KR102101855B1 - Connection safety apparatus of distribution line - Google Patents

Abstract

The present invention relates to a connection stabilizing device of an extra-high voltage distribution line. More specifically, fluctuations or vibrations, which the distribution line receives due to changes in wind or temperature, are offset and the distribution line is tightly maintained at constant tension at all times to prevent various safety accidents in advance while first and second direct current power supplies are stably protected from the outside.

Description

CONNECTION SAFETY APPARATUS OF DISTRIBUTION LINE

The present invention relates to a connection stabilizer for a special high-voltage distribution line in the field of distribution technology, and more specifically, to compensate for fluctuations or vibrations received by the distribution line due to changes in wind or temperature, and to always maintain a tension with a constant tension. By doing so, it is possible to prevent various safety accidents in advance, and to a connection stabilizer for a special high voltage distribution line for stably protecting the first and second DC power from the outside.

In general, pylons connect a number of distribution lines to each other, and these distribution lines are installed under conditions prone to vibration or amplitude as they are subject to many climatic effects such as wind, snow, rain, etc. .
Such a pylon may have various shapes such as a quadrangular pylon, a square pylon, a gate pylon, a cow pylon, a rotating pylon, and an MC pylon in consideration of terrain and the like as illustrated in FIG. 1.
A pylon is installed on the pylon to support the insulator whose distribution line is fixed.
The insulator supports the distribution line not to be in electrical contact with the wrought iron. Usually, in order to install the distribution line on the insulator, since the operator manually pulls and connects the insulator, the middle part is often loosely connected to sag downward.
Accordingly, when the wind blows strongly, the distribution line flows (floats), and because the load or vibration generated as the distribution line flows is transmitted directly to the insulator, the insulator is damaged and the function is lost or severely There is a problem in that accidents that fall off and fall on the perfect rail frequently occur.
As a conventional technique that partially improves these problems, Korean Patent Registration No. 10-1856696 (2018.05.14.) Discloses an 'adapter for connecting a pylon of a wire cable for transmission and distribution.
However, such a conventional adapter for connecting a pylon of a wire cable for transmission and distribution has a problem in that it is difficult to stably protect the first and second DC power from the outside.

Republic of Korea Patent Registration No. 10-1856696 (2018.05.14.) 'Adapter for connecting the pylon of wire cables for transmission and distribution'

The present invention has been devised to solve the above-mentioned problems, and the object of the present invention is to compensate for fluctuations or vibrations received by the distribution line due to changes in wind or temperature, and to maintain various tensions with constant tension at all times. It is to provide a connection stabilizer for a special high-voltage distribution line to stably protect the first and second DC power sources from the outside while preventing it from occurring.
The problem to be solved of the present invention is not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is a tubular shape having a space on the inside, a guide groove 31 and a withdrawal groove 32 cut along the longitudinal direction are formed at predetermined positions on the circumferential surface, and are insulated from the steel tower. A pair of reference bodies 30 fixed side-by-side in a row via the median clamp 20; The first threaded thread 42 and the second threaded thread 42 'of both ends inserted through the pair of reference bodies 30 and having threads on the outer circumferential surface are respectively inserted into the reference bodies 30. Screw 40 formed in the reverse direction; Arranged to surround the outer circumferential surface of the screw 40 from the inside of the reference body 30, a thread 63 that is engaged with the screw 40 is formed on the inner circumferential surface, and the guide groove 31 and the extraction groove ( 32) while having a projection 61 and a fitting 62 to be fitted to the pair of movable bodies 60 corresponding to the reference body 30; A DC electric drive motor 80 that rotates the screw 40 by interlocking the screw 40 and the interlocking belt 41; While being fixed to the hinge 62 and disposed on the outer periphery of the reference body 30, it moves along the longitudinal direction of the reference body 30 along the movement of the moving body 60, but through the inlet groove 51. A moving body (52) fixed to the outer circumferential surface of the distribution line (70) penetrating, an electrode (53) fixed to the moving body (52), and a ballistic body (2) that fires while pushing the moving body (52) toward the center of the