CN212517625U - Slim guide rail of rail mounted socket - Google Patents

Abstract

The utility model discloses a thin guide rail of a rail-mounted socket, which comprises a guide pillar, a live wire conductive groove copper strip, a zero line conductive groove copper strip and a ground wire conductive groove copper strip, wherein the right side wall of the guide rail is provided with a first groove; the live wire conductive groove copper strip is arranged on the top wall of the first groove, the zero line conductive groove is arranged on the bottom wall of the first groove, or the live wire conductive groove copper strip is arranged on the bottom wall of the first groove, and the zero line conductive groove is arranged on the top wall of the first groove; the ground wire conductive groove copper strip is arranged on the left wall of the first groove, and the guide rail is thin in thickness, small in occupied space, practical and attractive.

Description

Slim guide rail of rail mounted socket

Technical Field

The utility model relates to a rail mounted socket technical field, concretely relates to slim guide rail of rail mounted socket.

Background

In today's society, almost all electrical devices are powered through electrical outlets. The mainstream socket that people used at present adopts fixed supply socket and power supply power strip. Fixed supply socket lacks the flexibility, in case set up, just is difficult to remove, and power supply power board can remove wantonly, but lacks security and regularity, very easily trips the people and electrocutes. Based on this, some current sockets adopting a rail type are provided, and the power supply can be connected to the place where the rail arrives through the arrangement at the wall and the like.

The rail type socket comprises a guide rail and a socket, and the thickness of the guide rail is thick and the occupied space is large in the conventional rail type socket.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a slim guide rail of rail mounted socket, this guide rail thickness is thin, and occupation space is little, and is practical pleasing to the eye.

A thin guide rail of a rail type socket comprises a guide pillar, a live wire conductive groove copper strip, a zero line conductive groove copper strip and a ground wire conductive groove copper strip, wherein a first groove is formed in the right side wall of the guide pillar; the live wire conductive groove copper strip is arranged on the top wall of the first groove, the zero line conductive groove copper strip is arranged on the bottom wall of the first groove, or the live wire conductive groove copper strip is arranged on the bottom wall of the first groove, and the zero line conductive groove copper strip is arranged on the top wall of the first groove; the ground wire conductive groove copper strip is arranged on the left wall of the first groove.

According to the guide rail of the traditional rail type socket, a fire wire conductive groove copper strip and a zero wire conductive groove copper strip are arranged on the top wall of a first groove, a ground wire conductive groove copper strip is arranged on the bottom wall of the first groove, the left wall of the first groove is arranged in a vacant mode, the fire wire conductive groove copper strip and the zero wire conductive groove copper strip are arranged side by side in the left-right direction, the thickness is thick, the occupied space is large, and the whole body is not attractive enough, in the technical scheme, the fire wire conductive groove copper strip is arranged on the top wall of the first groove, the zero wire conductive groove copper strip is arranged on the bottom wall of the first groove, or the fire wire conductive groove copper strip is arranged on the top wall of the first groove, the ground wire conductive groove copper strip is arranged on the left wall of the first groove, the space occupied by the fire wire conductive groove copper strip and the zero wire conductive groove copper strip in the left-right direction is reduced, and the thickness of the guide rail in the left-right direction is, thereby the thickness attenuation of messenger's guide rail makes the space that the guide rail took little, and is practical pleasing to the eye.

Preferably, the outer side walls of the live wire conductive groove copper strip, the zero line conductive groove copper strip and the ground wire conductive groove copper strip are covered with insulating protection strips.

Preferably, a second groove is formed in the top wall of the first groove, and the live wire conductive groove copper strip is arranged in the second groove. Open on the roof of first recess among this technical scheme has the second recess, the electrically conductive recess copper bar of live wire sets up in the second recess, further reduces the space that the electrically conductive recess copper bar of live wire took in vertical direction, makes the height of guide rail upper and lower direction littleer.

Preferably, the side wall of the second groove is provided with a second heat dissipation groove. The lateral wall at the second recess among this technical scheme is provided with the second radiating groove, the heat dissipation of the electrically conductive recess copper bar of live wire of being convenient for.

