KR20190072118A - Cable ducts for wireless charging feed lines having fastening member - Google Patents

Abstract

The present invention provides a wire duct for wireless charging feed lines having a fastening member capable of easily adjusting a height of a duct assembly by using a fastening member. The wire duct for wireless charging feed lines having a fastening member comprises: a duct assembly formed with a wire accommodation unit for accommodating a plurality of wires for feed lines independently of each other; a bracket assembly fastened to the outside of the duct assembly; and a fastening member including a bolt fastened to the bracket assembly and a plurality of nuts fastened to the bolt by a screw and formed with a loosening prevention unit, and adjusting a height of the bracket assembly and the duct assembly.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cable duct for a cordless charging power supply line having a fastening member,

The following description relates to a wire duct for a wireless charging feeder line having a coupling member which is adjustable in height and prevented from unwinding in a wire duct for a wireless charging feeder line installed in a rail or track.

Recently, due to the strengthening of environmental regulations, the development of electric power related technologies and battery technologies, there is a demand for technologies for utilization of electric power in all vehicles including automobiles, light rail, and train. In addition, there is a demand for a battery charging technology and a wireless charging technique that combines convenience and safety in wired charging using existing cables.

The wireless charging technology is an electromagnetic induction method using an electromagnetic induction phenomenon between a primary coil and a secondary coil of a transformer, a magnetic resonance method and an electromagnetic wave method in which a magnetic resonance is transmitted using a frequency of several MHz to several tens MHz .

Recently, wireless charging technology has been applied to electric vehicles, trains or vehicles using rails or trajectories.

A magnetic resonance type wireless charging technology capable of safely transmitting a large amount of energy wirelessly to a train or a vehicle using a rail or a trajectory is a technique in which a magnetic field generated from a rail or a cable installed in a track is transmitted through a collecting device Charge the vehicle by converting it to electrical energy.

Conventionally, the electric wire for the feed line is provided with a wire protecting pipe, and a plurality of electric wires are laid in the pipe. In such a case, the wire must be installed in the correct position for the wireless charging to be smooth, and it is difficult to install the wire protection pipe in the correct position. Further, since a plurality of electric wires are installed in the inner space of the electric wire protecting pipe, there is a problem in insulation between the electric wires and maintenance of the internal pressure. In addition, the wireless charging efficiency is determined according to the distance between the feeder line and the current collector, and it is very difficult for the operator to manually match the distance between the feeder line and the current collector. In addition, there is a problem of leaking that may occur on the connection portion connecting the wires for protecting the wires, deformation of the wires and pipes due to the change of the external temperature, and damage thereof.

According to the embodiments, there is provided a wire duct for a wireless charging feeder line having a fixing member capable of adjusting the height of the duct assembly and preventing loosening of the fastening member.

Further, the present invention provides a wire duct for a wireless charging feeder line which is installed in a rail or a track, each wire being independently accommodated and effective to maintain insulation and internal pressure.

The tasks to be solved in the embodiments are not limited to the above-mentioned tasks, and other tasks not mentioned can be clearly understood by those skilled in the art from the following description.

A wire duct for a wireless charging feeder line installed on a rail or a track according to the present invention will be described.

A wire bundle for a wireless charging feed line having a fixing member capable of height adjustment and loosening prevention includes a duct assembly formed with a wire receiving portion for independently receiving electric wires for a plurality of feed line, a bracket assembly coupled to the outside of the duct assembly, A bolt fastened to the bracket assembly, and a plurality of nuts screwed on the bolt and having a release preventing portion, and the fastening member adjusting the height of the bracket assembly and the duct assembly.

According to one aspect of the present invention, the fastening member may include two or more nuts continuously connected to the bracket assembly on one side of the bolt, and the unblocking portion may be formed on a fastening surface where the plurality of nuts contact each other have. Here, the unlocking portion may be formed only on the fastening surface of the plurality of nuts, or on both surfaces of the fastening surface and the surface opposite to the fastening surface.

According to one aspect of the present invention, at least one of the plurality of nuts is formed of an elastically deformable material, and the entire or at least the unlocking portion of the nut may be formed of a material capable of elastically deforming. Alternatively, at least one of the plurality of nuts may be formed of a material capable of plastic deformation, and the entire or at least the unlocking portion of the nut may be formed of a material capable of being plastically deformed.

