KR101975777B1 - Protection pipe apparatus of transformation underground cable - Google Patents

Abstract

The present invention relates to a protection pipe apparatus of a transformation underground cable and, more specifically, to a protection pipe apparatus of a transformation underground cable which inserts a cable pipe accommodating a transformation underground cable into the inside of a protection pipe having a shock absorption force and places the cable pipe on an upper part of a support plate which lifts and operates the protection pipe by hydraulic pressure, so a large electric shock accident and the like due to breakage of the cable pipe do not occur by being restored to an original state when land subsidence such as a repair work of facilities, an excavation work or the like is caused, thereby stably mounting the protection pipe in a state of coupling the transformation underground cable and the cable pipe on the support plate. In addition, the protection pipe apparatus of a transformation underground cable comprises a cable pipe, a protection pipe, a support plate, a support bridge, a pair of fixing plates, a hydraulic pressure generation unit, a hydraulic pressure cylinder, a rod, and a mounting inducement unit.

Description

PROTECTION PIPE APPARATUS OF TRANSFORMATION UNDERGROUND CABLE

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a protection pipe apparatus for a transformer underground cable, and more particularly, to a cable protection apparatus for a transformer underground cable, in which a cable pipe accommodating a transformer underground cable is inserted into a protective pipe having an impact absorbing force, In case of repairing of facilities or subsidence such as excavation work, it is restored to its original condition, so that large-scale electric shock accident due to breakage of cable pipe is prevented from occurring. Meanwhile, The present invention relates to a protection pipe apparatus for a transformer underground cable for ensuring stable mounting.

Generally, transformer underground cables are mostly buried in the ground, and the cables are protected by protective pipes for safety and insulation.
That is, even if the outer surface of the cable is covered with the cable, the outer surface is easily peeled off due to friction with the earth, and the cable is short-circuited.
The protection tube is formed to have a diameter allowing a plurality of cables to pass at the same time, so that the cable does not come into direct contact with the soil, so that it is safely protected from the earth.
In this case, the protective pipe is formed of a material and thickness rather than the outer surface of the cable, and a corrugated pipe capable of flexing deformation is used so as to cope with the subsidence of the ground in most cases.
Since the cable is buried in the ground, there is a problem that the protective pipe is broken due to the subsidence where the protective pipe is buried due to the ground subsidence during the rainy season, the repair work of the facility, or the excavation work using the excavator during the installation work of the facility.
As a conventional technique which partially alleviates such a problem, Korean Patent Registration No. 10-0648420 (Nov. 24, 2006) discloses a structure of a cable protection pipe.
However, such a conventional cable protection structure has a problem in that it is difficult for the protection pipe in a state where the cable and the cable pipe are coupled to stably sit on the support plate.

Korea Patent Registration No. 10-0648420 (Nov. 24, 2006) 'High voltage wire cable protection pipe structure for burial of building complex' Korea Patent Registration No. 10-0835931 (2008.06.09.) 'Distribution Underground Cable Protector'

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 method of inserting a cable tube in which a cable for transformer substation is accommodated into a protective pipe having an impact absorbing force, It is restored to its original state when the ground is subsided such as during the repair work of the facility or excavation work, so that a large electric shock accident due to the breakage of the cable pipe is prevented from occurring, while the protection pipe in which the underground cable and the cable pipe are combined And to provide a protective pipe device of a transformer underground cable so as to stably sit on a pedestal plate.
The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above-mentioned object, the present invention provides a cable system comprising: a cable tube (10) in which a transformer underground cable is accommodated; A sponge protection tube 20 having a plurality of wrinkles 21 formed on an inner circumferential surface thereof and formed with a cylindrical shape and into which the cable 10 is inserted through the wrinkles 21; A support plate 30 formed in a semicircular shape and having the protection tube 20 mounted on the upper seating portion 31 and the fastening protrusions 32 formed on both sides of the bottom thereof; And the upper end portion is rotatably coupled to the fastening protrusion 32 through the hinge 41 and a sliding hole 43 is provided at the lower end portion of the fastening protrusion 32 so as to be vertically moved A support leg (40); A sliding groove 51 is formed so that the sliding hole 43 can be inserted and moved and a sensor 52 for detecting contact with the sliding hole 43 is installed at one end of the sliding groove 51 A pair of fixing plates 50; A hydraulic pressure generator (60) installed between the pair of fixed plates (50) and operated by sensing the sensor (52); A hydraulic cylinder (62) installed on one side of the fixed plate (50) and operated by receiving the hydraulic pressure generated from the hydraulic pressure generating unit (60) through the hydraulic pressure supply pipe (61); And a rod (63) installed to protrude and retract from the end of the hydraulic cylinder (62) to push up the sliding tool (43) to raise the supporting leg (40), characterized in that the protection tube device The apparatus according to claim 1, further comprising a support guide (100) for guiding the support plate (20) to be stably mounted on the support plate (30), wherein the support guide (100) comprises a support plate (110) Fixing means (120) for fixing the support plate (110) to the support plate (30); A mounting plate (130) disposed inside the support plate (30); And a buffer means 140 for supporting the mounting plate 130 from the support plate 110 and buffering an impact, wherein the support plate 30 has a hollow portion The buffering means 140 includes a support bar 141 having an upper portion connected to the mounting plate 130 and a lower portion passing through the hollow 30a and the mounting plate 130; A spring 143 coupled to the outside of the support bar 141 to be positioned between the support plate 130 and the support plate 110; And a release preventing member 142 coupled to a lower portion of the support bar 141 to prevent the support bar 141 from separating from the support plate 110, (130) to protrude from the hollow (30a), and as the protective pipe (20) is seated with the mounting plate (130) And the protection tube (20) is gradually lowered to be seated on the support plate (30).