Preferably, a third groove is formed in the bottom wall of the first groove, and the zero line conductive groove copper strip is arranged in the third groove. In the technical scheme, the bottom wall of the first groove is provided with a third groove, the zero line conductive groove copper strip is arranged in the third groove, the space occupied by the zero line conductive groove copper strip in the vertical direction is further reduced, and the height of the guide rail in the vertical direction is smaller.

Preferably, the side wall of the third groove is provided with a third heat dissipation groove. In the technical scheme, the third heat radiating grooves are formed in the side walls of the third grooves, so that the zero line conductive grooves are convenient to radiate heat through copper strips.

Preferably, a fourth groove is formed in the left wall of the first groove, and the ground wire conductive groove copper strip is arranged in the fourth groove. The ground wire conductive groove copper strip is arranged in the fourth groove in the technical scheme, so that the space occupied by the ground wire conductive groove copper strip in the left and right directions is further reduced, and the thickness of the guide rail in the left and right directions is thinner.

Preferably, a fourth heat dissipation groove is formed in a side wall of the fourth groove. In the technical scheme, the side wall of the fourth groove is provided with a fourth heat dissipation groove, so that the heat dissipation of the copper bar of the ground wire conductive groove is facilitated.

Preferably, the right wall of the guide pillar is connected with two panels which are longitudinally distributed, a gap is formed between the two panels, the bottom wall of the upper panel is lower than the top wall of the first groove, and the top wall of the lower panel is higher than the top wall of the first groove. Set up two panels among this technical scheme, it has the axle that supplies the fixed live wire of socket to insert the stitch, zero line to insert the stitch and the ground wire to insert the stitch to pass through and can gliding clearance to open between two panels, and the panel can seal the most of first recess, prevents that the component in the guide pillar from exposing, causes danger, and the decorative cover can be regarded as to the panel simultaneously, according to fitment style practical environment change design laminating style environment, makes the device whole more pleasing to the eye.

The beneficial effects of the utility model are embodied in: according to the technical scheme, the live wire conductive groove copper strip is arranged on the top wall of the first groove, the zero line conductive groove is arranged on the bottom wall of the first groove, or the live wire conductive groove copper strip is arranged on the bottom wall of the first groove, the zero line conductive groove is arranged on the top wall of the first groove, the ground wire conductive groove copper strip is arranged on the left wall of the first groove, the space occupied by the live wire conductive groove copper strip and the zero line conductive groove copper strip in the left-right direction is reduced, the thickness of the guide rail is thinned, the space occupied by the guide rail is small, and the guide rail is practical and attractive.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic view of the overall structure of the present invention.

In the attached figure, 1-guide pillar, 2-first groove, 3-live wire conductive groove copper strip, 4-zero wire conductive groove copper strip, 5-ground wire conductive groove copper strip, 6-insulating protection strip and 7-panel.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

Examples

As shown in fig. 1, the cable comprises a guide pillar 1, a live wire conductive groove copper strip 3, a zero wire conductive groove copper strip 4 and a ground wire conductive groove copper strip 5, wherein a first groove 2 is formed on the right side wall of the guide pillar 1; the live wire conductive groove copper strip 3 is arranged on the top wall of the first groove 2, the zero line conductive groove copper strip 4 is arranged on the bottom wall of the first groove 2, or the live wire conductive groove copper strip 3 is arranged on the bottom wall of the first groove 2, and the zero line conductive groove copper strip 4 is arranged on the top wall of the first groove 2; the ground wire conductive groove copper strip 5 is arranged on the left wall of the first groove 2. The conductive groove copper bar in the embodiment means that a groove is formed in the conductive copper bar. The left top and the right top in the present technical solution are based on fig. 1, and are not taken as practical limitations of the present technical solution. During the use, the socket that the cooperation corresponds uses, and the pin is inserted to the live wire on the socket can get into the electrically conductive recess copper bar of live wire 3 in the recess and the electrically conductive recess copper bar 3 contact of live wire, and the pin is inserted to the zero line and the electrically conductive recess copper bar 4 contact of zero line in can getting into the recess of the electrically conductive recess copper bar 4 of zero line, and the pin is inserted to the ground wire and the electrically conductive recess copper bar 5 contact of ground wire in can getting into the recess of the electrically conductive recess copper bar 5 of ground wire.