pylon ( 56), a movable high-consisting structure comprising a first electrode 54 and a second electrode 55 that are spaced apart at a predetermined interval in the inlet groove 51 and contact the electrode 53 according to the position of the mover 52 Stagnation 50; And the electrode 53 is connected to one end of the driving motor 80, and the first electrode 54 and the second electrode 55 are respectively connected in parallel with the other terminal of the driving motor 80. , The electrodes of the first DC power supply 91 for supplying electricity to the other terminal and the first electrode 54, and the second DC power supply 92 to supply electricity to the other terminal and the second electrode 55 are provided. The first DC circuit (A) that reverses each other and changes the direction of the current supplied to the driving motor 80 according to the contact position between the electrode 53 and the first electrode 54 and the second electrode 55 ) And a second high voltage distribution line connection stabilizer composed of a DC circuit (B), further comprising a protection unit (100) for protecting the first and second DC power (91,92) from the outside, The protection unit 100, the first and second DC power supply (91,92) is accommodated, the casing 110 is formed with an opening 111 on the top; A first lamp 120 connected between the first DC circuit A and the electrode 53 and turned on by a power supplied from the first DC power 91; A second lamp 130 connected between the second DC circuit B and the electrode 53 and lit by the power supplied from the second DC power 92; A fire suppression means 140 that closes the opening 111 and enables initial suppression in the event of a fire in the first and second DC power sources 91 and 92; And heat dissipation means 150 for dissipating the inside of the casing 110, wherein the first and second lamps 120 and 130 are illuminated in different colors, and any one according to the driving of the drive motor 80. As the lamp of the lamp is lit, it displays forward and reverse driving of the drive motor 80, and the fire suppression means 140 receives the fire extinguishing powder 141 inward, and discharges the fire extinguishing powder 141 underneath. A housing 142 in which a plurality of outlet holes 142a are formed; And a vinyl cover 143 provided on the inner bottom surface of the housing 142 to block the plurality of discharge holes 142a, wherein the vinyl cover 143 melts by a flame during a fire. The fire extinguishing powder 141 can be discharged to the first and second DC power sources 91 and 92 through a plurality of discharge holes 142a, and the casing 110 is provided with a heat dissipation port 110a on one side. , The heat dissipation means 150, the heat dissipation fan 151 provided in the heat dissipation port (110a) to be located inside the casing (110); It is provided on the outside of the casing 110, the opening and closing plate 152 for opening and closing the heat sink (110a); A pressure bar 153 having one end connected to both sides of the opening / closing plate 152 and the other end passing through one surface of the casing 110 and disposed inside the casing 110; A departure preventing member 154 screwed to the other end of the pressure bar 153; And coupled to the outside of the pressure bar 153 so as to be positioned between one surface of the casing 110 and the departure preventing member 154, shrinks according to the operation of the heat dissipation fan 151, so that the heat dissipation hole 110a is opened. On the other hand, it provides a connection stabilizer for a special high-voltage distribution line, characterized in that it comprises a pressurized spring (155) so that the heat dissipation port (110a) is closed while being relaxed as the heat dissipation fan (151) stops.

According to the present invention, there is an effect that can be prevented from shortening the life by properly maintaining the tension due to the vibration due to the sloshing of the distribution line, the contraction due to thermal expansion, expansion.
In addition, there is an effect that can stably protect the first and second DC power from the outside.
The effects of the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a front view showing various examples of a typical pylon.
2 is a perspective view showing a connection stabilizer for a special high voltage distribution line according to the present invention.
3 is an exploded perspective view showing a connection stabilizer for a special high voltage distribution line according to the present invention.
4 and 5 are cross-sectional views sequentially showing the operation of the connection stabilizer of the extra-high voltage distribution line according to the present invention.
6 is a circuit diagram schematically showing a connection stabilizer for a special high voltage distribution line according to the present invention.
7 is a cross-sectional view showing a protection unit in a connection stabilizer for a special high voltage distribution line according to the present invention.
8 is a circuit diagram schematically showing a state in which the first and second lamps are connected in FIG. 6.