According to one aspect of the present invention, the unlocking portion may include a concave-convex portion formed on the engaging surface of the plurality of nuts. The concavo-convex portion is formed in a direction that interferes with the rotation of the plurality of nuts in the direction of rotation thereof, so that the plurality of nuts can be maintained in a state in which they are meshed with each other by the concavo-convex portion. For example, the concave-convex part may be a saw blade shape formed along the circumferential direction of the plurality of nuts, or a mountain shape or a wave shape. Alternatively, the concave-convex portion may be formed as an inclined surface with respect to a horizontal plane. Alternatively, the first nut of the plurality of nuts may protrude from the first fastening surface, and the second nut may be recessed to receive the first fastening surface of the first nut. The first nut may protrude at a predetermined height along a part of an outer peripheral surface of a screw hole screwed to the bolt, and the second nut may be formed with a groove or recess to receive the protruding portion of the first nut .

As described above, according to the embodiments, the height of the duct assembly can be easily adjusted by using the fastening member.

Further, since the release preventing portion is formed on the fastening member, it is possible to prevent the nut fastened by the external vibration from being released.

Further, each electric wire is independently accommodated, and is effective for insulating and maintaining the internal pressure. In addition, it is possible to provide a wire duct for a wireless charging feeder line installed on a track or track, which is easy to assemble the duct and the wire.

The effects of the wire duct for the wireless rechargeable feeder line having the fastening member according to the embodiment are not limited to those mentioned above and other effects not mentioned can be clearly understood to those skilled in the art from the following description will be.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description, serve to further the understanding of the technical idea of the invention, It should not be construed as limited.
1 is a perspective view of a wire duct for a wireless charging feeder having a fastening member according to an embodiment.
2 is an exploded perspective view of the duct assembly in the wire duct for the wireless charging feed line of FIG.
FIG. 3 is a perspective view showing a state in which two nuts with a release preventing portion according to an embodiment are engaged.
4 is a perspective view showing a state in which two nuts are disassembled in Fig.
5 is a cross-sectional view illustrating a release preventing portion according to another embodiment, in which two nuts are coupled.
Fig. 6 is a side view of the state in which two nuts are disassembled in Fig. 5. Fig.
FIG. 7 is a side view showing a state in which two nuts are separated in order to explain a release preventing portion according to another embodiment; FIG.

Hereinafter, embodiments will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments, detailed description of known functions and configurations incorporated herein will be omitted when it may make the best of an understanding clear.

In describing the components of the embodiment, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

Hereinafter, the wire duct 10 for a wireless charging feeder having the fastening member 14 will be described in detail with reference to Figs. 1 and 2. Fig. 1 is a perspective view of a wire duct 10 for a wireless charging feed line according to an embodiment of the present invention. FIG. 2 is a perspective view illustrating a disassembly of a duct assembly 11 in a wire duct 10 for a wireless charging feed line of FIG. It is a perspective view.

Referring to the drawings, an electric wire duct 10 for a wireless charging feed line includes a duct assembly 11, a bracket assembly 12 and a duct assembly 11 for mounting the duct assembly 11 to a target object including a rail or a track And a duct connecting member (13) for connecting the duct connecting member (11).

The duct assembly 11 accommodates the electric wire 1 and is provided with a plurality of electric wires 1 along the longitudinal direction thereof. A bracket assembly 12 is provided on one side of the duct assembly 11 along the length thereof to fix the duct assembly 11 and the electric wire 1. [ A plurality of duct assemblies 11 are provided along the longitudinal direction of the electric wire 1. The duct connecting members 13 couple the plurality of duct assemblies 11 to each other.

The duct assembly 11 includes a duct cover 111 and a duct base 112 and an electric wire receiving portion 220 for receiving a plurality of electric wires 1 therein is formed. The duct assembly 11 is formed to accommodate along the longitudinal direction of the electric wire 1. The duct assembly 11 is formed so as to be capable of independently accommodating a plurality of electric wires 1a and 1b in the electric wire receiving portion 220, respectively.

The duct cover 111 is coupled to cover the upper portion of the duct base 112 and is formed to cover at least a part of the side of the duct base 112. For example, the duct cover 111 has a bottom opened to be coupled with the duct base 112, and has a body portion 211 corresponding to the upper surface of the duct base 112 and a side portion of the duct base 112 And a side wall portion 212 covering the side wall portion.

The duct base 112 is formed such that at least a part of the upper surface thereof is opened to a predetermined size so that the electric wire 1 can be taken in and out, and the internal space becomes the electric wire receiving portion 220.

