KR101656585B1 - The branching means of electric power line - Google Patents

Abstract

In the present invention, when branching a power line, regardless of the thickness of a power line to be branched, the branch connecting portion is brought into close contact with the insulating covering through surface of the power line so that a part of the connecting portion is exposed to prevent electric shock or short- Is designed to provide a power line branching means that effectively penetrates the jacket but has an excellent mechanical coupling force. In order to achieve the above object, the present invention is configured to include a first bundle and a second bundle, wherein the first bundle and the second bundle are slidably moved about a power line to be tightly coupled. In order to prevent moisture infiltration, a buffer member made of an elastic material is provided at a portion contacting the penetration portion of the power line. In order to prevent moisture from flowing on the surface of the screw and flowing into the electrical connection portion or the power line penetration portion, - ring, and filling the electrical members provided in the second bundle with a filling member to protect the electrical members from moisture or mechanical external force.
INDUSTRIAL APPLICABILITY The power line branching means of the present invention is capable of preventing damage such as accident of electric shock or intrusion of moisture by penetration of moisture such as rainwater in branching branch line from an indoor / outdoor power line, shortening the time for construction, It is effective to significantly improve the workability by reducing the force passing through the insulation coating of

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power line branching means, and more particularly, to a power line branching means for branching a branch line connected to an external device such as a modem for communication from an off-grid power line having various thicknesses to an electrically- will be.

As shown in FIG. 1, a conventional technique for branching a branch line from a power line is a method of turning a sharp-pointed screw 3 so as to pass through a coating of a power line C, Method. Specifically, the screw 3 is made of a metal material having good electrical conductivity and corrosion resistance and is configured to pass through a female screw portion provided in the connecting conductor 5 built in the U-shaped body 2, The connection conductor 5 is electrically connected to the power line conductor through the insulating cover of the power line C by connecting the branch wire 4 drawn out to the outside so that the end of the screw comes into contact with the power line conductor portion.

However, there are four problems with this method. First, most of the trunk of the screw 3 is left in the exposed live part after the branch connection, which may cause an accident such as an electric shock or a short circuit with other lines. Second, if the water penetrates into the power line penetrated by the screws as well as the body of the screw, there is a problem that the electric connection or the connection instability state is caused. Third, the distance between the end of the screw and the surface of the insulating sheath depends on the thickness of the power line to be branched. This causes a problem that it takes much time to turn the screw according to the thickness of the power line. Fourth, the standard screw thread is used in the shape of the screw thread. This is effective in strengthening the connection of the connecting conductor with the female thread to support the repulsive force generated when the cable is penetrated. However, It has a disadvantage that it requires more force than screw thread.

It is an object of the present invention to provide a power line branching means for preventing electric shock or short circuit accident by not exposing a screw that penetrates a power line when branching a power line, and preventing electromagnetism by moisture infiltration. It is still another object of the present invention to provide a power supply apparatus which is branched in a state in which an end of a screw is in close contact with a cover of a power line irrespective of the thickness of a power line to be branched, The present invention provides a power line branching means having improved workability by making it possible to more effectively penetrate the insulation coating by constituting the power line branching means.

According to an aspect of the present invention, there is provided a power line branching unit comprising: a U-shaped first bundle which is inserted into a power line to be branched and serves as a fence on three sides of a bottom surface, a left surface and a right surface of a power line; And a second bundle coupled to an upper end of the first bundle to block the upper surface of the power line. The first bundle and the second bundle have a structure of sliding and coupling with each other in the direction of the center of the power line so as to be in close contact with the upper and lower portions of the power line. In order to prevent the first bundle and the second bundle, which are tightly coupled to the power line, from loosening due to an external force such as vibrations, the first bundle and the second bundle are subjected to up- Wherein the first concavo-convex part provided on the first bundle is configured such that when the first bundle or the second bundle is applied with a force by applying elasticity, the first concave-convex part is moved upward and downward by pushing.

On the other hand, the second bundle is divided into an upper storage chamber and a lower storage chamber. A connecting member is fixed to the bottom surface of the upper housing chamber, and a female screw thread is provided in a standard thread shape on the center axis so that one end of the branch wire is electrically connected to the connecting member and the connecting screw is threadedly engaged. After assembling parts assembled in the upper compartment, the upper compartment is filled with molten PVC or epoxy to protect the assembled parts from external influences such as moisture penetration and external force. And a filling member. In addition, the filling member is provided with a cylindrical groove portion at the center thereof, and a threaded hole is provided in the lower surface of the cylindrical groove portion to provide a path of the connection screw.