In order to make this device safer, all cover on the lateral wall of the electrically conductive recess copper bar of live wire 3, the electrically conductive recess copper bar of zero line 4 and the electrically conductive recess copper bar of ground wire 5 in this embodiment has insulating protection strip 6. The outer side wall of the conductive groove copper strip in this embodiment refers to the remaining side walls of the conductive groove copper strip except the inner wall of the groove.

In order to reduce the space occupied by the guide rail in the up-down direction, a second groove is formed in the top wall of the first groove in the embodiment, and the live wire conductive groove copper strip 3 is arranged in the second groove.

In order to make the radiating effect of the live wire conductive groove copper strip 3 is better, the side wall of the second groove is provided with a second radiating groove in the embodiment.

In order to reduce the space occupied by the guide rail in the up-down direction, a third groove is formed in the bottom wall of the first groove, and the zero line conductive groove copper strip 3 is arranged in the third groove.

In order to make the radiating effect of the zero line conductive groove copper bar 4 better, in this embodiment the side wall of the third groove is provided with a third radiating groove.

In order to make the thickness of the guide rail thinner in the left-right direction, in this embodiment, a fourth groove is formed on the left wall of the first groove, and the ground wire conductive groove copper bar 5 is disposed in the fourth groove. In order to make the heat dissipation effect of the ground wire conductive groove copper bar 4 better, a fourth heat dissipation groove is formed on the side wall of the fourth groove in the embodiment.

In this embodiment, the right wall of the guide post 1 is connected with two panels 7, the two panels 7 are longitudinally distributed, a gap is formed between the two panels 7, the bottom wall of the upper panel 7 is lower than the top wall of the first groove 2, and the top wall of the lower panel 7 is higher than the top wall of the first groove 2.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (9)

1. The thin guide rail of the rail type socket is characterized by comprising a guide pillar (1), a live wire conductive groove copper strip (3), a zero line conductive groove copper strip (4) and a ground wire conductive groove copper strip (5), wherein a first groove (2) is formed in the right side wall of the guide pillar (1); the live wire conductive groove copper strip (3) is arranged on the top wall of the first groove (2), the zero line conductive groove copper strip (4) is arranged on the bottom wall of the first groove (2), or the live wire conductive groove copper strip (3) is arranged on the bottom wall of the first groove (2), and the zero line conductive groove copper strip (4) is arranged on the top wall of the first groove (2); the ground wire conductive groove copper strip (5) is arranged on the left wall of the first groove (2).

2. The thin rail of track type socket according to claim 1, wherein the outer side walls of the live conductive groove copper bar (3), the neutral conductive groove copper bar (4) and the ground conductive groove copper bar (5) are covered with insulating protection bars (6).

3. The thin rail of track type socket as claimed in claim 1, wherein the top wall of the first groove is opened with a second groove, and the live conductive groove copper bar (3) is disposed in the second groove.

4. The thin rail of claim 3, wherein the sidewall of the second groove is provided with a second heat sink.

5. The thin rail of track type socket according to claim 1, wherein the bottom wall of the first groove is opened with a third groove, and the neutral conductive groove copper bar (4) is disposed in the third groove.

6. The thin rail of claim 5, wherein the side wall of the third groove is provided with a third heat sink.

7. The thin rail of track type socket as claimed in claim 1, wherein the left wall of the first groove is opened with a fourth groove, and the ground conductive groove copper bar (5) is disposed in the fourth groove.

8. The thin rail of claim 7, wherein the fourth groove has a fourth heat sink formed on a sidewall thereof.

9. The thin rail of a rail-type socket as claimed in claim 1, wherein two panels (7) are connected to the right wall of the guide post (1), the two panels (7) are longitudinally distributed, a gap is formed between the two panels (7), the height of the bottom wall of the upper panel (7) is lower than that of the top wall of the first groove (2), and the height of the top wall of the lower panel (7) is higher than that of the top wall of the first groove (2).

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