the insulation mechanism 20 so as to be connected to the ground line G of the underground transmission line L exposed from the insulation mechanism 20. [ As shown in FIG. In this embodiment, the fire detection sensor fixture 100 is installed on the upper right side of the first insulation member 21 and the upper left side of the second insulation member 22, respectively.

The fire detection sensor 110 is installed in the fire detection sensor fixture 100 to detect a fire. In the present embodiment, the fire detection sensor 110 can be applied to various types of fire detection sensors that detect fire through heat detection, smoke detection, and the like.

The injector fixing table 120 is installed below the first and second insulating members 21 and 22, respectively. In this embodiment, the injector fixing table 120 is installed on the lower right side of the first insulating member 21 and on the lower left side of the second insulating member 22, respectively.

The fire extinguisher powder injector 130 is installed in the injector fixture 120. In this embodiment, the extinguishing powder injector 130 includes an automatic valve (not shown) controlled by the control unit 90 to inject the extinguished powder compressed and stored in the extinguishing powder injector 130. Meanwhile, in the present embodiment, the fire extinguisher powder injector 130 generally stores extinguishing powder used in a fire extinguisher.

The fan unit 140 includes a fan direction change motor 141 installed on the support base 10 and a fan direction change motor 141 installed on the fan direction change motor 141 to change direction, And a fan 142 is provided. In this embodiment, the fan-direction motor 141 is installed on the pedestal 12 of the support table 10 to rotate the fan 142 in the front-rear direction. On the other hand, in the present embodiment, the air blowing device 140 is provided on the pedestal 12, but it may be provided on the upper side of the insulating mechanism 20. [

The control unit 90 is installed on the support 10 and includes an electric leakage sensor 50, a transmitter 60, a speaker rotation motor 71, a speaker 72, an ultrasonic sensor 80, a fire sensor 110 The control unit controls the operation of the fire extinguisher powder injector 130, the fan direction switching motor 141 and the fan 142 while receiving the electric leak detecting signal from the electric leak detecting sensor 50, The speaker driving motor 71 is driven to drive the speaker 72 while controlling the speaker 72 to face the ultrasonic sensor 80 while receiving a fire detection signal from the fire detection sensor 50 The fan 142 drives the fire extinguisher powder injector 130 located in the direction of the fire detection sensor 110 and drives the fan 142 while controlling the fan 142 to face the fire detection sensor 50. In this embodiment, the control unit 90 is installed in the pedestal 12 of the support 10. [

FIGS. 6 to 20 are views for explaining the operation of the underground transmission line connector according to the present invention, and the operation of the underground transmission line connector according to the present invention will be described with reference to FIGS. 6 to 20. FIG.

In the state where the present invention is installed, when a crack or the like occurs in the insulation mechanism 20 and a short circuit occurs, the short circuit detection sensor 50 senses it. At this time, as shown in FIG. 6, the control unit 90 sends a short circuit detection signal to the management center via the transmitter 60, and drives the ultrasonic sensor 80 as shown in FIG.

At this time, when the manager enters the electric power source for inspecting the electric leakage, or when the operator enters the electric power source without knowing the electric leakage, if the detection is made by the ultrasonic sensor 80, the control unit 90 controls the ultrasonic sensor 80 And receives the object detection signal. 8, the control unit 90 drives the speaker rotation motor 71 to drive the speaker 72 while controlling the speaker 72 to face the ultrasonic sensor 80 receiving the object detection signal, do.

Then, the person approaching the point where the electric leakage occurs in the insulation mechanism 20 is more alert by the warning sound from the speaker 72. [

Meanwhile, as shown in FIG. 1, the underground transmission line connecting connector of the present invention connects the underground transmission lines L to allow transmission. At this time, the first and second fastening portions 31a and 32a of the first and second connecting members 31 and 32 come into contact with each other due to the elastic force of the first and second springs 33 and 34,

As shown in FIG. 1, when the ground transmission line L is installed in the present invention, when a lateral force is transmitted to the underground transmission line connecting connector and the underground transmission line L of the present invention due to a weak earthquake, The first and second connecting members 31 and 32 are also shaken together. At this time, the first and second connecting members (31, 32) are buffered by the first and second springs (33, 34) to maintain the connection so that the transmission is maintained continuously.

