KR101178224B1 - Bracket of connecting for electric power cable in underground - Google Patents

Abstract

PURPOSE: An underground line connection bracket for electric power distribution is provided to prevent the leakage by mechanically and stably fixing a cable which transmits and distributes high voltage power. CONSTITUTION: An elastic part(3700) includes a spring part(3720), a spring hole(3740) and a stopper(3760). The spring part forms a fixing projection(3710). The spring hole includes a stepped protrusion(3730) to fix the fixing projection. The stopper is screwed in a screw thread(3750). The stopper supports the fixing projection while blocking the one end of the spring hole.

Description

Underground cable connecting bracket for power distribution {Bracket of connecting for electric power cable in underground}

The present invention relates to underground cable connection bracket for distribution, and more specifically, mechanically and stably fixed while electrically connecting a cable for transmitting and distributing extra-high voltage power buried underground to prevent short circuit, discharge, electric shock and short circuit. It relates to underground cable connection bracket for distribution.

In power plants including thermal power plants, hydro power plants, and nuclear power plants, electricity generated at a voltage of about 20,000 V is boosted to an ultra-high voltage (154 KV or 345 KV) suitable for transmission, and the boosted electricity is transferred to the primary substation through an ultra-high voltage line. It is transmitted.

The primary substation lowers the super-high voltage electricity to 22.9 KV, which is the special high voltage, and transmits or distributes the electricity to the general customers along the secondary substations or distribution lines located near the large capacity customers.

Electricity distributed from the primary substation or secondary substation is transmitted or distributed to the receiving facility of each customer through the transmission and distribution system consisting of overhead distribution line and underground distribution line. It is used for industrial and home use.

There are two types of transmission and distribution using the ground and the ground.

In the underground transmission and distribution system, underground pipes are installed underground and underground cables for transmitting or distributing special high pressure are arranged in underground pipes.

The underground pipes should be installed underground with a certain depth, and if multiple underground pipes are installed, they should be kept at a constant distance from other adjacent underground pipes.

In the prior art, after filling the sand to a certain height in the lower part of the ground excavated to a certain depth using a wood plywood to arrange the underground pipes, and to maintain a constant distance between the underground pipes using a spacer and to fill the surroundings of the underground pipes with sand Therefore, the layout of the underground pipe is completed.

When the installation of the underground pipe is completed, the wooden plywood and the spacer are removed, and the rebuilding is completed.

However, this prior art is difficult to maintain the installed position of the underground pipe structure constructed when there is a slope or groundwater leaching.

Another prior art that improves this problem is a "prefabricated power bulb junction device for underground transmission and distribution" according to Patent Application No. 10-2010-41677 (2010.05.04).

1 is a functional configuration diagram of an underground cable connection device for high-voltage electrical distribution according to an embodiment of the prior art, Figure 2 is a cross-sectional configuration of the projection plate sealing member according to an embodiment of the prior art and prefabricated power for underground transmission It is explanatory drawing of the state installed in the old block and working.

Hereinafter, with reference to the accompanying drawings in detail the underground cable connection device for high-voltage electric power distribution is a configuration including a prefabricated power bulb block 10 for underground transmission and distribution and a plurality of projection plate sealing portion (13).

The prefabricated power bulb block 10 for underground transmission and distribution is standardized in a factory and mass-produced, and is generally made to a size that can be input and operated by a wiring worker.

The protruding plate sealing member 13 has a double structure having an outer layer sealing portion 14 made of a resin expanding material and an inner layer sealing portion 15 formed of a natural rubber material, and the outer layer sealing portion 14 is integrally formed with both sides unfolded. The plate 16 is formed in the longitudinal direction and is fitted into the space of the junction 11 generated when the power bulb block is assembled and fixed.

The protruding plate sealing member 13 is inserted into a plurality of spaces formed between the prefabricated power bulb block 10 for underground transmission and distribution and the prefabricated power bulb block 10 for underground transmission and distribution.

