WO2015194792A1

WO2015194792A1 - Branch sleeve for connecting power cable

Info

Publication number: WO2015194792A1
Application number: PCT/KR2015/005879
Authority: WO
Inventors: 박미란; 김근환
Original assignee: 박미란
Priority date: 2014-06-19
Filing date: 2015-06-11
Publication date: 2015-12-23
Also published as: KR101514785B1

Abstract

The objective of the present invention is to provide a branch sleeve for connecting a power cable, deformed when the branch sleeve is compressed using a compressor such that the branch sleeve fully wraps a main line and a branch line of the power cable so as to connect and bind the main line and the branch line without a gap. To this end, the present invention provides a branch sleeve for connecting a power cable, having a main line insertion groove and a branch line insertion groove such that a main line and a branch line of the power cable are insertedly connected thereto, and in which both edge end portions of each of the main line insertion groove and the branch line insertion groove are deformed when the branch sleeve is compressed using a compressor such that the both edge end portions wrap each of the main line and the branch line so as to connect and bind each of the main line and the branch line, wherein an engagement groove is formed on one end portion thereof and has a shape corresponding to that of the other end portion of both the edge end portions of each of the main line insertion groove and the branch line insertion groove, an outer protrusion part having a predetermined length outwards is formed on an outer edge of the engagement groove, an inner protrusion part having a shorter length than that of the outer protrusion part is formed on an inner edge of the engagement groove such that when the branch sleeve is compressed using a compressor, the other end portion is inserted into the engagement groove along the inner surface of the outer protrusion part, and the outer protrusion part is deformed while pressing the other end portion towards the inner protrusion part.

Description

Branch sleeve for power line connection

The present invention relates to a branch sleeve used to connect and bind a main line and a branch line of a power line or a jumper line which is not subject to tension. The present invention relates to a branch sleeve for connecting a power line which can prevent inflow of foreign substances and prevent corrosion thereof.

The connection and connection part of the power line constituting the transmission and distribution line for electric power supply are subject to corrosion and heat when water or foreign matter such as rainwater or dew enters, resulting in power failure due to disconnection of the connection part and of electric shock accident. There is a safety problem where the risk is many times higher than usual.

Accordingly, the main line and the branch line of the power line are connected and connected by using so-called branch sleeves to prevent the inflow of moisture or foreign matters, thereby preventing corrosion.

For example, a branch sleeve for connecting a power distribution line is disclosed in Korean Utility Model Registration No. 20-0470445. As shown in FIGS. 1 and 2, the main body 100 includes a first connection portion 101 for connecting the main line 110 and a second connection portion 102 for connecting the branch line 120.

However, the branch sleeve 1 is formed in the process of compressing the main line 110 and the branch line 120 into the first connection portion 101 and the second connection portion 102 by a compressor for connection and binding after insertion. A gap is formed in a portion where the edge ends of the first connection portion 101 and the second connection portion 102 come into contact with each other as they collide with the corresponding portions of the main body 100, and through this gap, foreign matter such as rainwater or metallic dust is formed. However, there is a problem that the corrosion material is infiltrated, causing corrosion and poor connection, and as a result, the connection part is melted due to an increase in resistance and a rise in temperature, thereby causing disconnection and power failure of the main line 110 and the branch line 120.

[Preceding technical literature]

[Patent Documents]

KR 200272235 Y1

KR 200219458 Y1

KR 200181972 Y1

KR 100821720 B1

KR 101036943 B1

KR 200470445 Y1

JP 2000030769 A

Therefore, the technical problem and object to be solved by the present invention is to completely prevent the formation of gaps in the main line and branch line and the contact portion of the power line when compressed by the compressor power line to prevent inflow of moisture or foreign matter, as well as connection failure It is to provide a branch sleeve for connection.

In order to achieve the above-described technical problem and object, a specific solution according to an embodiment of the present invention includes a main line insertion groove and a branch line insertion groove formed to insert and connect a main line and a branch line of a power line, and the main line when compressed by a compressor A power supply connecting branch sleeve, in which both ends of the insertion groove and the edges of the branch line insertion grooves are deformed so as to surround the main line and the branch line, respectively, each of which is connected to one end of the edge of the main line insertion groove and the branch line insertion groove. Fastening grooves corresponding to the shapes of the other ends are respectively formed, and outer protrusions having a predetermined length outward are respectively formed on the outer edges of the fastening grooves, and an inner shorter length than the outer protrusions is formed on the inner edge of the fastening grooves. Protrusions are formed respectively, the other end is compressed into the compressor inside the outer projection According to and inserted into the clamping groove, the outer protrusion is provided on a branch sleeve for connecting a power line characterized in that the deformation pressure while the other end toward the inner projection.