The duct base 112 is formed with a plurality of partitions 222 protruding at a predetermined height from a body part 221 forming a bottom surface. The barrier ribs 222 divide the wire receiving part 220 into a plurality of spaces so that the plurality of wires 1 can be received independently of each other and the plurality of partitions 222a and 222b are formed along the longitudinal direction of the wire 1. [ . Here, although three partition walls 222a and 222b are formed to accommodate two electric wires 1a and 1b in the drawing, this is merely an example. It is to be noted that the number of partitions 222a and 222b of the electric wire 1 accommodated in the duct assembly 11 The number of barrier ribs 222a and 222b may also be changed substantially in accordance with the number.

In the drawing, reference numeral 224 denotes a plurality of guide flanges 224 formed at a predetermined height on the bottom surface of the body portion 221.

According to the embodiment, since the electric wire receiving portion 220 inside the duct assembly 11 separates and accommodates the plurality of electric wires 1 by the partition wall 222, the plurality of electric wires 1a and 1b are insulated , It is possible to prevent an increase in the internal pressure of the duct assembly (11).

The duct assembly 11 is formed with duct coupling portions 213 and 223 for mechanical fastening between the duct cover 111 and the duct base 112. A first duct coupling part 213 protruding to a predetermined height is formed at an end of the side wall part 212 of the duct cover 111 and a first duct coupling part 213 is formed at an outer side face of the outer side wall 222b of the duct base 112. [ And a second duct coupling part 223 to be coupled to the second duct coupling part 213 is formed. For example, the first duct coupling portion 213 may be formed as a protruding portion or a hook-shaped protruding portion with an end portion of both side wall portions 212 of the duct cover 111 at a predetermined height inward. The second duct coupling part 223 is formed so that the first duct coupling part 213 is coupled along the outer surface of the both side outer partitions 222b when the duct cover 111 is coupled to the duct base 112 A predetermined inclined surface 223a is formed, and an end of the inclined surface 223a includes a step 223b protruding to a predetermined height.

When the duct cover 111 is pressed against the duct base 112 in a state where the duct cover 111 is disposed on the upper portion of the duct base 112, the both side wall portions 212 of the duct cover 111 are pressed against the duct base 111, And moves along the inclined surfaces 223a of the outer side partition walls 222b of the base 112 and the first duct coupling portion 213 is engaged with the stepped portion 223b to complete the fastening.

The shapes of the first duct coupling part 213 and the second duct coupling part 223 can be changed substantially in various ways so as to be mutually engageable. The second duct coupling part 223 has a protruding portion or a hook shape protruding from the end of the outer side wall 222b and the first duct coupling part 213 is formed in the duct cover 111, It is also possible for the second duct coupling portion 223 to have a shape of a groove or protrusion to be fastened on the inner surface of the first duct coupling portion 223.

A sealing member (not shown) may be provided at a portion where the duct cover 111 and the duct base 112 are coupled. For example, a sealing member (not shown) made of an elastic material such as rubber or silicone is pressed between the duct cover 111 and the outer surface of the outermost partition 222b in the duct base 112, And the duct base 112 can be prevented. However, this is merely an example, and it is also possible to omit the sealing member between the duct cover 111 and the duct base 112.

The bracket assembly 12 is coupled to the outside of the duct assembly 11. The bracket assembly 12 is coupled to the outside of the duct assembly 11 to connect the plurality of duct assemblies 11 or to fix the duct assembly 11 to a target object including a rail or a track. The bracket assembly 12 may be formed as a pair of an upper bracket 121 and a lower bracket 122. For example, the upper bracket 121 is provided at an upper portion of the duct assembly 11 so as to surround the upper surface of the duct assembly 11 and a part of at least both sides of the duct assembly 11. The lower bracket 122 covers the duct assembly 11, And may have a plate shape provided at a lower portion of the plate. A pair of the upper bracket 121 and the lower bracket 122 is wrapped around the duct assembly 11 and fixed.

The upper bracket 121 and the lower bracket 122 are formed on both sides of the coupling flanges 121a and 122a, respectively, by extending a predetermined length outwardly from both sides to fasten the coupling member 14. The coupling flanges 121a and 122a are formed with coupling holes 121b and 122b to which the coupling member 14 is coupled. For example, the fastening holes 121b and 122b may have an elliptical slit hole shape having a predetermined length. However, this is merely an example, and the shape and configuration of the bracket assembly 12 may be substantially varied.