The prefabricated power bulb block 10 for underground transmission and distribution, into which the protrusion plate sealing member 13 is inserted, is assembled by being fastened with a bolt 17 or a wire 17 '.

This prior art has the advantage of preventing the leakage into the inside of the underground cable fixing device for special high voltage electric transmission and increase the size of the internal cavity.

However, the prior art has a problem in that it does not provide a configuration of the bracket that can be electrically connected to the underground cable for the high-voltage electric distribution, and at the same time fixed mechanically.

Therefore, there is a need to develop a technique for electrically connecting underground cables for special high voltage electric distribution and mechanically fixing them.

The present invention devised in order to solve the problems and necessity of the prior art as described above provides an underground cable connection bracket for distribution to the mechanical connection while electrically connected to the underground cable for special high voltage distribution.

In order to achieve the object of the present invention, the underground cable connection bracket for power distribution is inserted into the mounting portion (2300) formed by both fences (2200) of the special high-pressure cable for high-voltage distribution for the high-pressure distribution and a plurality of bottom projections ( A lower bracket portion 2000 electrically connected to the conductor of the extra-high voltage cable 900 while being mechanically fixed; And a hinge coupled to one end of the lower bracket part 2000 and a hinge shaft bar 4000, and rotated around the hinge shaft bar 4000 to be superimposed on the upper side of the lower bracket part 2000 while the both fences ( 2200 is coupled to any one of the teeth to maintain the fastening state and the electrical contact with the conductor of the extra-high voltage cable 900 seated on the seating portion 2300 and a plurality of top projections 3300 and mechanically fixed while Upper bracket portion 3000 to be connected to; Including, but the lower bracket portion (2000) forms a body of the lower bracket portion, the lower body portion 2100 having a flat and rectangular overall shape; A plurality of fences 2200 protruding upward from the other end along the longitudinal direction of the lower body portion 2100 and spaced inward from the ends of both edges; A seating part 2300 formed between the plurality of fences 2200 to seat the extra-high voltage cable 900; A plurality of lower protrusions 2400 which protrude in a row on an upper side of the lower body part 2100 forming a bottom surface of the seating part 2300 and have a conical shape; A plurality of separating grooves 2500 respectively formed at ends of the fences 2200 to separate the extra-high voltage cables 900 seated on the seating portions 2300; A plurality of fence shafts 2100 are formed in a position and a shape in which the fence 2200 is extended at one end of the lower body portion 2100 and each of which forms a first hinge shaft hole 2610 into which the hinge shaft bar 4000 is inserted. A first hinge jaw 2600; And a first tooth portion 2700 protruding in the direction of the lower body portion 2100 from an outer side of any one of the plurality of fences 2200; The upper bracket portion 3000 includes a top body portion 3100 which forms a body of the upper bracket portion 3000 and has a flat and rectangular shape as a whole. A plurality of second hinge jaws 3200 protruding from both ends of one longitudinal side edge of the upper body part 3100 and forming second hinge shaft holes 3210 corresponding to the first hinge shaft holes 2610; A plurality of upper projections 3300 protruding in a direction in which the second hinge jaw 3200 is formed along a longitudinal direction of the upper body portion 3100 and having a conical shape; When the upper body portion 3100 rotates about the hinge shaft rod 4000, the second tooth portion is installed at a position corresponding to the first tooth portion 2700 and is toothed with the first tooth portion 2700. (3400); A first support part 3500 installed in the second tooth part 3400 and protruding in the same direction as the second hinge jaw 3200 at a longitudinal middle portion of the upper body part 3100; A second support part 3600 protruding in the same shape as the first support part 3500 at an opposite edge on which the first support part 3500 of the upper body part 3100 is installed; An elastic part 3700 installed in the middle portion of the second support part to generate elasticity inwardly; And a handle part 3800 installed in the protruding state along the longitudinal direction of the upper body part 3100 at a width smaller than the width of the upper body part 3100 at the other end side of the upper body part 3100; The elastic portion 3700 includes a spring portion 3710 forming a fixed jaw 3710 at the end of the hemispherical shape and generating an elastic force to the center portion protruding in a circle; A spring hole 3740 in which the spring part 3710 is inserted into one end and a stepped part 3730 is installed at the other end to prevent movement of the fixing jaw 3710; And a stopper 3760 for screwing to a screw thread 3750 formed at one end of the spring hole 3740 to block the one end of the spring hole 3740 to support the fixing jaw 3710. . ≪ / RTI >