The lower housing chamber is provided with a cushioning member formed of rubber or soft PVC so that the second bundle can be tightly coupled with the power line so that moisture can not penetrate into the penetration portion of the power line insulation coating formed by the connecting screw .

The second bundle is provided with a connecting screw for piercing the insulating sheath of the power line on a central axis line. The head portion of the connecting screw includes a handle formed of an insulating material made of a plastic material. And a male screw thread corresponding to a male screw thread is machined into a standard screw thread shape and a lower end portion including a sharp conical tip thread is machined from a tapping screw thread of one kind so as to effectively penetrate the insulation coating of the power wire . In order to prevent moisture from penetrating the surface of the screw, an O-ring groove portion is formed along the outer circumference surface at the lower end of the handle. By inserting the O-ring, the O- And the outer peripheral surface of the ring is in contact with the inner wall of the cylindrical groove portion of the filling member while pressing.

INDUSTRIAL APPLICABILITY The power line branching means of the present invention is capable of preventing damage to electric conduction parts caused by accident such as electric shock or moisture infiltration such as rainwater in diverging branch lines from the inside and outside power lines, It is effective to improve the workability by relieving the force penetrating the insulation coating of the power line.

1 is a perspective view showing a conventional power line branching means;
2 and 3 are a perspective view and an assembled sectional view of a power line branching unit according to an embodiment of the present invention
4 and 5 are a perspective view and a partial assembly view of a first bundle of power line branching means according to an embodiment of the present invention;
6 to 8 are perspective views showing parts of a main part constituting a first bundle of power line branching means according to an embodiment of the present invention;
9 is a partial detailed view showing the structure of the serrated first irregular portion and the second irregular portion of the power line branching means according to the embodiment of the present invention.
10 and 11 are a perspective view and an assembled cross-sectional view of a second bundle of power line branching means according to an embodiment of the present invention
FIGS. 12 to 17 are perspective views of parts showing the structure of major components constituting the second bundle of the power line branching unit according to the embodiment of the present invention. FIG.
18 is a cross-sectional view of a power line branching unit according to an embodiment of the present invention applied to power lines of various thicknesses in a branched connection state.

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

2 is a perspective view showing an assembled appearance of a power line branching unit according to an embodiment of the present invention. As shown, the power line branching unit of the present invention includes a first bundle 100 having a U-shaped outer shape; And a second bundle (200) coupling the U-shaped central axis of the first bundle (100) to move up and down coaxially.

FIG. 3 is an assembled cross-sectional view of a power line branching unit according to an embodiment of the present invention. The overall configuration of the power line branching unit of the present invention and how the first bundle 100 and the second bundle 200 are combined and lifted up and down It is also shown in detail how moisture infiltration into each connection portion is prevented.

As shown in the figure, a serrated second concave-convex portion 212 is formed on the outer surfaces of the right and left side walls of the second bundle 200 having an outer shape of a rectangular barrel shape. On the other hand, on the left and right sides of the upper inner wall surface of the first bundle 100 serving as an inlet through which the second concavo-convex part 212 is inserted to engage with the first bundle 100, The first concavo-convex part 121 is provided on the upper part of the piston 120 reciprocally driven in the cylinders 114 and 114 'provided in the first bundle 100, and the piston 120 is supported by the spring 130 So as to pivot the piston 120 in the direction of the second concave and convex portion 212. The first concave and convex portions 121 coupled to the first bundle 100 are engaged and supported by the second concave and convex portions 212 provided on the left and right side wall surfaces of the second bundle 200 at the left and right sides, When an external force is applied to any part of the first bundle 100 or the second bundle 200 and exceeds the supporting force of the spring 130 elastically pushing the first concave and convex portion 100, The coupling position can be changed on a predetermined path by vertically moving up and down with the central axis of the bundle 100 coaxial. The power line branching means of the present invention is configured such that the cushioning member 250 provided at the lower end of the second bundle 200 having the connection screw 280 is connected to the power line C regardless of the thickness of the power line to be branched So that it can be brought into close contact with the insulating coating.