9 is a cross-sectional view showing the fire suppression means in FIG.
10 is a cross-sectional view showing a state in which the heat dissipation means is provided in the casing in the connection stabilizer of the special high voltage distribution line according to the present invention.
And
11 is a partially enlarged view showing an operating state of the opening and closing plate in FIG. 10.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.
2 to 3, the connection stabilization device for the extra-high voltage distribution line according to the present invention is disposed at one point of the fixed frame 10 for connecting the distribution line 70 to the pylon, and the distribution line 70 is The movable fixed body 50 for fixing, the movable body 60 for fixing the movable fixed body 50, the screw 40 for horizontally fixing the movable body 60, and the screw 40 The fixed reference body 30 and the movable fixed body 50, the movable body 60, the screw 40, and the current supplied from the reference body 30 are blocked while being blocked from flowing into the fixed frame 10. It includes an insulating fastener (20).
In general, in the case of the insulating fastener 20, it is made of a general insulator material, and a rigid material can form a basic skeleton in order to secure a necessary fastening force.
The reference body 30 forms a tubular shape having a space therein and is securely connected to the insulating fastener 20. At this time, the reference body 30 is withdrawn in both directions based on the pylon, so that the tension of the distribution line 70 wired between adjacent pylons can be adjusted from both sides, a pair of standards in one pylon Sieve 30 is provided. Here, the pair of reference bodies 30 are represented by reference bodies 30 and 30 'for clarity as shown in FIG.
The reference body (30, 30 ') is a screw (40, 42') is formed on the outer circumferential surface is formed with a screw 40 is rotatably arranged, and located on both ends of the screw 40, a pair of meshing engagement The movable body 60 is disposed between the screw 40 and the reference bodies 30 and 30 '. Here, the pair of moving bodies 60 is represented by moving bodies 60 and 60 'for clarity as illustrated in FIG. 3.
On the inner circumferential surface of the movable body (60, 60 '), a thread (63) engaged with the threads (42, 42') of the screw (40) is formed, so that when the screw (40) rotates, the movable body (60, 60 ') The engagement of the threads 42, 42 ', 63 can move along the longitudinal direction from the inside of the reference bodies 30, 30'.
A pair of the movable body (60, 60 ') is the direction of the first screw thread 42 and the second screw thread (42') formed in both directions based on the center of the opposite direction, the screw 40 is rotated when the moving object ( 60, 60 '), the engagement between the threads is opposite to each other, so that the movements of the movable bodies 60, 60' are mutually opposite.
That is, according to the direction in which the screw 40 rotates, the moving bodies 60 and 60 'move away from each other or closer to each other.
The reference body (30, 30 ') is fixed so that the movable body (60, 60') does not rotate with the rotation of the screw 40, while allowing to move along the longitudinal direction of the reference body (30, 30 ') A guide groove 31 is formed, and the movable body 60, 60 'has a protrusion 61 that engages with the guide groove 31.
On the bottom surface of the reference body (30, 30 ') is provided with a withdrawal groove (32) cut along the longitudinal direction, and the moving body (60, 60') has a hinge (62) penetrating through the withdrawal groove (32) Is provided.
Accordingly, the moving bodies 60 and 60 'move left and right along the longitudinal direction of the reference bodies 30 and 30', and the moving direction is determined according to the rotational direction of the screw 40.
The rotation of the screw 40 is driven by a drive motor (80; see FIG. 6), and at this time, the drive motor 80 is interlocked with an interlocking belt 41 connecting the interlocking wheel 43 of the screw 40. Is done. That is, the rotating shaft of the drive motor 80 and the interlocking wheel 43 are connected to each other through the interlocking belt 41 through which a chain or a belt made of rubber or the like can be selected to rotate.
As shown in FIG. 4 (a), a movable fixture 50 is arranged and fixed to the hinge 62 of the movable body 60 operating according to the above-described description. Here, it should be understood that the movable fixture 50 is disposed on the hinge 62 of each movable body 60, 60 'while paired with the movable fixture 50, 50' as shown in FIG. do.