The present invention of the configuration as described above is electrically connected to the underground power line for transmitting a special high voltage in the underground to prevent the occurrence of short circuit, discharge, electric shock, etc. and mechanically stable to prevent the occurrence of accidental short circuit It has the advantage of not requiring urgent maintenance.

1 is a functional configuration diagram of a ground wire connection device for extra-high voltage electric power distribution according to an embodiment of the prior art,
Figure 2 is an explanatory view of the cross-sectional configuration of the projection plate sealing member according to an embodiment of the prior art and the state that is installed and acting on the prefabricated electric power block for underground transmission;
3 is a perspective view of the underground cable connection bracket for power distribution according to an embodiment of the present invention;
4 is an exploded view of the underground cable connection bracket for power distribution according to an embodiment of the present invention;
5 is a plan view and a front view of the lower bracket portion constituting the underground cable connection bracket for power distribution according to an embodiment of the present invention;
6 is a plan view and a front view of the upper bracket portion constituting the underground cable connection bracket for power distribution according to an embodiment of the present invention;
7 is a cross-sectional view taken along line AA of the upper bracket portion and the lower bracket portion BB constituting the underground cable connection bracket for power distribution according to an embodiment of the present invention;
And
8 is a partially enlarged view of an elastic part constituting the underground wire connection bracket for power distribution according to an embodiment of the present invention.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In the following description, mechanical and mechanical means have the same meaning and are selectively used as appropriate to the context, and wires and cables have the same meaning and selectively use as appropriate to the context.

In addition, transmission and distribution are the same meaning, and with transmission and distribution, it is decided to selectively use the one appropriate to the context.

3 is a perspective view of the underground cable connection bracket for power distribution according to an embodiment of the present invention, Figure 4 is an exploded view of the underground cable connection bracket for power distribution according to an embodiment of the present invention, Figure 5 In accordance with an embodiment of the present invention is a plan view and a front view of the lower bracket portion constituting the underground cable connection bracket for distribution, Figure 6 is a top bracket portion constituting the underground cable connection bracket according to an embodiment of the present invention 7 is a plan view and a front view, and FIG. 7 is a cross-sectional view taken along line AA of the upper bracket portion and BB line of the lower bracket portion constituting the underground cable connecting bracket for power distribution according to an embodiment of the present invention, and FIG. 8 is an embodiment of the present invention. The enlarged view of the elastic part which comprises the underground wire connection bracket for power distribution according to the example.

Hereinafter, referring to the accompanying drawings in detail, the underground cable connection bracket 1000 for power distribution is buried underground and electrically connected to the high voltage cable 900 for transmitting and distributing the high voltage of 22.9 KV. The lower bracket portion 2000, the upper bracket portion 3000, the hinge shaft bar 4000 is configured to include.

The lower bracket part 2000 is electrically and mechanically connected to an outgoing terminal or an inleting terminal such as a transformer, and the illustration and detailed description of the drawings will be omitted.

The lower bracket portion 2000 and the upper bracket portion 3000 are preferably made of a conductive metal body.

The lower bracket portion 2000 is electrically secured to prevent short circuit, discharge, electric shock, and the like while inserting and inserting the high voltage cable 900 into the seating portion 2300 formed by both fences 2200. Even when earthquakes, shocks, vibrations, etc., in the range are applied, it is mechanically fixed so that the fixed state is stably maintained, and at the same time, no accidental power failure occurs.