According to the present invention, a cable pipe accommodating a transformer underground cable is inserted into a protective pipe having an impact absorbing force, and the protective pipe is placed on an upper part of a pedestal for lifting and lowering operation to hydraulic pressure. It is possible to prevent the occurrence of a large electric shock accident due to the breakage of the cable pipe.
In addition, the protection pipe in a state in which the cable and the cable pipe are connected to each other under the substation can be stably mounted on the pedestal plate, thereby preventing the protection pipe device from being damaged.
The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a perspective view showing a protective pipe apparatus of a transformer underground cable according to the present invention.
2 is an exploded perspective view showing a protective pipe apparatus of a transformer underground cable according to the present invention.
3 is a side view showing a protective pipe apparatus of a transformer underground cable according to the present invention.
4 is a front view showing a protective pipe apparatus of a transformer underground cable according to the present invention.
FIG. 5 is a front view showing a state in which a fixing guide unit is provided in a protective pipe apparatus of a transformer underground cable according to the present invention. FIG.
FIG. 6 is a side view showing the fixing guide in FIG. 5; FIG.
FIG. 7 is a partial side sectional view showing a state in which the protective pipe is seated by the latch guide portion in FIG. 5;
And
8 is a partial side sectional view showing a state in which the protective tube is seated in the stop guide portion in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
1 to 4, a protective pipe device (hereinafter referred to as "protective pipe device") of a transformer underground cable according to the present invention comprises a cable pipe 10 in which a transformer underground cable is accommodated, A protection pipe 20 formed of a sponge and formed with a wrinkle portion 21 and inserted into the cable pipe 10 between the wrinkles 21; a protection pipe 20 formed in a semi- And the center portion is coupled to the hinge 42 and the upper portion is rotatable through the hinge 41 to the fastening protrusion 32. The fastening protrusion 32 is formed on both sides of the lower surface of the base plate 30, And a sliding groove 43 is formed at a lower end of the sliding groove 51 so that the sliding groove 43 can be inserted into the sliding groove 43, And a sensor 52 for detecting contact with the sliding port 43 A hydraulic pressure generating part 60 installed between the pair of fixing plates 50 and operated by sensing of the sensor 52, a hydraulic pressure generating part 60 installed on one side of the fixing plate 50, A hydraulic cylinder 62 which is received by hydraulic pressure supply pipe 61 and a hydraulic cylinder 62 which is installed to project and retract at the end of the hydraulic cylinder 62 to push the sliding mouth 43 to raise the support leg 40, (63).
The fixing plate 50 is fixed to a bottom surface of the fixing plate 50 at a predetermined depth.
A flange 53 is formed on both sides of the fixing plate 50 and the anchor holes 54 are formed in the flange 53 and are fixed by the anchor bolts 54 '.
Between the pair of fixed plates (50), a hydraulic pressure generating part (60) operated by sensing of the sensor (52) is installed.
The hydraulic cylinder 62 is installed at one side of the fixing plate 50 and is operated by the hydraulic pressure generated from the hydraulic pressure generating unit 60 so that the rod 63 is moved in the longitudinal direction.
The supporting leg 40 is formed in the shape of an 'X' so that the center portion thereof is coupled to the hinge 42. The supporting leg 40 is connected to the sliding opening 43 provided at the lower end, Respectively.
The support legs 40 are rotatably coupled to the fastening protrusions 32 whose upper ends are protruded from the bottom surface of the semicircular support plate 30 through the hinges 41.
The protective pipe 20 absorbs the impact while forming a plurality of wrinkles 21 on the inner circumferential surface thereof.
3, the protection pipe apparatus according to the present invention includes a protection pipe 20 in which a cable pipe 10 is inserted in a seat 31, The support legs 40 supporting the support plate 30 are spread on both sides of the hinge 42 by the pressure.
Accordingly, the sliding opening 43 provided at the lower end of the supporting leg 40 is pushed to the both sides of the sliding groove 51 of the fixing plate 50.
When the sliding port 43 comes into contact with the sensor 52, the sensor 52 senses this and the hydraulic pressure generator 60 is operated.
The hydraulic pressure generated in the hydraulic pressure generating unit 60 is supplied to the hydraulic cylinder 62 through the hydraulic pressure supply pipe 61 so that the hydraulic cylinder 62 is operated.
The rod 63 presses the sliding port 43 provided at the lower end of the support leg 40 inward according to the operation of the hydraulic cylinder 62. [
The support legs 40 are lifted up around the hinge 42 and the support plate 30 is lifted to the original height as the sliding port 43 is pressed inward.
Accordingly, the present invention can prevent a safety accident such as breakage of the cable pipe (10) due to an upper load such as subsidence or excavation work, and electric shock accident caused thereby.
5 to 8, the protective pipe apparatus according to the present invention further includes a mounting guide portion 100 for guiding the protective pipe 20 to be stably mounted on the support plate 30. As shown in FIGS.
