CN115313113A - Adapter for track socket - Google Patents

Abstract

The invention discloses an adapter for a track socket, which belongs to the field of power sockets and comprises an adapter body, a positioning frame and a rotating ring, wherein a live wire terminal and a zero wire terminal are arranged in the adapter body; the positioning frame is fixed at the bottom of the adapter body, two electric connecting poles are rotatably arranged on the positioning frame, the two electric connecting poles are a live wire electric connecting pole and a zero wire electric connecting pole respectively, and the bottom end of each electric connecting pole is provided with a transverse electric connecting pin; the rotary ring is rotatably arranged on the adapter body and is linked with the two electric connecting posts through a linkage mechanism, so that the rotary ring drives the two electric connecting posts to rotate relative to the positioning frame respectively when rotating; the linkage mechanism comprises two transmission gears and two arc-shaped racks, the two transmission gears are respectively coated with plastic and fixed outside the two electric connecting posts, the two arc-shaped racks are synchronously and rotationally connected with the rotating ring, and the two transmission gears are respectively meshed with the two arc-shaped racks. The adapter has the advantages that the transmission structure is optimally designed, the transmission mechanism is simple in structure, effective in transmission, convenient to assemble and good in stability.

Description

Adapter for track socket

Technical Field

The invention relates to an adapter for a track socket, and belongs to the technical field of power socket structural design.

Background

Track sockets typically include a power track and an adapter that can be mounted on the power track to draw electricity from different locations. In patent document CN212542824U, an adaptor for a rail socket is disclosed, in which a rotary member is driven by a multi-stage transmission gear transmission mechanism with a relatively complex structure to realize the rotary driving of a conductive sheet assembly. The transmission mechanism in the adapter has a complex structure, more components, relatively complex assembly and higher manufacturing cost.

Disclosure of Invention

Aiming at the defects pointed out in the background technology, the invention provides the adapter for the track socket with a relatively reasonable structure, the number of the components of the transmission mechanism on the adapter is small, the structure is relatively simplified, the assembly is convenient, the assembly efficiency is improved, and the production cost is reduced.

The technical scheme for realizing the purpose of the invention is as follows:

an adapter for a track socket comprises an adapter body, wherein a zero line terminal electrically connected with a zero line plug bush and a live line terminal electrically connected with a live line plug bush are arranged in the adapter body;

the positioning frame is fixed at the bottom of the adapter body, two vertical electric connecting posts are rotatably mounted on the positioning frame, the two electric connecting posts are a live wire electric connecting post and a zero wire electric connecting post respectively, the two electric connecting posts are electrically connected with a live wire terminal and a zero wire terminal respectively, the bottom end of each electric connecting post is provided with a transverse electric connecting pin, and the electric connecting pins are of flat structures;

the rotating ring is rotatably arranged on the adapter body and is linked with the two electric connecting posts through a linkage mechanism, so that the two electric connecting posts are driven to rotate relative to the positioning frame through the linkage mechanism when the rotating ring rotates;

the linkage mechanism comprises two transmission gears and two arc-shaped racks, wherein the two transmission gears are respectively coated with plastic and fixed outside the two electric connecting posts, the two arc-shaped racks are synchronously and rotatably connected with the rotating ring, and the two transmission gears are respectively meshed with the two arc-shaped racks.

In the technical scheme, the processing method adopted by the power connection pole is as follows: one end of a copper column is heated and pressed into a flat shape, the edge of the copper column is trimmed, then the end is bent by 90 degrees to form the power connection pin, and finally the transmission gear is integrally formed at the corresponding position on the copper column in a plastic coating mode.

In the above technical scheme, the arc-shaped rack and the rotary ring are connected through the insertion structure, the insertion structure comprises an insertion strip formed on one of the arc-shaped rack and the rotary ring and an insertion hole formed on the other of the arc-shaped rack and the rotary ring, and the insertion strip is connected with the insertion hole in an insertion manner.

In the above technical scheme, the arc-shaped rack is fixedly connected with the rotating ring through a screw or a buckle.

Among the above-mentioned technical scheme, the locating rack include with the fixed positioning bottom plate that links to each other of adapter body's shell and the U-shaped location body that is fixed in the positioning bottom plate bottom, be in on the positioning bottom plate U-shaped location body top is formed with the installation through-hole, the internal side of U-shaped location is equipped with the locating piece from the top down inserting in the installation through-hole, the locating piece both ends are equipped with spacing notch, and two electrical connector warp installation through-hole stretches into the relative both ends in the U-shaped location body to by two spacing notch location respectively, and form the accommodation space that can supply the rotatory entering of electrical connector pin between locating piece bottom and the U-shaped location body.

In the technical scheme, the electric connecting column bottom end bending portion is coated with the plastic coating layer, the lower end of the plastic coating layer is provided with the downward protruding positioning round table, the bottom in the U-shaped positioning body is provided with the positioning hole in plug-in connection with the positioning round table, and the upper end of the plastic coating layer is provided with the blocking step suitable for being abutted and limited by the positioning block.