The lower bracket part 2000 includes a lower body part 2100, a plurality of fences 2200, a seating part 2300, a plurality of lower protrusions 2400, a plurality of separation grooves 2500, and a plurality of first hinge jaws ( 2600, a first tooth portion 2700.

The lower body portion 2100 has a uniform thickness as a whole and has a flat and rectangular shape.

The fence 2200 is installed one by one in the spaced apart at predetermined intervals from the ends of both edges along the longitudinal direction of the lower body portion 2100 is composed of a plurality.

The fence 2200 is installed to protrude upward from the other end of the lower body portion 2100, and its height is preferably higher than the average thickness of the lower body portion 2100.

The seating portion 2300 is a space formed between the plurality of fences 2200, and its width is preferably similar to the outer diameter of the extra-high voltage cable 900.

The lower protrusion 2400 is preferably conical in that it protrudes in a row on the upper surface of the lower body portion 2100 forming the bottom surface of the seating portion 2300.

The lower protrusion 2400 may be formed in two or more rows as necessary.

Separation groove 2500 is formed on each side of the end of the plurality of fences 2200 is configured to separate the extra-high voltage cable 900 inserted and seated in the seating portion 2300.

As an example, the special high voltage cable 900 seated on the seating portion 2300 may be separated using a flat head screwdriver, a dedicated tool, a jig, or the like.

Separation grooves 2500 may be provided in plurality as necessary.

The first hinge jaw 2600 is installed at both edges of one end portion of the lower body portion 2100 and is installed at the same position in which the plurality of fences 2200 are respectively extended.

Each of the first hinge jaws 2600 forms a first hinge shaft hole 2610 into which the hinge shaft bar 4000 is inserted.

The first tooth portion 2700 is provided in a sawtooth shape on the outer side of any one of the plurality of fences 2200, the end portion of the tooth is configured to face the direction of the lower body portion 2100.

Although the perspective view of the first tooth part 2700 is not shown in detail and a cross-sectional view is shown in the accompanying drawings, a perspective view of the second tooth part 3400 may be referred to.

The upper bracket portion 3000 is hinged to one end portion of the lower bracket portion 2000 and one end portion thereof by the hinge shaft bar 4000.

The upper bracket part 3000 rotates about the hinge shaft rod 4000 and is superposed on the upper surface of the lower bracket part 2000 while being coupled to any one of both fences 2200 to maintain a fastening state.

The upper bracket part 3000 contacts the conductor of the extra-high voltage cable 900 seated on the seating part 2300 with a plurality of upper protrusions 3300 and mechanically presses and compresses the extra-high voltage cable 900 at the same time. While making electrical connection.

The upper bracket part 3000 includes an upper body part 3100, a plurality of second hinge jaws 3200, a plurality of upper protrusions 3300, a second tooth part 3400, a first support part 3500, and a second support part. 3600, an elastic part 3700, and a handle part 3800.

The upper body portion 3100 forms a body of the upper bracket portion 3000 and has a flat and rectangular shape as a whole and has a shape similar to that of the lower body portion 2100.

The second hinge jaw 3200 is formed to protrude on both ends of the longitudinal one side edge of the upper body portion 3100, respectively, and includes a plurality of second hinge shaft holes 3210 corresponding to the first hinge shaft holes 2610. do.

An upper bracket portion 3000 having a plurality of second hinge jaws 3200 installed at one end by a hinge shaft rod 4000 inserted into a plurality of second hinge shaft holes 3210 and a plurality of first hinge shaft holes 2610. And the lower bracket portion 2000 having the plurality of first hinge jaws 2600 installed at one end thereof are pivotally coupled.