The stop guide portion 100 allows the protective pipe 20 to be stably stably fixed to the foot plate 30 in a state where the cable pipe 10 accommodating the transformer underground cable is coupled to the protective pipe 20. [
The stationary guide portion 100 includes a support plate 110 disposed at a lower portion of the support plate 30, fixing means 120 for fixing the support plate 110 to the support plate 30, 130 for supporting the mounting plate 130 from the supporting plate 110 and buffering means 140 for buffering the impact.
The support plate 110 is formed of a rectangular plate and extends in the longitudinal direction of the support plate 30.
The fixing means 120 includes a plurality of fixing bars 121 which are fixed to the supporting plate 30 and a lower portion of which are fixed to the supporting plate 110 and a lower portion of the fixing bar 121, And a fixing member 122 which binds to the base 121.
It is preferable that the fixing bars 121 are arranged on both sides of the central portion of the support plate 30 in the forward and backward directions.
The fixing bar 121 is threaded on the outer circumferential surface and the fixing member 122 can be screwed to the fixing bar 121 while forming a thread on the inner circumferential surface.
The fixing member 122 can be moved up and down in the longitudinal direction of the fixing bar 121 in accordance with the rotation to appropriately adjust the distance between the supporting plate 30 and the supporting plate 110. [
The support plate 30 has a hollow 30a at a lower portion thereof to receive the mounting plate 130 therefrom.
The mounting plate 130 is formed of a curved surface plate and has the same curved surface as the inner surface of the receiving plate 30 while being drawn into the hollow 30a.
The mounting plate 130 may be provided with a buffer pad 131 on its upper surface.
The buffer pads 131 may be made of silicone or rubber and prevent slippage along with breakage due to contact between the protective pipe 20 and the mounting plate 130 that are seated with the buffer plate 130.
The buffering means 140 is disposed such that the upper portion thereof is connected to the fixing plate 130 and the lower portion thereof is positioned between the supporting bar 141 and the supporting plate 130 and the supporting plate 110 through which the hollow 30a and the fixing plate 130 pass. A spring 143 coupled to the outside of the support bar 141 and a separation preventing member 142 for preventing the support bar 141 from separating from the support plate 110 while being coupled to the lower portion of the support bar 141 .
The support bar 141 is threaded on the outer circumferential surface and the release preventing member 142 can be screwed to the outside of the support bar 141 while a thread is formed on the inner circumferential surface.
The spring 143 supports the mounting plate 130 from the supporting plate 110 so as to be able to ascend and descend, and shrinks and relaxes by an external force to buffer the impact.
The spring 143 presses the mounting plate 130 upward so that the mounting plate 130 protrudes upward while being drawn out of the hollow 30a before the protective plate 20 is seated with the mounting plate 130. [
The spring 143 shrinks as the protective tube 20 is seated with the seating plate 130 so as to cushion the impact while the protective tube 20 is gradually lowered together with the seating plate 130, .
When the protection tube 20 is completely seated on the support plate 30, the mounting plate 130 is pulled into the hollow 30a and the spring 143 is kept in a contracted state.
The buffering means 140 may further include a guide bar 144 for guiding both sides of the mounting plate 130 about the support bars 141.
The upper portion of the guide bar 144 is connected to both sides of the mounting plate 130 and the lower portion passes through the hollow 30a and the support plate 110. [
The guide bar 144 prevents the mounting plate 130 from being damaged due to the tilting of the mounting plate 130 by allowing the mounting plate 130 to be raised and lowered while keeping it horizontal.
The buffering means 140 may further include an adjusting member 145 for adjusting the elastic force of the spring 143. [
The adjusting member 145 is screwed to the outside of the guide bar 144 so as to be positioned at the lower portion of the supporting plate 110. The adjusting member 145 moves up and down with the guide bar 144, 143).
The mounting guide portion 100 may further include a guide plate 150 extending upward from an upper portion of the receiving plate 30. [
The guide plates 150 are arranged in pairs and are disposed at the front and rear of the upper part of the support plate 30, and the upper part is rounded outward with respect to the vertical state, and is curved.
This is for the purpose of guiding the protective pipe 20 accommodated in the inside of the bed plate 30 and stably mounting the same on the bed plate 130.
As a result, the stop guide portion 10 allows the protective pipe 20 to be slowly seated on the support plate 30, while preventing the protection pipe 20 from being fastened to the support plate 30 by buffering the impact, Breakage of the support legs 40 and the like can be prevented as well as breakage of the support plate 30. [
It is to be understood that the present invention is not limited to the above-described embodiment, and that various modifications and variations of the present invention are possible in light of the above teachings, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Cable tube 20: Protection tube
30: Support plate 40: Support leg
50: fixed plate 60: hydraulic pressure generator
100: fixing guide portion 110:
120: fixing means 130: mounting plate
140: buffer means 141: support bar
142: release preventing member 143: spring
144: guide bar 145: adjusting member
150: guide plate