Among the above-mentioned technical scheme, two electrical connection post upper ends are equipped with coupling portion, correspond on hot wire terminal and the zero line terminal and be equipped with card cover portion, card cover portion closely cup joint in coupling portion is outside.

In the technical scheme, a grounding terminal electrically connected with a grounding wire plug bush is arranged in the adapter body, a grounding wire conductor is positioned in the middle of the positioning frame, and the grounding wire conductor is electrically connected with the grounding terminal;

the ground wire conductor is arranged in a vertical mounting hole on the positioning block, and a through hole for the bottom end of the ground wire conductor to penetrate is formed in the bottom of the U-shaped positioning body.

In the above technical solution, be equipped with the swivelling joint structure between the shell of adapter body and the rotatory circle, the swivelling joint structure include along the annular flange that circumference set up and with the pothook that the annular flange week is connected in the cooperation, the annular flange shaping in the shell with in the rotatory circle one, the pothook shaping in the shell and in the rotatory circle another.

In the above technical solution, a rotation angle limiting structure is provided between the housing of the adapter body and the rotating ring;

the rotation angle limiting structure comprises a first stop block and a second stop block, the first stop block is arranged on the shell, the second stop block is arranged on the rotating ring, and the first stop block and the second stop block are abutted when the rotating ring rotates to a preset angle.

In the above technical scheme, the rotating ring is integrally formed with an elastic fastener, the adapter body is provided with a positioning column, and the rotating ring rotates to a preset angle, and the elastic fastener is fastened with the positioning column.

The invention has the positive effects that: according to the invention, the structure of the adapter is optimally designed, the rotating ring is arranged on the adapter body, the transmission gear and the arc-shaped rack are matched to be used as a transmission mechanism, the arc-shaped rack is connected with the rotating ring, the transmission gear is connected with the electric connecting columns, the arc-shaped rack is driven to synchronously rotate in the process of controlling the rotation of the rotating ring, and then the two electric connecting columns are driven to rotate through meshing transmission between the arc-shaped rack and the transmission gear so as to be accommodated and extended relative to the positioning frame; the transmission mechanism in the scheme of the embodiment has the advantages that the number of the components is obviously reduced, the transmission is effective, the assembly is convenient, the assembly efficiency is improved, and the production cost is reduced.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings used in the detailed description or the prior art description will be briefly described below. In 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 structural view of an adapter for a rail receptacle according to the present invention;

FIG. 2 is a top view of the track socket adapter of FIG. 1;

FIG. 3 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic structural view of the rail socket adaptor of the present invention with parts omitted; FIG. 5 is a schematic view of the structure of the rotating ring of the present invention;

FIG. 6 is a schematic view of the positioning frame, the linkage structure, the assembled state of the electric connecting post and the ground conductor in the present invention;

fig. 7 is an exploded view of the assembly shown in fig. 6.

The reference symbols shown in the figures are: 1-an adapter body; 10-a housing; 101-hook; 102-a first stop; 11-neutral terminal; 12-a fire wire terminal; 13-a bayonet portion; 14-a locating post; 2-a positioning frame; 21-positioning the bottom plate; 22-U-shaped positioning body; 221-positioning holes; 23-mounting a through hole; 24-a positioning block; 241-a limit notch; 242-vertical mounting holes; 25-a storage space; 3-connecting a power post; 30-electrical connector pins; 31-positioning the circular truncated cone; 32-a shaft coupling; 33-plastic coating; 331-a counter step; 4-rotating the ring; 41-jack; 42-an annular flange; 43-a second stop; 44-an elastic fastener; 5-a transmission gear; 6-arc rack; 61-cutting; 7-a ground terminal; 8-ground conductor; 9-spring.

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 invention pertains.