At this time, the hinge shaft rod 4000 has the same shape as a long bolt and penetrates through the plurality of second hinge shaft holes 3210 and the plurality of first hinge shaft holes 2610 and then screwed with a nut at the opposite side or lastly penetrated. A screw thread may be formed in the second hinge shaft hole 3210 to be screwed to the second hinge shaft hole 3210 that is finally passed through.

Meanwhile, at the inlet of the second hinge shaft hole 3210 through which the hinge shaft bar 4000 is first inserted, a groove into which the head of the bolt is inserted may be formed and is not illustrated in the accompanying drawings.

The upper protrusion 3300 has a conical shape and protrudes in the direction in which the second hinge jaw 3200 is formed.

The upper protrusion 3300 is installed in a row in the middle portion along the longitudinal direction of the upper body portion 3100 and may be installed in two or more rows as necessary.

The upper projections 3300 are installed at positions corresponding to the lower projections, and may be installed at the same positions or alternately between each other, and various applications are possible.

The second tooth portion 3400 is installed at a position corresponding to the first tooth portion 2700 when the upper body portion 3100 rotates about the hinge shaft bar 4000.

The second tooth portion 3400 is toothed with the first toothed portion 2700, and the toothed coupling once coupled is configured to continue to be tightly tightened continuously by the interval of each tooth and tooth.

The first support part 3500 is provided with the second teeth 3400 in the inward direction and is installed in the same direction as the second hinge jaw 3200 in the longitudinal middle portion of the upper body part 3100 and protrudes.

The second toothed portion 3400 is toothed at a position corresponding to the first toothed portion 2700 by the first support 3500.

The second support part 3600 protrudes in the same shape as the first support part 3500 at the opposite edge where the first support part 3500 of the upper body part 3100 is installed.

The elastic part 3700 is installed at the middle of the second support part 3600 to generate elasticity inwardly.

The first tooth portion 2700 and the second tooth portion 3400 are smoothly toothed by the elastic portion 3700 and the state in which the toothed tooth is smoothly maintained.

The handle part 3800 is installed in a shape protruding along the longitudinal direction of the upper body part 3100 with a width smaller than the width of the upper body part 3100 at the other end side of the upper body part 3100.

An external force for rotating the upper bracket part 3000 may be applied by using the handle part 3800.

The elastic part 3700 is provided such that the first tooth part 2700 and the second tooth part 3400 are strongly toothed, and includes a spring part 3710, a spring hole 3740, and a stopper part 3760.

The spring portion 3710 forms a fixing jaw 3710 at the end of the hemispherical shape and generates an elastic force toward the center portion protruding in a circle.

The spring hole 3740 inserts the spring portion 3710 into one end and installs a step portion 3730 to prevent movement of the fixing jaw 3710 at the other end.

The stopper 3760 is screwed to a thread 3750 formed at one end of the spring hole 3740 to block the one end of the spring hole 3740 so that the spring part 3720 generates an elastic force. Support.

For example, the toothed state of the first tooth part 2700 and the second tooth part 3400 may be released by the elastic part 3700.

External force that is strong to the second support part 3600 from the state in which the upper bracket portion 3000 overlaps the upper surface of the lower bracket portion 2000 and the first tooth portion 2700 and the second tooth portion 3400 are toothed. When the elastic part 3700 is pressed on one of the fences 2200, a gap is formed between the first tooth part 2700 and the second tooth part 3400, so that the tooth engagement is released.

In this case, when an external force is applied to the handle part 3800, the upper bracket part 3000 may be rotated around the hinge shaft bar 4000.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

900: high-voltage cable 1000: underground cable connection bracket for distribution
2000: lower bracket part 2100: lower body part
2200: fence 2300: seat
2400: Lower protrusion 2500: Separation groove
2600: first hinge jaw 2610: first hinge shaft hole
2700: first tooth portion 3000: upper bracket portion
3100: upper body 3200: second hinge jaw
3210: second hinge shaft hole 3300: upper projection
3400: 2nd tooth part 3500: 1st support part
3600: second support portion 3700: elastic portion
3710: fixed jaw 3720: spring portion
3730: step 3740: spring hole
3750 thread 3760 stopper
3800: handle portion 4000: hinge shaft rod