Meanwhile, in the case of a weak earthquake, it is preferable to maintain the connection while buffering the first and second connecting members 31 and 32 as described above. However, in case of a strong earthquake, in case of a safety accident (for example, It may be desirable to provide a short circuit.

Accordingly, in the present invention, when a strong earthquake occurs and the first and second connecting members 31 and 32 move by a predetermined reference or more, the first and second connecting members 31 and 32 can be disconnected.

Hereinafter, the first and second connecting members 31 and 31 will be described with reference to the first insulating member 21, the first connecting member 31, and the first fixing member 41, Operation Explanation is also made for the first insulating member 21, the first connecting member 31, and the first fixing member 41. [

10, when the first and second connecting members 31 and 32 are moved to a predetermined reference or more, the latching portion 32a of the second connecting member 32 is inserted into the second insulating member 22 And the engaging space 22c of the engaging portion 22c.

At this time, the first connecting member 31 is continuously moved to the right to disconnect the second connecting member 32 as shown in Fig. 9, and the engaging jaws of the first connecting member 31 31c1 are caught by the engaging portion 41b1 of the first fixing member 41. [ Then, the first and second connecting members 31 and 32 are spaced apart from each other to maintain the uninterrupted state.

The elastic force of the spring 41c of the first fixing member 41 is weakened due to the long-time installation of the fixing mechanism 40 of the present invention, so that the position of the locking member 41b of the first fixing member 41 is lower . ≪ / RTI >

For example, as shown in FIG. 11, the stopper 41b of the first fixing member 41 may move downward, which may cause a problem in the latching function.

At this time, when the operator checks the underground power transmission line connector according to the present invention, the distance between the landing plate 41e of the first fixing member 41 and the plug 41a of the first fixing member 41 10) by checking the elastic force of the bolts 41d of the first fixing member 41 (see the arrows in Fig. 10), or by checking the elastic force of the bolts 41d of the first fixing member 41 The change in the position of the stopper 41b can be checked. Here, when the bolt bar 41d of the first fixing member 41 is pulled, the marking plate 41e of the first fixing member 41 may serve as a knob.

12, when the worker performs the inspection, the operator determines that the change in the elastic force of the spring 41c of the first fixing member 41 is not large, And the stopper 41b of the first fixing member 41 abuts the underground transmission line connecting portion 31c of the first connecting member 31. Thereafter, as shown in Fig. 13, The stopper 41a of the member 41 is further moved upward so that the spring 41c of the first fixing member 41 is compressed.

At this time, the worker temporarily compresses the spring 41c of the first fixing member 41 to temporarily take measures against the earthquake that may occur suddenly, and when the inspection of a plurality of underground transmission line connection connectors is completed, The first fixing member 41 is replaced.

9, when the first fixing member 41 is operated due to a strong earthquake, the first fixing member 41 must be operated as shown in FIG. 9, but the problem of the first fixing member 41 14, when the engaging portion 41b1 of the first fixing member 41 does not sufficiently protrude into the engaging protrusion 31c1 of the first connecting member 31, There is a possibility that the connection members 31 and 32 are connected.

Therefore, when a manager checks a large number of underground transmission line connecting connectors after a strong earthquake has occurred, the marking plate 41e of the first fixing member 41 and the stopper 41e of the first fixing member 41 If the separation distance between the marking plate 41e of the first fixing member 41 and the stopper 41a of the first fixing member 41 is larger than a preset reference value, The bolt bar 41d of the first fixing member 41 is moved upward as shown in FIG.

16, when the manager checks the plurality of underground transmission line connecting connectors, the first connecting member 31 is moved to the left side as shown in FIG. 16 by the weakening force of the latching member 41b of the first fixing member 41 The bolt bar 41d of the first fixing member 41 restricts the movement of the first connecting member 31 so that when the manager completes the inspection of a plurality of underground transmission line connection connectors and finishes the maintenance work, , The connection of the two connecting members 31 and 32 can be stably prevented.

2, in order to check the degree of deterioration of the first fixing member 41 in a state where the first fixing member 41 is installed, the first fixing member 41 is fixed to the first insulating member 21 It is necessary to separate them from each other and check them.