Thus, the present invention is the other end of the main insertion slot and the branch insertion slot guided along the inner surface of the outer projection is inserted into the fastening groove when compressed by the compressor, and at the same time the outer projection is pressurized the other end toward the inner projection without gaps It is completely enclosed and deformed, which not only completely prevents the formation of gaps in the main and branch lines of the power line, but also maintains a solid connection and binding state.

In addition, in a preferred embodiment of the present invention, by applying or attaching a conductive material to the inner surface of the main line insertion groove and the branch line insertion groove, respectively, moisture or foreign matter is introduced between the main line insertion groove and the main line and the branch line insertion groove and the branch line. In addition, the electrolytic corrosion phenomenon and the oxide film phenomenon can be prevented from occurring at the contact portion between the branch sleeve made of copper and conductive metal such as aluminum and the power line made of conductive metal.

In addition, in a preferred embodiment of the present invention, the conductive material is applied or adhered to the grooves formed at both edges of the main insertion hole and the branch insertion groove to minimize the gap between the main insertion groove and the main line and the branch insertion groove and the branch line. In the meantime, it is possible to more effectively prevent the inflow of moisture, moisture or foreign matter.

In addition, in a preferred embodiment of the present invention, the other end is formed to be curved in a curved or polygonal shape, the coupling groove is more easily coupled and formed by entering into a curved or polygonal shape corresponding to the other end and It can be tightly pressed.

The present invention with the solution and the configuration of the above problem can prevent the formation of a gap in the main line and branch line and the contact portion of the power line when compressed by the compressor, so as not only poor connection, but also infiltrated corrosion of moisture or foreign matter through the gap Can be prevented.

1 is a perspective view showing a branch sleeve for connecting a power line according to the prior art.

2 is a cross-sectional view showing a branch sleeve for connecting a power line according to the related art.

3 is a perspective view illustrating a branch sleeve for connecting a power line according to an exemplary embodiment of the present invention.

4 is a side view for explaining a process of coupling a power line connection branch sleeve and a power line according to an embodiment of the present invention.

5 is a side view illustrating a process of coupling a power line connecting branch sleeve and a power line according to another exemplary embodiment of the present invention.

[Description of the code]

10: Arrangement insert groove 11: One end

12: other end 13: fastening groove

14: conductive material 15: external projection

16: internal protrusion

20: branch line insertion groove 21: one end

22: other end 23: fastening groove

24: conductive material 25: external projection

26: internal protrusion 100: branch sleeve

200: main line 300: branch line

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms to be described below are defined in consideration of functions in the present invention, which clearly indicates that the concept is to be interpreted in a concept consistent with the technical spirit of the present invention and commonly used or commonly recognized in the art.

In addition, the accompanying drawings show the description of the configuration and operation of the technology, and for exaggeration or simplification of parts for ease of understanding and clarity, it is noted that each component does not exactly match the actual size.

In addition, the expressions indicating directions and positions such as "up and down", "inner side", "outer side", "one end" and "other end" used below are to facilitate the description of the shape and structure of the branch sleeve. However, the shape and structure of the branch sleeve are not limited to any particular position or direction.

As shown in FIGS. 3 and 4, the branch sleeve 100 for connecting a power line according to an exemplary embodiment of the present invention has a coating of the main line 200 on the upper left side to insert and connect the main line 200 and the branch line 300 of the power line. The main line insertion groove 10 for inserting the removed portion 210 is formed, and the branch line insertion groove 20 for inserting the portion 310 in which the covering of the branch line 300 is removed is formed on the lower right side. It is.

Here, in the power line connection branch sleeve 100 according to the embodiment of the present invention, both ends of the main line inserting groove 10 and the branch line inserting groove 20 at the edges of the main line inserting groove 10 and the branch line 200 are compressed when compressed by a compressor. For example, it may be formed of an aluminum material or a copper material so as to be connected and bound while being deformed as a wrap, and the main insertion groove 10 and the branch insertion groove 20 have a shape close to a garden (circular) when deformed by compression. It is formed to achieve.