Claims (1)

By inserting the extra-high voltage cable (900) for the extra-high voltage distribution into the seating portion (2300) formed by both fences (2200) and is seated and in contact with the conductor of the extra-high voltage cable (900) by a plurality of bottom projections (400) A lower bracket part 2000 which is electrically connected while being fixed mechanically; And
One side end portion of the lower bracket portion 2000 and the hinge shaft rod (4000) is coupled to the hinge and pivot around the hinge shaft rod (4000) while being superimposed on the upper side of the lower bracket portion (2000) the both fence (2200) The tooth is coupled to any one of the () to maintain a fastening state and electrically fixed by mechanically fixing the conductor of the extra-high voltage cable 900 seated on the seating portion 2300 and a plurality of top projections 3300. An upper bracket portion 3000 to be connected; Including,
The lower bracket portion 2000 is
A lower body part 2100 which forms a body of the lower bracket part and has a flat and rectangular shape as a whole;
A plurality of fences 2200 protruding upward from the other end along the longitudinal direction of the lower body portion 2100 and spaced inward from the ends of both edges;
A seating part 2300 formed between the plurality of fences 2200 to seat the extra-high voltage cable 900;
A plurality of lower protrusions 2400 which protrude in a row on an upper side of the lower body part 2100 forming a bottom surface of the seating part 2300 and have a conical shape;
A plurality of separating grooves 2500 respectively formed at ends of the fences 2200 to separate the extra-high voltage cables 900 seated on the seating portions 2300;
A plurality of fence shafts 2100 are formed in a position and a shape in which the fence 2200 is extended at one end of the lower body portion 2100 and each of which forms a first hinge shaft hole 2610 into which the hinge shaft bar 4000 is inserted. A first hinge jaw 2600; And
A first tooth portion 2700 formed to protrude in the direction of the lower body portion 2100 from an outer side of any one of the plurality of fences 2200; Including;
The upper bracket portion 3000
An upper body part 3100 forming a body of the upper bracket part 3000 and having a generally flat and rectangular shape;
A plurality of second hinge jaws 3200 protruding from both ends of one longitudinal side edge of the upper body part 3100 and forming second hinge shaft holes 3210 corresponding to the first hinge shaft holes 2610;
A plurality of upper projections 3300 protruding in a direction in which the second hinge jaw 3200 is formed along a longitudinal direction of the upper body portion 3100 and having a conical shape;
When the upper body portion 3100 rotates about the hinge shaft rod 4000, the second tooth portion is installed at a position corresponding to the first tooth portion 2700 and is toothed with the first tooth portion 2700. (3400);
A first support part 3500 installed in the second tooth part 3400 and protruding in the same direction as the second hinge jaw 3200 at a longitudinal middle portion of the upper body part 3100;
A second support part 3600 protruding in the same shape as the first support part 3500 at an opposite edge on which the first support part 3500 of the upper body part 3100 is installed;
An elastic part 3700 installed in the middle portion of the second support part to generate elasticity inwardly; And
A handle part 3800 installed in the protruding state along the longitudinal direction of the upper body part 3100 with a width smaller than the width of the upper body part 3100 at the other end side of the upper body part 3100; Including,
The elastic portion 3700 is
A spring portion 3710 forming a fixed jaw 3710 at the end of the hemispherical shape and generating an elastic force to a central portion protruding in a circular shape;
A spring hole 3740 in which the spring part 3710 is inserted into one end and a stepped part 3730 is installed at the other end to prevent movement of the fixing jaw 3710; And
A stopper 3760 for screwing into a screw thread 3750 formed at one end of the spring hole 3740 to support the fixing jaw 3710 while blocking one end of the spring hole 3740; Underground cable connection bracket for power distribution comprising a.

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