The movable fixture 50 buffers the tension applied to the distribution line 70 by the movement of the movable body 60 while having a fixed function for fixing the distribution line 70.
The movable fixture 50 is provided with an inlet groove 51 through which the distribution line 70 passes, and in the inlet groove 51, a movable member 52 movably inserted along the inlet groove 51 is provided. Includes. The mover 52 is firmly attached to the outer circumferential surface of the distribution line 70 to mediate connection with the mover 60.
The mover (52) is supported by a ballistic body (56) that fires against the tension toward the outside of the pylon, thereby cushioning the force pulled by the power distribution line (70).
That is, when the distribution line 70 expands in a high temperature in summer, tension is not generated except for the load of the distribution line 70, so the elastic body 56 has a larger distribution force than the load of the distribution line 70. Pull out the furnace (70).
On the other hand, when the power distribution line 70 contracts in a low temperature in winter, the tension caused by the contraction of the power distribution line 70 is greatly generated, and the elastic body 56 is strongly pressed to compress the pressure of the mover 52. will be.
An electrode 53 is provided on the mover 52, and the first electrode 54 and the second electrode 55 are spaced apart at predetermined intervals in the inlet groove 51 of the movable fixture 50. It is provided.
Referring to Figure 6, the drive motor 80 according to the present invention is a motor that rotates by receiving a DC voltage, the first DC circuit (A) and the second DC circuit (B) are connected in parallel with each other, the electrode It has a structure in which power is supplied by the first DC power 91 and the second DC power 92, the positions of which are opposite to each other.
The drive motor 80 is selectively energized to the first DC circuit A having the first DC power 91 and the second DC circuit B having the second DC power 92 to receive DC current. It includes a first electrode 54, the second electrode 55 and the electrode 53 to enable.
The electrode 53 is fixedly energized with one end of the driving motor 80, and the other terminal of the driving motor 80 is selectively energized to the first electrode 54 or the second electrode 55.
Depending on whether the other terminal of the driving motor 80 is connected to the first electrode 54 or the second electrode 55, the electrodes received by the driving motor 80 are changed to change the driving direction, that is, the rotation direction.
Referring to this, the operating relationship of FIGS. 4 and 5 will be described.
4 (a) shows a state in the routine reference body 30. Usually, the distribution line 70 is supported only by the elastic force of the elastic body 56 while the electrode 53 is not grounded to either the first electrode 54 or the second electrode 55.
(b) The drawing shows a strong tension as the distribution line 70 contracts due to the low temperature in the winter, thereby showing the shape in which the elastic body 56 is compressed.
The mover 52 applies pressure to the elastic body 56 while moving with the tension applied by the distribution line 70, and at the same time, the electrode 53 provided in the mover 52 is connected to the first electrode 54. . Thereafter, the driving motor 80 is supplied with electric power from the first DC power supply 91 of the first DC circuit A including the first electrode 54 to rotate in one direction.
The rotation of the drive motor 80 continues to the rotation of the screw 40, and when the screw 40 rotates, a force is applied to the moving body 60 engaged therewith to move, and in the above-described case, the moving body 60 It moves to the left, which is the direction in which the force applied to the elastic body 56 is weakened.
The above description is shown through the drawing (c). Based on this, in order to alleviate the tension applied by the distribution line 70 that contracts during winter, the moving body 60 is moved in the direction in which the distribution line 70 is pulled to reduce the pressure received by the elastic body 56, thereby The electrode 53 is positioned between the first electrode 54 and the second electrode 55 again.
It is possible to increase the utilization period of the power distribution line 70 because the power distribution line 70 can only apply a minimum amount of force to maintain the tension while alleviating the tension of the power distribution line 70 that occurs strongly in winter.
As already described above, the reference body 30, the movable body 60, and the movable fixture 50 form a pair positioned at each end of the screw 40, respectively, by the rotation of the screw 40 Since the pair of movable bodies 60 move in the opposite directions, the structure according to the present invention pulls or pushes the distribution line 70 drawn in both directions around the steel tower.