The main line insertion groove 10 is opened so that the main line 200 is inserted in a direction orthogonal to the longitudinal direction thereof, and is formed to have a width wider than that of the branch line insertion groove 20.

Here, the main line insertion groove 10 and the branch line insertion groove 20 may be formed with the same size when the main line 200 and the branch line 200 is the same thickness.

In addition, one end portion 11 of both edges of the main line insertion groove 10 is formed with a fastening groove 13 corresponding to the shape of the other end portion 12 facing the opposite side thereof.

And the other end 12 is formed in an arcuate, curved or polygonal shape so as to be inserted into the fastening groove 13 by the external pressure, such as when compressed by the compressor, the fastening groove 13 is the other end ( Corresponding to 12) is formed to enter into an arched, curved or polygonal shape.

In addition, the other end portion 12 may be formed in a narrower shape or a pointed shape gradually toward the end as shown in FIG. 5, and the corresponding fastening groove 13 is gradually narrowed inwardly as it enters. It can be formed as.

And the outer edge of the fastening groove 13 is formed with an outer projection 15 having a predetermined length outward, the inner edge of the fastening groove 13, the inner projection 16 is shorter than the outer projection (15) ) Is formed.

That is, the outer protrusion 15 is formed to protrude to a predetermined length at the edge of the fastening groove 13 of the fastening groove 13 relatively far from the main groove inserting groove 10, and the distance closer to the main wire inserting groove 10. At the edge, the inner protrusion 16 is formed to protrude to a predetermined length, so that when compressed by the compressor, the other end 12 is inserted into the fastening groove 13 along the inner surface of the outer protrusion 15, and at the same time, the outer protrusion 15 ) Is deformed so as to press the other end 12 toward the inner protrusion 16, in which case the other end 12 is maintained in a state of being coupled to the fastening groove 13 can effectively prevent the gap as well as detachment. .

In addition, the inner surface of the main line insertion groove 10 to minimize the gap with the main line 200 to prevent moisture, moisture or foreign matter from flowing in between, and the branch sleeve 100 made of a conductive metal such as copper or aluminum ) Conductive material 14 such as copper powder, aluminum powder or a mixture of grease and silicon carbide (SiC) particles having a waterproof property to prevent electrolytic corrosion and anodization at the contact portion between the power line made of A conductive material 14 made of a copper plate or an aluminum plate which is coated or has the same cross section (curve) as the cross section (curve) shape of the main line insertion groove 10 can be attached.

Here, the conductive material 14 forms grooves at both edges of the inner surface of the main insertion groove 10, and is applied or adhered to the groove inserting groove 10 and the main line ( By minimizing the gap with the 200, it is possible to more effectively prevent the inflow of moisture, moisture or foreign matter therebetween.

The branch line insertion groove 20 is opened so that the branch line 300 is inserted in the direction orthogonal to the longitudinal direction, and is formed to have a width relatively narrower than the width of the main line insertion groove 10.

In addition, one end portion 21 of both edges of the branch line insertion groove 20 is formed with a fastening groove 23 corresponding to the shape of the other end portion 22 facing the opposite side.

And the other end 22 is formed in an arcuate, curved or polygonal shape so as to be inserted into the fastening groove 23 by the external pressure, such as when compressed by the compressor, the fastening groove 23 is the other end ( It is formed to enter into an arched, curved or polygonal shape corresponding to 22).

In addition, the other end portion 22 may be formed in a narrower shape or a pointed shape gradually toward the end thereof, as shown in FIG. 5, and the corresponding fastening groove 23 is gradually narrowed inwardly. It can be formed as.

In addition, an outer protrusion 25 having a predetermined length outward is formed at the outer edge of the fastening groove 23, and an inner protrusion 26 having a shorter length than the outer protrusion 25 at the inner edge of the fastening groove 23. ) Is formed.

That is, the outer protrusion 25 is formed to protrude to a predetermined length at an edge relatively far from the branch line insertion groove 20 of the fastening groove 23, and is relatively close to the branch line insertion groove 20. The inner projection portion 26 is formed to protrude to a predetermined length at the edge so that the other end 22 is inserted into the fastening groove 23 along the inner surface of the outer projection portion 25 when compressed by the compressor, and at the same time the outer projection portion 25 ) Is deformed to press the other end 22 toward the inner protrusion 26, and in this case, the other end 22 can be effectively inserted into the fastening groove 23 to prevent the gap as well as detachment. .