The fastening member 14 fastens the upper bracket 121 and the lower bracket 122 to fix the bracket assembly 12 and the duct assembly 11 to each other.

The fastening member 14 is composed of a bolt 141 having a predetermined length and coupled through the coupling flanges 121a and 122a of the bracket assembly 12 and a plurality of nuts 142 coupled to the bolt 141. [ The height of the duct assembly 11 can be adjusted by adjusting the position of the nut 142 fastened along the longitudinal direction of the bolt 141. [

The nut 142 has a plurality of nuts 421, 422 and 423 coupled along the longitudinal direction of the bolt 141 and is coupled to the upper and lower portions of the coupling flanges 121a and 122a, respectively, 121a, and 122a.

At least two or more nuts 421 and 422 are coupled to at least one of the upper and lower sides of the coupling flanges 121a and 122a and the two nuts 421 and 422 It is possible to prevent the fastening member 14 from being unwound by vibrations generated from the outside. The unlocking structure of the nut 142 will be described with reference to Figs. 3 to 7. Fig.

In the drawing, two nuts 421 and 422 are fastened to the upper portions of the coupling flanges 121a and 122a, but this is merely an example, and the present invention is not limited thereto. For example, three or more nuts may be coupled to the upper portions of the coupling flanges 121a and 122a. It is also possible that two or more nuts are coupled to the lower portion of the coupling flanges 121a and 122a.

Hereinafter, with reference to Figs. 3 to 7, the fastening member 14 having the release preventing portions 143, 144, and 145 according to the embodiments will be described.

FIG. 3 is a perspective view showing a state in which two nuts 421 and 422 having a release preventing portion 143 according to an embodiment are coupled. FIG. 4 is a perspective view showing a state in which two nuts 421 and 422 are disassembled FIG.

Referring to FIGS. 3 and 4, the release preventing portion 143 is formed so as to prevent the two nuts 421 and 422 from being loosened while preventing the two nuts 421 and 422 from being rotated in opposite directions.

The unlocking portion 143 is formed on the fastening surfaces 421a and 422a where the nuts 421 and 422 are coupled to each other and includes concave and convex portions 431 and 432 formed at predetermined heights on the fastening surfaces 421a and 422a do.

The concave and convex portions 431 and 432 are formed in a direction that interferes with rotation of the plurality of nuts 421 and 422 in the rotational direction. For example, the concave and convex portions 431 and 432 may be formed along the circumferential direction of the nuts 421 and 422 and may have a saw blade shape having a predetermined height and a predetermined pitch on the fastening surfaces 421a and 422a. The concave and convex portions 431 and 432 may be formed in a mountain shape or a wave shape having a predetermined height and a predetermined pitch along the circumferential direction of the nuts 421 and 422 .

Since the first nut 421 and the second nut 422 are prevented from rotating in opposite directions by the concave and convex portions 431 and 432 when the concave and convex portions 431 and 432 are coupled to each other, The engagement of the first nut 421 and the second nut 422 is maintained and loosening is prevented.

The nuts 421 and 422 or the unlocking portions 143 are formed to have elasticity such that the nuts 421 and 422 are firmly coupled with each other and are effectively prevented from loosening when the unlocking portions 143 are fastened to each other. It may be formed of an elastic material so as to be deformable. For example, at least one of the nuts 421 and 422 of the plurality of nuts 421 and 422 may be formed of a material capable of elastically deforming all or at least the unlocking portion 143 of the nuts 421 and 422 . When the plurality of nuts 421 and 422 are engaged, the portion of the release preventing portion 143 is deformed and the two nuts 421 and 422 are firmly coupled. In this case, since the deformed portions are restored by elasticity even after the nuts 421 and 422 are separated, the nuts 421 and 422 can be reused.

Alternatively, at least one of the plurality of nuts 421 and 422 may be formed of a material capable of plastic deformation. Here, when the plurality of nuts 421 and 422 are engaged, a portion of the unlocking portion 143 is deformed and the two nuts 421 and 422 are firmly coupled. In this case, however, the nut in which the plastic deformation is caused while the plurality of nuts 421 and 422 are coupled is not restored after the nuts 421 and 422 are separated, so that the nut is discarded without being reused.