At this time, the manager moves the marking plate 41e of the first fixing member 41 downward and rotates the stopper 41a of the first fixing member 41 to rotate the first fixing member 41 41 are moved downward.

Since the spring 41c of the first fixing member 41 is seated in the stopper 41a of the first fixing member 41, even if the stopper 41a of the first fixing member 41 rotates, And does not rotate along the stopper 41a of the fixing member 41. [

At this time, if the cap 41a of the first fixing member 41 is suddenly separated from the first insulating member 21, the elastic force of the spring 41c of the first fixing member 41 instantaneously causes the first fixing member 41 The marking plate 41e of the first fixing member 41 may be detached from the stopper 41a of the first fixing member 41a in the present invention while the stopper 41a of the first fixing member 41 may bounce downward as shown in Fig. It is possible to separate the first fixing member 41 from the first insulating member 21 more stably.

In the meantime, according to the present invention, as shown in FIG. 19, when a fire occurs in the power port in the state of FIG. 1, when the flame propagates along the ground transmission line L, the fire detection sensor 110 detects a fire.

19, the control unit 90 drives the fire extinguisher powder injector 130 located in the direction of the fire detection sensor 110 outputting the fire detection signal, and the fire extinguishing powder 130 is injected into the fire extinguisher powder 130, . Here, the control unit 90 causes the fire extinguisher powder injector 130 to fire at a predetermined time interval.

At this time, the fire extinguished powder is injected upward and evolves the underground transmission line (L) covered with the flame. The fire extinguished powder collides with the protrusion 101 of the fire detection sensor fixture 100 and is scattered downward so as to more effectively suppress the flame of the underground transmission line L. [

The control unit 90 drives the fire extinguisher powder injector 130 and drives the fan direction switching mote 141 so that the fan 142 is directed to the point where the fire occurs, The fan 142 is driven so that the smoke moves in the direction opposite to the direction of fire advance.

As described above, according to the present invention, when a short circuit occurs in the insulation mechanism (20), the short circuit can be promptly informed to the outside to quickly respond to a short circuit.

In addition, the present invention senses a person approaching a point where a short circuit of the insulation mechanism 20 is detected and directly outputs a short-circuit warning sound toward a person approaching the point where the short circuit occurs, thereby unintentionally reaching a person Leakage warning can be effectively performed.

Further, when the flame advances along the underground transmission line (L) along the underground transmission line (L), the fire extinguishing powder is sprayed toward the underground transmission line (L) through which the flame advances, so that the fire suppression can be accelerated.

Further, the present invention blows wind in the direction opposite to the direction in which the fire proceeds to prevent the smoke from moving to the non-fire occurrence area, thereby securing the safety zone and preventing the smoke from being suffocated by smoke.

Further, the present invention maintains the connection of the first and second connecting members (31, 32) when a weak earthquake occurs and cuts off the connection of the first and second connecting members (31, 32) , Transmission and disconnection can be appropriately performed according to the strength of the earthquake.

The elastic force of the springs 41c and 42c of the first and second fixing members 41 and 42 is changed by changing the position of the markers 41e and 42e of the first and second fixing members 41 and 42 When the occurrence of the elastic force problem is confirmed, the stoppers 41a and 42a of the first and second fixing members 41 and 42 are moved upward so that the spring of the first and second fixing members 41 and 42 The spring members 41c and 42c of the first and second fixing members 41 and 42 having problems may be replaced with new springs 41c and 42c after provisionally compensating the elastic forces of the first and second fastening members 41c and 42c. Therefore, the present invention can effectively cope with the occurrence of the problems of the first and second fixing members 41 and 42.

The present invention is also advantageous in that the first and second fastening members 41 and 42 have a problem that the fastening members 41b and 42b of the first and second fastening members 41 and 42 are effectively connected to the first and second connecting members 32b of the first and second fixing members 41 and 42 through movement of the bolt bars 41d and 42d of the first and second fixing members 41 and 42, It is possible to restrict the movement and achieve a more stable outage.