5 (a) shows a state in the routine reference body 30. Usually, the distribution line 70 is supported only by the elastic force of the elastic body 56 while the electrode 53 is not grounded to either the first electrode 54 or the second electrode 55.
(b) The drawing shows that the distribution line 70 is pulled toward the steel tower due to the elastic force of the elastic body 56 due to the expansion of the distribution line 70 due to the increase in temperature in the summer.
In this case, the electrode 53 is supplied with electric power from the second DC power supply 92 in the second DC circuit B while being connected to the second electrode 55, through which the electrode is changed to drive the motor 80 The rotation direction of is changed. Through this, the movable body 60 is pulled toward the distribution tower 70 via the movable stationary body 50 while moving toward the pylon, and the tension of the distribution line 70 is applied to the elastic body 56 as a result of the movement. The electrode 53 is positioned between the first electrode 54 and the second electrode 55.
The connection stabilizer for the extra-high voltage distribution line according to the present invention further includes a protection unit 100 for stably protecting the first and second DC power sources 91 and 92 from the outside as shown in FIGS. 7 to 9. do.
The first and second DC power sources 91 and 92 are made of a battery, etc., and the protection unit 100 protects the first and second DC power sources 91 and 92 from sunlight or rain, thereby providing a smooth power supply. In addition, it prevents breakdowns and breakage.
The protection part 100 includes the casing 110 in which the first and second DC power sources 91 and 92 are accommodated and an opening 111 is formed on the upper portion, the first DC circuit A and the electrode ( 53) while connected between the first lamp 120, which is lit by the power supplied from the first DC power 91, the second DC circuit (B) and the electrode 53 while being connected between the second DC power While the second lamp 130 and the opening 111, which are lit by the power supplied from (92), are sealed, an initial suppression is possible in the event of a fire in the first and second DC power (91,92). It includes a fire suppression means 140.
The casing 110 is fixed to a fixed frame 10 or a pylon, forms a rectangular parallelepiped in which an empty space is formed on the inside, and a door 112 for opening and closing the inside is provided.
The casing 110 allows the first and second DC power sources 91 and 92 to be protected from the outside, and a flame is generated when a fire occurs due to overheating or explosion of the first and second DC power sources 91 and 92. It can be prevented from spreading outside.
The first lamp 120 has both ends of the first power lead 121, one end of which is connected to the first DC circuit (A) and the other end of which is connected to the power line (C) connecting the electrode 53 and the terminal. Can be connected between.
Accordingly, as the first lamp 120 is connected between the first DC circuit A and the electrode 53, the first DC power is supplied as the electrode 53 is grounded with the first electrode 54. It can be turned on by the power supplied from (91).
The second lamp 130 has a second power lead 131, one end of which is connected to the second DC circuit B and the other end of which is connected to a power line C connecting the electrode 53 and the terminal. It can be connected between both ends.
Accordingly, as the second lamp 130 is connected between the second DC circuit B and the electrode 53, the second DC power is supplied as the electrode 53 is grounded with the second electrode 55. It can be turned on by the power supplied from (92).
The first and second lamps 120 and 130 are illuminated with different colors, and may be made of an LED or the like.
For example, the first lamp 120 may be illuminated in green, and the second lamp 130 may be illuminated in red.
The first and second lamps 120 and 130 are preferably provided in the casing 110 so that an operator or the like can easily check the lighting state with the naked eye.
This is to make it possible to visually check whether contraction and expansion of the distribution line 70 according to forward and reverse rotation of the driving motor 80 are made.
Accordingly, the operator or the like compares the lighting state of the first and second lamps 120 and 130 with the contraction and expansion state of the distribution line 70, and the first and second together with the driving motor 80 depending on whether there is an abnormality. The DC power sources 91 and 92 can be inspected.
The fire suppression means 140 closes the opening 111, while allowing the initial suppression in the event of a fire in the first and second DC power sources 91 and 92.
The fire extinguishing means 140 of the housing 142 and the housing 142 in which a plurality of discharge holes 142a in which the fire extinguishing powder 141 is accommodated and the fire extinguishing powder 141 is discharged is formed therein is formed inside. It is provided on the inner bottom surface and includes a plastic cover 143 to block the plurality of discharge holes (142a).