In addition, the inner surface of the branch line insertion groove 20 to minimize the gap with the branch line 300 to prevent the inflow of moisture, moisture or foreign matter therebetween, and the branch sleeve 100 made of a conductive metal such as copper, aluminum ) Conductive material 24 such as copper powder, aluminum powder or a mixture of grease and silicon carbide (SiC) particles having waterproof properties to prevent electrolytic corrosion and oxide film formation at the contact portion between the power line made of It is also possible to apply or apply a conductive material 24 made of a copper plate or an aluminum plate having the same cross section (curve) as the cross section (curve) shape of the branch insertion groove 20.

Here, the conductive material 24 forms grooves at both edges of the inner surface of the branch line insertion groove 20, and is applied or adhered to the groove so that the branch line insertion groove 20 and the branch line (also with a small amount of conductive material 24) The gap between the parts 300 may be minimized to more effectively prevent the inflow of moisture, moisture, or foreign matter therebetween.

The power line connection branch sleeve 100 according to the embodiment of the present invention configured as described above is different from the other end 12 of the main line insertion groove 10 and the branch line insertion groove 20 in the process of compressing with a working compressor. 22 is slid along the inner surface of each of the

outer protrusions

15 and 25 and inserted into the

fastening grooves

13 and 23, thereby preventing the other ends 12 and 22 from being deformed. In addition, since the

outer protrusions

15 and 25 are deformed while pressing the

other end portions

12 and 22 toward the

inner protrusions

16 and 26, the main line 200 and the branch line 300 of the power line are separated from each other. The formation of a gap in the contact portion can be prevented.

In addition,

conductive materials

14 and 24 such as copper powder, aluminum powder or a mixture of grease and silicon carbide (SiC) particles may be applied to the inner surfaces of the main insertion groove 10 and the branch insertion groove 20. By adhering

conductive materials

14 and 24 made of copper or aluminum having the same cross-section (curve) as the shape of each cross-section (curve), the gap between the main line 200 and the branch line 300 is minimized and therebetween. It is possible to prevent the ingress of moisture, moisture or foreign matter more effectively to prevent the resulting corrosion, and also to prevent contact failure to prevent the occurrence of electrolytic corrosion and oxide film phenomenon in the contact portion.

On the other hand, the present invention is not limited by the above-described embodiment and the accompanying drawings, various modifications and applications that are not illustrated within the scope not departing from the technical spirit of the present invention, as well as substitution of components and other equivalent It is apparent to those skilled in the art that the present invention may be widely modified by changing the embodiments.

Therefore, the content related to the modification and application of the features of the present invention should be construed as being included in the technical spirit and scope of the present invention.

Claims

A main line insertion groove and a branch line insertion groove are formed to insert and connect the main line and the branch line of the power line, and when compressed by the compressor, both ends of the main line insertion groove and the edge of the branch line insertion groove are deformed so as to surround the main line and the branch line, respectively. In the branch sleeve for connecting power lines,

Fastening grooves corresponding to the shape of the other end are respectively formed at one end of both ends of the edge of the main line insertion groove and the branch line insertion groove.

External protrusions having a predetermined length outwardly are formed on the outer edge of the fastening groove, respectively, inner protrusions having a shorter length than the external protrusions are formed on the inner edge of the fastening groove, respectively.

And the other end is inserted into the fastening groove along the inner surface of the outer protrusion, and the outer protrusion is deformed while pressing the other end toward the inner protrusion when compressed by a compressor.
The method of claim 1,

Power line connection branch sleeve, characterized in that the conductive material is applied or attached to the inner surface of the main line insertion groove and the branch line insertion groove, respectively.
The method of claim 2,

And wherein the conductive material is coated or attached to grooves formed at both edges of the main line insertion groove and the inner surface of the branch line insertion groove, respectively.
The method of claim 1,

The other end is formed in an arcuate, curved or polygonal shape, and the fastening groove is formed into the arcuate, curved or polygonal shape corresponding to the other end to enter the branch sleeve for power line connection.