The inside of the second bundle 200 in the form of a rectangular barrel is divided into an upper housing chamber 217 and a lower housing chamber 215. A connection screw 20 is fixed to the bottom surface of the upper housing chamber 217 in a screwed manner or the like and one end of the branch wire 290 is electrically connected to the connection member 220, The male screw thread 221 is provided in the form of a standard screw thread on the central axis line. With this configuration, when the peak 283 of the connection screw 280 penetrates the insulation coating of the electric power line C and touches the internal conductor, the conductor and the ground wire 290 contact the connection member 220 and the connection screw 280 It is conducted through mediation. In addition, appropriate circuit components 233 such as capacitors can be added in this series circuit for the purpose of branching, but such details are not described here because they are not factors affecting the basic configuration of the present invention.

After the assembly of the parts assembled in the upper storage chamber 217 is completed, the upper storage chamber 217 is filled with a filler member 240 which is filled with molten PVC, epoxy, or the like to prevent moisture from penetrating from the outside, . A cylindrical groove portion 241 is provided at the center of the filling member 240 and a threaded hole 242 is provided at the lower surface of the cylindrical groove portion 241 to provide a path of the connection screw 280.

The buffer member 250 formed of rubber or soft PVC is assembled to the lower housing chamber 215 so that the second bundle 200 can be tightly coupled with the power line C, To prevent moisture from penetrating into the penetration of the power line insulation coating formed by the power line.

The second bundle 200 is provided with a connecting screw 280 for piercing the insulating sheath of the power line C. The connecting thread 280 has a head portion formed of a plastic insulator And a handle 260. The body is formed by machining a first screw thread 281 corresponding to the thread thread 221 of the connecting member 220 in the form of a standard screw thread, 283 are formed by machining a first screw thread 282 into a first thread tapping thread so as to effectively penetrate the insulation coating of the power line. Further, in order to prevent water from penetrating the surface of the connection screw 280, an O-ring groove 261 is formed along the outer peripheral surface at the lower end of the handle 260, and the O-ring 270 is inserted The outer circumferential surface of the O-ring 270 touches the inner wall of the cylindrical groove portion 241 of the filling member 240 while the connecting thread 280 passes through the power wire insulation coating.

FIGS. 4 to 8 are shown for illustrating a more detailed structure and coupling state of the first bundle 100 and the constituent parts.

The first bundle 100 is formed by combining the first case 110 and the second case 110 'and the first case 110 and the second case 110' 115 and the coupling protrusions 116 are symmetrical in the front, rear, left, and right directions. In the present embodiment, the ultrasonic welding method is applied as a coupling method, which is an embodiment only. Anyone skilled in the art can make any other selection such as a screw coupling or a hook coupling, It is natural that the basic idea of the technology of the invention is not limited.

As described above, as the first case 110 and the second case 110 'are coupled, the half-way through holes 112 and 112' provided in the first case 110 and the second case 110 'are combined with the cylinders 114 and 114' The guide protrusions 113 and 113 'for guiding the reciprocating path of the piston 120 and the guide protrusions 111 and 111' for guiding the up and down path of the second bundle 200 are arranged in the front, Thereby allowing the piston 120 and the second bundle 200 to reciprocate and lift in a stable path without departing from the path. The first power line support grooves 101 and the second power line support grooves 102 are formed in accordance with the coupling of the first case 110 and the second case 110 ' The second power line support groove 102 serves to guide the center of the power line C to be branched to the central axis of the connection screw 280 so as to prevent the power line to be branched by the external force do. The piston 120 is formed by stacking rectangular cylinders of different sizes in two stages to prevent the piston 120 from being separated from the cylinders 114 and 114 'through the through holes 112 and 112' Inside the piston 120, a cylindrical storage chamber 123 is provided so that the spring 130 can be stably stored and operated. The guide grooves 122 and 122 'are provided on the outer wall of the piston 120 so as to correspond to the guide protrusions 113 and 113' so that the piston 120 does not deviate from the designated path. The piston 120 is provided with a serrated first concave-convex portion 121 and the shape of the tooth corresponds to the shape of the tooth of the second concave-convex portion 212 of the second bundle 200.

The shape of the teeth shown in FIG. 9 is one embodiment, and each A and each B are formed to have the same shape. This is because the second bundle 200 is combined with the first bundle 100 to perform the up / This is an example of making equal power at the time of lowering and lowering the power at the time of the branch connection or disconnecting the connection, And if it is necessary to make the separation of the connection relatively difficult, it is possible to make a deformation such that each A is made larger than each B. Similarly, the height D of the tooth of the tooth, the pitch P, and the like can be deformed as much as necessary depending on the characteristics of the branching means, and the elasticity of the spring 130 pushing the piston 120 can be variously selected And it is needless to say that such modification does not limit the basic idea of the technology of the present invention.