The plastic cover 143 allows the fire extinguishing powder 141 to be discharged to the first and second direct current power sources 91 and 92 through a plurality of discharge holes 142a while being melted by a flame when a fire occurs. .
Accordingly, when the fire occurs in the first and second DC power sources 91 and 92, the protection unit 100 blocks the spread of flame by the casing 110 while the fire suppression means ( 140), so that the fire can be extinguished, thereby quickly responding to the initial fire.
The fire suppression means 140 may further include a pressure plate 144 accommodated inside the housing 142 to be seated on an upper portion of the fire extinguishing powder 141.
The pressure plate 144 is preferably such that the contact area with the inner surface of the housing 142 is minimized while the circumference is rounded.
The pressure plate 144 blocks the plurality of discharge holes 142a while being seated on the bottom surface of the housing 142 as the fire extinguishing powder 141 is discharged from the housing 142.
This is to prevent flames from spreading out through the discharge hole 142a.
The fire suppression means 140 may further include a weight 145 provided on the upper portion of the pressure plate 144.
When the plastic cover 143 is melted by a flame, the weight 145 pressurizes the extinguishing powder 141 so that the discharge through the discharge hole 142a can be quickly made.
Preferably, the weight 145 has a weight such that the plastic cover 143 is not torn when the pressure plate 144 is seated on the upper portion of the extinguishing powder 141.
The protection part 100 further includes heat dissipation means 150 for dissipating the inside of the casing 110 as shown in FIGS. 10 to 11.
The heat dissipation means 150 allows heat generated from the first and second DC power sources 91 and 92 to be quickly and smoothly radiated to the outside.
The heat dissipation means 150 may expect an effect of removing moisture or the like that may be present in the housing 142 through ventilation of the casing 110.
That is, when ventilating the inside of the casing 110, the plastic cover 143 may be dried through the plurality of discharge holes 142a, thereby preventing moisture or the like from being generated inside the casing 110. can do.
The casing 110 is formed with a radiator 110a on one surface.
The heat dissipation means 150 is provided in the heat dissipation fan 151 provided in the heat dissipation hole 110a so as to be located inside the casing 110, and is provided outside the casing 110 and opens and closes the heat dissipation hole 110a. Plate 152, one end is connected to both sides of the opening and closing plate 152, the other end passing through one surface of the casing 110, the pressure bar 153 disposed inside the casing 110, the pressure bar The heat dissipation fan while being coupled to the outside of the pressure bar 153 so as to be located between one side of the escape prevention member 154 and the casing 110 and the escape prevention member 154 screwed to the other end of the (153) It includes a pressure spring 155 that contracts according to the driving of 151 and causes the heat dissipation hole 110a to open, while being relaxed according to the stop of the heat dissipation fan 151, thereby closing the heat dissipation hole 110a.
The opening / closing plate 152 is made of a square plate and has a size sufficient to cover the entire heat dissipation fan 151.
The opening / closing plate 152 maintains a normally closed state, and is rotated by pressurization according to driving of the heat dissipation fan 151 so that the heat dissipation opening 110a is opened.
The pressure bar 153 is formed with a screw thread on the outer circumferential surface, and the escape preventing member 154 can be screwed outwardly from the other end of the pressure bar 153 while a screw thread is formed on the inner circumferential surface.
The pressure spring 155 presses the release preventing member 154 backward so that the opening / closing plate 152 comes into contact with the casing 110.
The pressurized spring 155 has an elastic force that can be contracted by the pressurization of air discharged to the heat sink 110a according to the driving of the heat sink fan 151.
The pressurized spring 155 is contracted by the operation of the heat dissipation fan 151 so that the heat dissipation hole 110a can be opened, while the heat dissipation hole 110a is released as the heat dissipation fan 151 is relaxed. Try to close it.
The departure-prevention member 154 may properly adjust the elastic force of the pressure spring 155 while moving in the longitudinal direction of the pressure bar 153 according to rotation.