Next, the release preventing portion 144 according to another embodiment will be described with reference to FIGS. 5 and 6. FIG. 5 is a cross-sectional view illustrating a release preventing portion 144 according to another embodiment, in which two nuts 421 and 422 are engaged. FIG. 6 is a cross- (421, 422) are disassembled.

5 and 6, the unlocking portion 144 includes uneven portions 433 and 434 having predetermined heights and pitches formed on the fastening surfaces 421a and 422a to which the two nuts 421 and 422 are coupled, ).

The unlocking portion 144 may be formed as an inclined surface in which the engaging surfaces 421a and 422a or the concave and convex portions 433 and 434 are inclined at a predetermined angle with respect to the horizontal plane. The unlocking portion 144 is formed by a part of the engaging surfaces 421a and 422a in an inclined surface and is formed around the threaded hole 421b at the first fastening surface 421a of the first nut 421, An inclined surface may be formed on the second fastening surface 422a of the nut 422 around the threaded hole 422b.

Specifically, the first nut 421 has a flange or lip formed around the threaded hole 421b at the first fastening surface 421a and having a predetermined thickness and protruding at a predetermined height. The protruded surface has a predetermined height The concave-convex portion 433 may be formed in a predetermined inclined surface along the radial direction or the radial direction of the first nut 422. The concavo- The second nut 422 has a concave portion corresponding to the concave / convex portion 433 of the first nut 421 formed around the screw hole 422b in the second concave surface 422a. Concave portions 434 corresponding to the concave and convex portions 433 of the first nut 421 are formed. As the first nut 421 and the concave and convex portions 433 and 434 of the second nut 422 are engaged with each other, the first nut 421 and the second nut 422 are maintained in the engaged state, Preventing portion 144 for preventing the rotation of the motor-driven motor M1 to rotate.

However, the first nut 421 and the second nut 422 may be formed as inclined surfaces as a whole of the engagement surfaces 421a and 422a. The fastening surfaces 421a and 422a may be formed as inclined surfaces having a predetermined angle along the radial direction or the radial direction of the nuts 421 and 422.

The concave and convex portions 433 and 434 are formed in a direction which interferes with the rotation of the plurality of nuts 421 and 422 in the rotation direction. For example, the concave and convex portions 433 and 434 may be formed along the circumferential direction of the nuts 421 and 422 and may have a saw blade shape having a predetermined height and a predetermined pitch on the fastening surfaces 421a and 422a. The concave and convex portions 433 and 434 may be formed in a mountain shape or a wave shape having a predetermined height and a predetermined pitch along the circumferential direction of the nuts 421 and 422 .

Also, the nuts 421 and 422 or the release preventing portion 144 may be formed of an elastic material so that elastic deformation is possible. For example, at least one of the nuts 421 and 422 of the plurality of nuts 421 and 422 is formed of a material capable of elastically deforming all or at least the unlocking portion 144 of the nuts 421 and 422 . When the plurality of nuts 421 and 422 are engaged, the portion of the release preventing portion 144 is deformed and the two nuts 421 and 422 are firmly coupled.

Alternatively, at least one of the plurality of nuts 421 and 422 may be formed of a material capable of plastic deformation. Here, when the plurality of nuts 421 and 422 are engaged, the portion of the unlocking portion 144 is deformed and the two nuts 421 and 422 are firmly coupled.

7 is a side view showing a state in which two nuts 421 and 422 are separated in order to explain a release preventing portion 145 according to yet another embodiment.

Referring to FIG. 7, the unlocking portion 145 is formed such that the coupling surface 421a of the first nut 421 of the two nuts 421 and 422 protrudes by a predetermined height to form the concave and convex portions 435, A concave portion 436 corresponding to the concave / convex portion 435 of the first nut 421 may be formed on the engagement surface 422a of the nut 422 to have a predetermined depth.

The first nut 421 has a shape protruding from the fastening surface 421a toward the center of the first nut 421 toward the screw hole (not shown) screwed to the bolt 141, A protruded portion 435 having a predetermined height and pitch is formed on the protruding surface.

The second nut 422 is formed with a groove or a recess to receive the protruding engagement surface 421a of the first nut 421. The protrusion 435 of the first nut 421 is engaged with the engagement surface 422a, A concavity and convexity 436 having a height and a pitch that correspond to the height and pitch of the concave portion 436 can be formed. As the first nut 421 and the concave and convex portions 435 and 436 of the second nut 422 are mutually engaged with each other, the first nut 421 and the second nut 422 are maintained in the engaged state, Preventing portion 145 for preventing rotation in the opposite direction to prevent loosening.