Claims (1)

A cable conduit (10) in which a transformer underground cable is received;
A sponge protection tube 20 having a plurality of wrinkles 21 formed on an inner circumferential surface thereof and formed with a cylindrical shape and into which the cable 10 is inserted through the wrinkles 21;
A support plate 30 formed in a semicircular shape and having the protection tube 20 mounted on the upper seating portion 31 and the fastening protrusions 32 formed on both sides of the bottom thereof;
And the upper end portion is rotatably coupled to the fastening protrusion 32 through the hinge 41 and a sliding hole 43 is provided at the lower end portion of the fastening protrusion 32 so as to be vertically moved A support leg (40);
A sliding groove 51 is formed so that the sliding hole 43 can be inserted and moved and a sensor 52 for detecting contact with the sliding hole 43 is installed at one end of the sliding groove 51 A pair of fixing plates 50;
A hydraulic pressure generator (60) installed between the pair of fixed plates (50) and operated by sensing the sensor (52);
A hydraulic cylinder (62) installed on one side of the fixed plate (50) and operated by receiving the hydraulic pressure generated from the hydraulic pressure generating unit (60) through the hydraulic pressure supply pipe (61); And
And a rod (63) installed to protrude and retract from the end of the hydraulic cylinder (62) and push up the sliding tool (43) to raise the support leg (40)
(100) for guiding the protective pipe (20) to be stably mounted on the support plate (30)
The mounting guide portion (100)
A support plate 110 disposed under the support plate 30;
Fixing means (120) for fixing the support plate (110) to the support plate (30);
A mounting plate (130) disposed on the inside of the support plate (30) and having a buffer pad (131) on an upper surface thereof;
A buffer means 140 for supporting the mounting plate 130 from the support plate 110 while buffering an impact; And
And a guide plate (150) guiding the protection tube (20) received in the inside of the receiving plate (30) while forming a curved shape extending upward from the top of the receiving plate (30)
The support plate 30 has a hollow portion 30a at a lower portion thereof to receive the mounting plate 130,
The fixing means (120)
A plurality of fixing bars 121 having an upper portion fixed to the support plate 30 and a lower portion passing through the support plate 110; And
And a fixing member 122 screwed to the lower portion of the fixing bar 121 to bind the supporting plate 110 to the fixing bar 121,
The fixing member (122)
And adjusts a distance between the support plate 30 and the support plate 110 while being raised and lowered in the longitudinal direction of the fixing bar 121 according to the rotation,
The buffering means (140)
A support bar 141 having an upper portion connected to the mounting plate 130 and a lower portion passing through the hollow 30a and the mounting plate 130;
A spring 143 coupled to the outside of the support bar 141 to be positioned between the support plate 130 and the support plate 110;
A release preventing member 142 screwed to the lower portion of the support bar 141 to prevent the support bar 141 from being separated from the support plate 110;
A guide bar 144 connected to both sides of the upper plate 130 and guiding both sides of the lower plate 130 through the hollow 30a and the support plate 110; And
The guide plate 144 is screwed to the outside of the guide bar 144 so as to be positioned below the support plate 110 and the guide plate 144 is moved up and down with the guide bar 144, And an adjusting member 145 for adjusting the elasticity of the elastic member 145,
The spring (143)
The protector plate 130 is pressed upward to protrude from the hollow 30a and the protector tube 20 is contracted as the protective tube 20 is seated with the fixation plate 130 to buffer the impact, 130) and the protection tube (20) is gradually lowered to be seated on the support plate (30).

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