The heat dissipation means 150 is such that the heat dissipation fan 151 is driven when the temperature detection sensor 156 senses the internal temperature of the casing 110 and the temperature detection sensor 156 detects the temperature. The control unit 157 may be further included.
Accordingly, the heat dissipation fan 151 maintains a state in which the driving is normally stopped, and is driven by the control of the control unit 157 according to the detection signal of the temperature sensor 156, so that the inside of the casing 110 is Heat generated from the first and second DC power sources 91 and 92 may be dissipated through ventilation.
The heat dissipation means 150 may further include a suction fan 158 provided on the other surface of the casing 110.
The suction fan 158 may be driven by the control of the control unit 157, and external air may be introduced into the casing 110 according to the driving. At this time, the suction fan 158 is preferably driven together with the heat dissipation fan 151 under the control of the control unit 157.
The heat dissipation means 150 prevents foreign substances and the like from entering the inside of the casing 110 by maintaining the closed state of the heat dissipation hole 110a normally, and the first and second DC power supplies 91, If heat dissipation for 92 is required, the heat dissipation port 110a is opened so that heat dissipation for the first and second DC power sources 91 and 92 is smoothly performed.
Due to this, the protection unit 100 maintains an appropriate temperature state for the first and second DC power sources 91 and 92, and the first and second DC power sources 91 and 92 from sunlight or rain. By protecting the power supply, it is possible to prevent a breakdown or damage along with smooth power supply.
In addition, when the fire occurs in the first and second DC power sources 91 and 92, the protection unit 100 can quickly cope with the initial fire by preventing the flame from spreading to the outside and extinguishing the flame. have.
What has been described above is only an embodiment for implementing a connection stabilization device for a special high voltage distribution line according to the present invention, and the present invention is not limited to the above embodiment, and as claimed in the following claims. Anyone who has ordinary knowledge in the field to which the present invention belongs, without departing from the gist of the invention, will have the technical spirit of the present invention to the extent that various changes can be made.

10: fixed frame 20: insulated fastener
30,30 ': Reference 40: Screw
50, 50 ': movable fixture 60,60': movable body
70: distribution line 80: drive motor
100: protection unit 110: casing
120: first lamp 130: second lamp
140: fire suppression means 150: heat dissipation means

Claims (1)

In a tubular shape having a space on the inside, a guide groove 31 and a withdrawal groove 32 cut along the longitudinal direction are respectively formed at a predetermined position on the circumferential surface, and are lined up in a row through a pylon and an insulating fastener 20. A pair of reference bodies 30 to be fixed;
The first screw thread 42 and the second screw thread 42 'at both ends of the bar body having a thread formed on the outer circumferential surface through the pair of reference bodies 30 and inserted into the pair of reference bodies 30, respectively Silver screws 40 formed in opposite directions;
Arranged to surround the outer circumferential surface of the screw 40 from the inside of the reference body 30, a thread 63 that is engaged with the screw 40 is formed on the inner circumferential surface, and the guide groove 31 and the extraction groove ( 32) while having a projection 61 and a fitting 62 to be fitted to the pair of movable bodies 60 corresponding to the reference body 30;
A DC electric drive motor 80 that rotates the screw 40 by interlocking the screw 40 and the interlocking belt 41;
While being fixed to the hinge 62 and disposed on the outer periphery of the reference body 30, it moves along the longitudinal direction of the reference body 30 along the movement of the moving body 60, but through the inlet groove 51. A moving body (52) fixed to the outer circumferential surface of the distribution line (70) penetrating, an electrode (53) fixed to the moving body (52), and a ballistic body (2) that fires while pushing the moving body (52) toward the center of the pylon ( 56), a movable high-consisting structure comprising a first electrode 54 and a second electrode 55 that are spaced apart at a predetermined interval in the inlet groove 51 and contact the electrode 53 according to the position of the mover 52 Stagnation 50; And