When the first and second fixing members 41 and 42 are separated from the first and second insulating members 21 and 22 to confirm the deterioration of the first and second fixing members 41 and 42, The stoppers 41a and 42a of the first and second fixing members 41 and 42 are projected by the elastic force of the springs 41c and 42c of the first and second fixing members 41 and 42, The bolts 41d and 42d of the first and second fixing members 41 and 42 and the markers 41e and 42e of the first and second fixing members 41 and 42, It is possible to prevent the stoppers 41a and 42a of the shutters 41 and 42 from splashing toward the manager, thereby preventing the manager from being injured.

In the meantime, the present invention is defined as an underground transmission line connecting connector in the sense of connecting a sub-underground transmission line with a fire suppression function, and the name of the present invention is defined as an underground transmission line connecting connector having a fire suppression function .

10; A support 20; Insulator
21, 22; First and second insulating members 30; connector
31, 32; First and second connecting members 33 and 34; The first and second springs
40; A fixing mechanism 41, 42; The first and second fixing members
50; An electrical leakage sensor 60; transmitter
70; A warning sound generating device 80; Ultrasonic sensor
90; A control unit 100; Fire detection sensor fixture
110; A fire detection sensor 120; Injector Stands
130; A fire extinguisher powder injector 140; Blower

Claims (1)