However, this is merely an example, and the height and inclination of the unlocking portion 145 protruding on the engaging surfaces 421a and 422a may be substantially varied.

The concave and convex portions 435 and 436 are formed in a direction that interferes with rotation of the plurality of nuts 421 and 422 in the rotational direction. For example, the concave and convex portions 435 and 436 may be formed along the circumferential direction of the nuts 421 and 422 and may have a saw blade shape having a predetermined height and a predetermined pitch. The concave and convex portions 435 and 436 may be formed in a mountain shape or a wave shape having a predetermined height and a predetermined pitch along the circumferential direction of the nuts 421 and 422 .

At least one of the nuts 421 and 422 or the release preventing portion 145 may be formed of an elastic material so that elastic deformation is possible. Alternatively, at least one of the plurality of nuts 421 and 422 or the unlocking portion 145 may be formed of a material capable of plastic deformation.

Meanwhile, although the above embodiments have been described with respect to only two nuts 421 and 422, it is also possible that three or more nuts are combined. In the above-described embodiment, the release preventing portions 143, 144, and 145 are formed on one surface of each of the nuts 421 and 422. However, the release preventing portions 143 and 144 may be formed on both surfaces of the nuts 421 and 422, 144, and 145 may be formed.

The fastening member 14 can adjust the height of the duct assembly 11 through the adjustment of the length of the bolt 141 and also can easily adjust the fastening position of the nut 142 so that the duct assembly 11 Can be adjusted. Further, the nut 142 is formed with the release preventing portion 143, so that it is possible to prevent the fastening member 14 from being unwound by the vibration generated from the outside.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the scope of the present invention. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, the spirit of the present invention should not be construed as being limited to the embodiments described, and all the equivalents or equivalents of the claims, as well as the appended claims, fall within the scope of the present invention .

1, 1a, 1b: electric wire for feeder line
10: Wire duct for wireless charging feed line
11: duct assembly
111: Duct cover
211: Body portion of the duct cover
212:
213: first duct coupling portion
112: Duct base
220:
221: Body portion of the duct base
222, 222a, 222b:
223: second duct coupling portion
224: Guide flange
12: Bracket assembly
121: Upper bracket
122: Lower bracket
121a, 122a: Coupling flange
121b, 122b: fastening holes
13: Duct connecting member
14: fastening member
141: Bolt
142, 421, 422, 423: nut
421a, 422a: fastening surface
421b, 422b: screw holes
143, 144, 145: release preventing portion

Claims (7)

A duct assembly having a wire receiving portion for receiving wires for a plurality of feed lines independently from each other;
A bracket assembly coupled to the outside of the duct assembly; And
A bolt fastened to the bracket assembly, and a plurality of nuts screwed to the bolt and having a release preventing portion, the fastening member adjusting the height of the bracket assembly and the duct assembly;
A wire duct for a wireless charging feeder line.
The method according to claim 1,
Wherein the fastening member is continuously engaged with at least two nuts on one side of the bolt with respect to the bracket assembly,
Wherein the unlocking portion is formed on both of the fastening surfaces where the plurality of nuts contact each other or on both sides of the fastening surface and the surface opposite to the fastening surface.
3. The method of claim 2,
At least one of the plurality of nuts is formed of a material that is elastically deformable,
A wire duct for a wireless charging feeder wire in which at least part of the nut is at least part of an anti-loosening portion made of an elastically deformable material.
3. The method of claim 2,
Wherein the unlocking portion includes a concave-convex portion formed on the engaging surface of the plurality of nuts,
Wherein the concave and convex portions are formed in a direction that interferes with the rotation of the plurality of nuts in the direction of rotation thereof so that the plurality of nuts are held in engagement with each other by the concave and convex portions.
5. The method of claim 4,
Wherein the concavoconvex portion is a saw blade shape formed along the circumferential direction of the plurality of nuts, or a mountain shape or a wave shape.
5. The method of claim 4,
Wherein the first nut of the plurality of nuts has a first fastening surface protruded and the second nut has a second fastening surface recessed to accommodate the first fastening surface of the first nut, .
The method according to claim 6,
Wherein the first nut is protruded at a predetermined height along a part of an outer circumferential surface of a screw hole screwed to the bolt,
Wherein the second nut has a groove or a recess for receiving the protruding portion of the first nut.

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