The electrode 53 is connected to one end of the drive motor 80, the first electrode 54 and the second electrode 55 are respectively connected in parallel with the other terminal of the drive motor 80, The electrodes of the first DC power supply 91 for supplying electricity to the other terminal and the first electrode 54, and the electrodes of the second DC power supply 92 to supply electricity to the other terminal and the second electrode 55 Inverted, the first DC circuit (A) to change the direction of the current supplied to the driving motor 80 according to the contact position between the electrode 53 and the first electrode 54 and the second electrode 55 And a connection stabilizer for a special high voltage distribution line composed of a second DC circuit (B),
Further comprising a protection unit 100 for protecting the first and second DC power (91,92) from the outside,
The protection unit 100,
The first and second direct current power supply (91,92) is accommodated, the opening 111 is formed on the top, the casing 110 is provided with a door on the front;
A first lamp 120 connected between the first DC circuit A and the electrode 53 and turned on by a power supplied from the first DC power 91;
A second lamp 130 connected between the second DC circuit B and the electrode 53 and lit by the power supplied from the second DC power 92;
A fire suppression means 140 that closes the opening 111 and enables initial suppression in the event of a fire in the first and second DC power sources 91 and 92; And
It includes a heat dissipation means 150 for dissipating the interior of the casing 110,
The first and second lamps 120 and 130,
It is illuminated in different colors, and when one of the lamps is lit according to the driving of the driving motor 80, the forward and reverse driving of the driving motor 80 is displayed, and the casing 110 is provided with an operator. Make it easy to check the lighting status with the naked eye,
The fire suppression means 140,
A housing 142 in which a fire extinguishing powder 141 is accommodated inside and a plurality of discharge holes 142a through which the fire extinguishing powder 141 is discharged is formed;
A plastic cover 143 provided on an inner bottom surface of the housing 142 to block the plurality of discharge holes 142a;
A pressure plate 144 accommodated inside the housing 142 to be seated on an upper portion of the extinguishing powder 141; And
It includes a weight 145 provided on the upper portion of the pressing plate 144,
The vinyl cover 143,
In the event of a fire, the fire extinguishing powder 141 may be discharged to the first and second DC power sources 91 and 92 through the plurality of discharge holes 142a while being melted by a flame,
The pressure plate 144,
As the fire extinguishing powder 141 is discharged from the housing 142, while being seated on the bottom surface of the housing 142, the plurality of discharge holes 142a are blocked to prevent flame from spreading out through the discharge hole 142a. To prevent
The weight 145,
When the plastic cover 143 is melted by the flame, the fire extinguishing powder 141 is pressed to quickly discharge through the discharge hole 142a,
The casing 110 is formed with a radiator 110a on one surface,
The heat dissipation means 150,
A heat dissipation fan 151 provided in the heat dissipation port 110a so as to be located inside the casing 110;
It is provided on the outside of the casing 110, the opening and closing plate 152 for opening and closing the heat sink (110a);
A pressure bar 153 having one end connected to both sides of the opening / closing plate 152 and the other end passing through one surface of the casing 110 and disposed inside the casing 110;
A departure preventing member 154 screwed to the other end of the pressure bar 153;
As it is coupled to the outside of the pressure bar 153 so as to be positioned between one surface of the casing 110 and the departure preventing member 154, it contracts according to the operation of the heat dissipation fan 151 and causes the heat dissipation hole 110a to open. On the other hand, the pressure spring 155 to be released according to the stop of the heat dissipation fan 151 to close the heat dissipation port (110a);
A temperature sensor 156 for sensing the internal temperature of the casing 110; And
A control unit 157 that controls the heat dissipation fan 151 to be driven when the temperature detection sensor 156 detects a predetermined temperature or higher; And
It is provided on the other surface of the casing 110, and includes a suction fan 158 to allow external air to flow into the casing 110,
The heat dissipation fan 151,
Maintaining the normal stoppage while driving by the control of the control unit 157 according to the detection signal of the temperature sensor 156, the first and second DC power supply through ventilation to the inside of the casing 110 To dissipate heat generated from (91,92),
The departure preventing member 154,
Connection stability device for a special high-voltage distribution line characterized in that the elastic force of the pressure spring 155 is adjusted while moving in the longitudinal direction of the pressure bar 153 according to rotation.

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