  FIGS. 10 to 17 are shown for illustrating a more detailed structure and coupling state of the second bundle 200 and the constituent parts, and the structure and the coupling content will be described in accordance with the contents shown below.

The inside of the body 210 of the second bundle 200 in the shape of a rectangular barrel is divided into an upper housing chamber 217 and a lower housing chamber 215. The bottom surface of the upper housing chamber 217 is provided with a guide frame 218 and screw holes 214 and 219 for fixing the connection member 220 and one end of the branch line 290 is connected to the connection member 220, And the female screw thread 221 is provided on the central axis in the form of a standard screw thread so that the connection screw 280 is threadedly engaged. With this configuration, when the peak 283 formed on one end of the connection screw 280 penetrates the insulation coating of the electric power line C and touches the internal conductor, the conductor and the ground wire 290 are electrically connected to the connection member 220 and the connection screw 280 ). The other end of the branch wire 290 is drawn out to the outside through a branch wire hole 216 provided in front of the body 210. When the external force is applied to the branch wire 290, Appropriate stress buffering means is added so that loosening of the state does not occur. In addition, suitable circuit components 233, such as capacitors, may be added to such a series circuit with the substrate 230 or the like in accordance with the purpose of the branch, and in this embodiment, A capacitor is assembled to the substrate 230 to electrically and mechanically couple with the branch line 290 and the connection member 220 so as to selectively filter the elements. A threaded hole 219 and an engagement hole 222 are provided for screw connection of the body and the connection member 220 and the through hole 232 and the engagement hole 222 for screw connection of the connection member 220 and the substrate 230 222 are provided. Also, the branch wires are soldered to the substrate. Various methods can be applied to the above-mentioned stress buffering means of the branch wire 290 and the mechanical electrical coupling with the connecting member 220, and these contents can be easily thought of by anyone, and elements affecting the basic configuration of the present invention I do not specify here because it is not.

After assembling the parts assembled in the upper storage chamber 217, it is possible to prevent the moisture penetration from the outside and to prevent the components assembled in the inside of the upper storage chamber 217 from being molten PVC or epoxy And a cylindrical filler member 240 that fills the space of the upper housing chamber 217 by using a predetermined mold and has a cylindrical groove portion 240 having a concentricity with the center axis of the connection screw 280, (241) and a threaded hole (242) so as to provide a path of the connection screw (280). At the center of the bottom surface of the upper housing chamber 217, a guide frame 218 is provided, which is guiding means for facilitating engagement with the connection member 220.

The buffer member 250 formed of rubber or soft PVC is assembled to the lower housing chamber 215 so that the second bundle 200 can be tightly coupled with the power line C, To prevent moisture from penetrating into the penetration of the power line insulation coating formed by the power line. The cushioning member 250 has a hardness of a degree to which a pitch P between the serrated first concave-convex portion 121 and the second concave-convex portion 212 is pressed when the operator presses the surface without using a separate tool . In addition, a power line guide groove 213 is provided on the front and rear walls of the lower housing chamber 215. This prevents the interference of the lower end wall of the body 210 with the power line C even if the buffer member 250 is sufficiently pressed In order to avoid such problems.

The second bundle 200 is provided with a connecting screw 280 for piercing the insulating sheath of the power line C. The connecting thread 280 is formed of a plastic insulator And the first thread mount 281 corresponding to the female thread 221 of the connecting member 220 is provided with a standard screw And a second screw thread 282 is machined from a first tapping screw thread so as to effectively penetrate the insulation coating of the power line at the lower end portion including the peak 283 having a sharp conical shape, Thereby making it possible to more easily penetrate the insulating coating while maintaining a strong bonding force. In addition, an o-ring groove 261 is provided along the outer peripheral surface at the lower end of the handle 260 to prevent moisture from penetrating the surface of the screw, and the O-ring 270 is fitted into the screw 260 Ring 270 is in contact with the inner wall of the cylindrical groove portion 242 of the filling member 240 while the outer circumferential surface of the o-