A support table 10 installed inside the power tool T;
And the ground transmission line L is connected to the right side of the receiving space 21a and the right side of the first insulating member 21 is connected to the right side of the receiving space 21a. A latching space 21c in which the right side is communicated with the left side of the accommodating space 21a and the width is narrowed toward the left side and the left side is opened, And an upper side is communicated with a lower side of the retaining body insertion hole 21d and opened downward, and the retaining body insertion hole (21d) A first insulating member 21 having an opening 21e larger than the opening 21e; And the ground transmission line L is connected to the left side of the accommodation space 22a and the right side of the ground transmission line L is connected to the left side of the second insulation member 22, The left side of the receiving space 22b communicates with the right side of the accommodating space 22a and becomes narrower toward the right side and the right side thereof opens to the left of the engaging space 21c of the first insulating member 21, An engaging member insertion hole 22d which is provided below the second insulating member 22 and has an upper side communicating with the lower side of the accommodating space 22a, A second insulating member 22 (hereinafter, referred to as " first insulating member 22 ") which is provided in the first insulating member 21 so as to be detachably connected to the lower side of the first insulating member 21, An insulating mechanism 20 provided on the support table 10,
The first insulating member 21 has a shape corresponding to the engaging space 21c of the first insulating member 21 and has an outer surface spaced apart from the surface of the engaging space 21c of the first insulating member 21, (21a) of the first insulating member (21) so as to be spaced apart from a surface of the first insulating member (21), the outer surface of the first insulating member (21) 21b and the coupling portion 31c1 are formed so as to be larger than the coupling portion 31b and provided on the right side of the coupling portion 31b so as to form the first insulation And a ground transmission line connecting portion 31c disposed in the receiving space 21a of the member 21 so as to be movable laterally in the receiving space 21a and the engaging space 21c of the first insulating member 21 A first connecting member (31) of a conductive material; The second insulating member 22 has a shape corresponding to the engaging space 22c of the second insulating member 22 and has an outer surface spaced apart from the surface of the engaging space 22c of the second insulating member 22, A second engagement member 32a provided on the left side of the engagement portion 32a and having an outer surface connected to the engagement portion 32a of the second connection member 31, A joint part 32b arranged in the receiving space 22a of the second insulating member 22 so as to be spaced apart from the surface of the accommodation space 22a and a joint part 32b having a width so as to form the engagement step 32c1, Ground transmission line connecting portion 32c provided on the left side of the connecting portion 32b and disposed in the receiving space 22a of the second insulating member 22 so that the receiving space 32a of the second insulating member 22 A second connecting member 32 made of a conductive material movably installed to the left and right in the engaging space 22a and the engaging space 22c; A first spring 33 installed in the receiving space 21a of the first insulating member 21 and elastically supporting the first connecting member 31 in the left direction; And a second spring (34) installed in the receiving space (22a) of the second insulating member (22) and elastically supporting the second connecting member (32)
A plug 41a formed with an insertion hole 41a1 opened upward and downward in the center of the plug 41a and threadedly coupled to the lower side of the opening 21e of the first inserting member 21 so as to be movable up and down, A latching portion 41b1 which is vertically movably inserted into the latching member insertion hole 21d of the insulating member 21 and contacts the lower side of the underground power transmission line connecting portion 31c of the first connecting member 31, A moving part 41b2 which is provided below the cap 41b1 and inserted into the opening hole 21e of the first insulating member 21 so as to be movable up and down so as to be positioned above the cap 41a, (41b) having a screw hole (41b3) formed so as to be vertically opened in the engaging portion (41b1) and the moving portion (41b2) so as to be vertically aligned with the insertion hole (41a1) A spring 41c disposed between the stopper 41a and the stopper 41b so as to be seated on the stopper 41a and elastically supporting the stopper 41b upward, The upper side of which is threadably fastened to the threaded hole 41b3 of the stopper 41b so as to be movable up and down and the lower side passes through the insertion hole 41a1 of the stopper 41a and the inside of the spring 41c, And a marking plate 41e which is screwed on the lower side of the bolt bar 41d so as to be movable up and down and spaced apart from the stopper 41a, (41); A plug 42a formed with an insertion hole 42a1 opened upward and downward in the center portion of the plug 42a and threadably fastened to the lower side of the opening hole 22e of the second inserting member 22 so as to be movable up and down, A latching portion 42b1 inserted into the latching body insertion hole 22d of the insulating member 22 so as to be movable up and down and abutting the lower side of the underground transmission line connecting portion 32c of the second connecting member 32, A moving part 42b2 provided below the cap 42b1 and inserted into the opening hole 22e of the second insulating member 22 movably up and down so as to be positioned above the cap 42a, (42b) provided with a screw hole (42b3) formed to be vertically opened in the engaging portion (42b1) and the moving portion (42b2) so as to be vertically aligned with the insertion hole (42a1) A spring 42c disposed between the stopper 42a and the stopper 42b so as to be seated on the stopper 42a and elastically supporting the stopper 42b upward, And the lower side thereof is threadedly engaged with the threaded hole 42b3 of the stopper body 42b so as to be movable upward and downward and the lower side thereof passes through the insertion hole 42a1 of the spring 42c and the plug 42a, And a marking plate 42e which is screwed on the lower side of the bolt bar 42d so as to be movable up and down and spaced apart from the stopper 42a, And a second fixing member (42)
A plurality of leakage detection sensors 50 provided on the surface of the insulation mechanism 20;
A transmitter (60) installed on the support (10) for transmitting a leakage warning signal to the outside when receiving a leakage detection signal from the leakage detection sensor (50)
A speaker rotation motor 71 provided on the upper side of the support table 10; A warning sound generating device 70 provided in the speaker rotation motor 71 and having a speaker 72 which is rotated by the speaker rotation motor 71 and outputs a warning sound;
An ultrasonic sensor 80 installed on the first and second insulating members 21 and 22 to sense an object approaching the first and second insulating members 21 and 22;
A plurality of protrusions 101 protruding downward and provided at both ends of the upper side of the insulation mechanism 20 and disposed above the underground transmission line L exposed from the insulation mechanism 20, The fixing table 100 and:
A fire detection sensor 110 installed in the fire detection sensor fixture 100;
An injector fixing table 120 installed below the first and second insulating members 21 and 22,
A fire extinguisher powder injector 130 installed in the injector fixture 120;
A fan direction switching motor 141 installed on the support table 10; An air blowing device 140 provided in the fan direction switching motor 141 and having a fan 142 for switching the direction by the fan direction switching motor 141 and blowing air;
The ultrasonic sensor 80, the fire sensor 110, the fire extinguishing powder injector 130, and the fire extinguishing powder injector 50, which are installed on the support table 10, The fan rotation direction motor 141 and the fan 142 are operated and when the object detection signal is received from the ultrasonic sensor 80 in a state that the electric leak detecting signal is received from the electric leak detecting sensor 50, The controller 70 drives the speaker 72 while controlling the speaker 72 to face the ultrasonic sensor 80 while receiving the fire detection signal from the fire detection sensor 50. The fire detection sensor 110 The control unit 90 drives the fan 142 while driving the fire extinguisher powder injector 130 located in the direction of the fire detection sensor 50 and controlling the fan 142 to face the fire detection sensor 50,
Wherein the ground line connection connector comprises:

Images