The body 210 of the second bundle 200 is provided with four guide blades 211 at the front, back, right and left sides in the form of extending the front wall and the rear wall. The guide blades 211 are coupled with the first bundle 100, The second bundle 200 guides the driving path so that the central axis of the second bundle 200 moves up and down along the center axis of the first bundle 100 when the first bundle 100 is driven, Lt; RTI ID = 0.0 > unintentional < / RTI >

18 is a sectional view of the power line branching unit according to the embodiment of the present invention in a branched connection state in which the cable is applied to cables of various thicknesses. As shown in the drawing, when the power line branching means of the present invention is used, the peak 283 of the connecting screw 280 is surrounded by the insulating coating of the power line C to be branched and surrounded by the buffer member 250 irrespective of the thickness of the power line It can be understood that there is no fear of electric shock due to exposure of a part of the connection screw 280 or moisture intrusion into the conductive part after the completion of the branching to cause electric discharge.

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. It is natural that it can be changed.

100: 1st bundle
110: first case 110 ': second case
101: first power line support groove 102: second power line support groove
111, 111 ': guiding jaws 112, 112': through holes
113, 113 ': guide protrusion 114, 114': cylinder
115: engaging groove 116: engaging projection
120: piston
121: first concave / convex portion 122: guide groove 123: storage chamber
130: spring
200: second bundle
210: Body
211: guide wing 212: second uneven portion
213: Power line guide groove 214: Screw hole
215: lower housing chamber 216:
217: upper housing chamber 218: guide frame 219: screw hole
220:
221: connection screw fastening holes 222, 222 ': engagement hole 223:
230: substrate
231: screw hole 232: through hole 233: circuit component
240: Filling member 241: Cylindrical groove portion 242: Screw hole
250: buffer member
260: Handle
261: O-ring home
270: O-ring
280: Connection thread
281: 1st screw thread 282: 2nd thread thread 283: Peak
290: branch line

Claims (2)

A power line branching means for branching a branch line from an indoor / outdoor power line,
A first bundle (100) having a U-shaped outer shape; And a second bundle 200. The second bundle 200 is elastically coupled to the first bundle 100 so that the first bundle 100 is coaxial with the central axis of the first bundle 100,
In addition, the first bundle 100 includes: cylinders 114 and 114 'formed by coupling the first case 110 and the second case 110'; A piston 120 having a first concavo-convex portion 121 at one end thereof; A spring (130) inserted into the piston (120) and pushing the piston (120) in a predetermined direction; A first power line support groove 101 for preventing the separation of the power line C to be branched and matching the center of the power line C and the center of the second bundle 200; And a second power line support groove (102); Guiding jaws (111, 111 ') for guiding the driving path of the second bundle; And a through hole 112 or 112 'for allowing the first concave / convex portion 121 of the piston 120 to contact the second concave / convex portion 212 of the second bundle 200,
In addition, the second bundle 200 is formed in the shape of a rectangular barrel, and the inside thereof includes an upper storage chamber 217; A second uneven portion 212 is provided on the right and left side walls which are resiliently coupled with the first bundle 100, and a lower storage chamber 215 is provided. A ground through hole (216) through which a branch line passes; And guide blades 211 and 211 'for guiding the drive path in association with the guide jaws 111 and 111' when the second bundle 200 is coupled with the first bundle 100 and is vertically moved up and down A body (210) provided with the body (210); A connection member 220 assembled to the bottom of the upper housing chamber 217; A connecting screw 280 for fastening and threading the female screw thread 221 integrally formed on the connecting member 220; A branch line 290 electrically coupled to the connection member 220; A filling member 240 for preventing moisture infiltration into the upper housing chamber 217; A cushioning member 250 assembled to the lower housing chamber 215 to secure adhesion when the second bundle 200 is to be coupled to the power line C; And,
A handle 260 integrally formed of a plastic material is provided at one end of the connection screw 280 and an O-ring groove 261 is provided at an underside of the handle 260 along an outer circumferential surface of the O- 270 are inserted,
The upper portion of the filling member 240 is provided with a cylindrical groove portion 241 concentric with the central axis of the connecting screw 280 and corresponding to the O-ring 270, and the center of the bottom surface of the cylindrical groove portion 241 And the shaft includes a threaded hole (242).
The method according to claim 1,
The connecting screw 280 has a first screw thread 281 corresponding to the female screw thread 221 of the connecting member 220, And a second screw thread (282) is machined from a tapping screw thread at a lower end portion including a conical peak (283).

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