As shown in fig. 1 to 3, the adapter for a track socket in this embodiment includes an adapter body 1, a positioning frame 2, and a rotating ring 4, wherein a neutral terminal 11 electrically connected to a neutral plug bush and a live terminal 12 electrically connected to a live plug bush are provided in the adapter body 1; the adapter comprises an adapter body 1, a positioning frame 2 and two electric connecting columns 3, wherein the positioning frame 2 is fixed at the bottom of the adapter body 1, the positioning frame 2 is rotatably provided with the two vertical electric connecting columns 3, the two electric connecting columns 3 are a live wire electric connecting column and a zero line electric connecting column respectively, the two electric connecting columns 3 are electrically connected with a live wire terminal 12 and a zero line terminal 11 respectively, the bottom ends of the electric connecting columns 3 are provided with transverse electric connecting pins 30, and the electric connecting pins 30 are of flat structures; the rotating ring 4 is rotatably arranged on the adapter body 1, and the rotating ring 4 is linked with the two electric connecting posts 3 through a linkage mechanism, so that the two electric connecting posts 3 are driven to rotate relative to the positioning frame 2 through the linkage mechanism when the rotating ring 4 rotates; the linkage mechanism comprises two transmission gears 5 which are respectively coated and fixed outside the two electric connecting poles 3 and two arc-shaped racks 6 which are synchronously and rotationally connected with the rotating ring 4, and the two transmission gears 5 are respectively meshed and connected with the two arc-shaped racks 6. The structure of the adapter in the embodiment is optimally designed, the rotating ring 4 is arranged on the adapter body 1, the transmission gear 5 is matched with the arc-shaped rack 6 to serve as a transmission mechanism, the arc-shaped rack 6 is connected with the rotating ring 4, the transmission gear 5 is connected with the electric connecting column 3, the arc-shaped rack 6 is driven to synchronously rotate in the process of controlling the rotation of the rotating ring 4, and then the two electric connecting columns 3 are driven to rotate through meshing transmission between the arc-shaped rack 6 and the transmission gear 5 so as to be accommodated and extended relative to the positioning frame, namely the live electric connecting column and the zero electric connecting column are driven to rotate; the transmission mechanism in the scheme of the embodiment has the advantages that the number of the components is obviously reduced, the transmission is effective, the assembly is convenient, the production efficiency is improved, and the production cost is reduced.

The processing method adopted by the electric connecting column 3 in the embodiment is as follows: one end of a copper column is heated and pressed into a flat shape, the edge of the copper column is trimmed, then the end is bent by 90 degrees to form the electric connection pin 30, and finally the transmission gear 5 and the plastic coating layer 33 are integrally formed at the corresponding position on the copper column in a plastic coating mode, so that the electric connection column 3 is formed.

Referring to fig. 4 and 5, in the present embodiment, the arc-shaped rack 6 is connected to the rotating ring 4 through an insertion structure, the insertion structure includes an insertion strip 61 formed on one of the arc-shaped rack 6 and the rotating ring 4 and an insertion hole 41 formed on the other of the arc-shaped rack 6 and the rotating ring 4, the insertion strip 61 is connected to the insertion hole 41 in an insertion manner, so that the rotating ring 4 can be quickly and effectively connected to the arc-shaped rack 6, and preferably, the insertion direction of the insertion strip 61 to the insertion hole 41 is in an up-down direction; as a variant embodiment, the arc-shaped rack 6 and the rotating ring 4 can also be fixedly connected by a screw or a snap.

Further, as shown in fig. 6 and 7, the positioning frame 2 includes a positioning bottom plate 21 fixedly connected to the housing 10 of the adaptor body 1 and a U-shaped positioning body 22 fixed to the bottom of the positioning bottom plate 21, a mounting through hole 23 is formed above the U-shaped positioning body 22 on the positioning bottom plate 21, a positioning block 24 is inserted from top to bottom in the mounting through hole 23 inside the U-shaped positioning body 22, two end portions of the positioning block 24 are provided with limiting notches 241, the two electric connecting posts 3 extend into two opposite ends of the U-shaped positioning body 22 through the mounting through hole 23 and are respectively positioned by the two limiting notches 241, and a receiving space 25 into which the electric connecting pins 30 can rotate is formed between the bottom of the positioning block 24 and the U-shaped positioning body 22.

In order to strengthen the positioning effect of butt joint electric pole 3, in this embodiment the department cladding of bending of 3 bottom ends of electrical connection pole has the package to mould layer 33, and the package is moulded layer 33 lower extreme and is equipped with downward convex location round platform 31, and the package is moulded layer 33 and is moulded and connect electric pole 3 fixed as an organic whole through the package, the bottom is equipped with locating hole 221 in the U-shaped locating body 22, inserts locating hole 221 through location round platform 31 and forms the cooperation, the package is moulded layer 33 upper end and is formed and offset spacing support step 331 with 24 lower parts of locating piece, supports and offsets step 331 and 24 lower extremes of locating piece and play limiting displacement.

In this embodiment, two electrical columns 3 upper ends are equipped with coupling portion 32, correspond on live wire terminal 12 and the zero line terminal 11 and be equipped with card cover portion 13, thereby card cover portion 13 closely cup joints in coupling portion 32 outside makes two electrical columns 3 be connected with live wire terminal 12 and zero line terminal 11 electricity respectively and is connected, and the electricity is reliably effective.

On the basis of the above embodiment, when the adapter body 1 is provided with a ground wire plug bush, a ground terminal 7 electrically connected with the ground wire plug bush is arranged in the adapter body 1, a ground wire conductor 8 is positioned in the middle of the positioning frame 2, the ground wire conductor 8 is electrically connected with the ground terminal 7, and the electrical connection between the ground wire conductor 8 and the rest of the ground terminal 7 can be direct contact or can be connected through a wire; the ground wire conductor 8 is installed in the vertical installation hole 242 on the positioning block 24, the bottom of the U-shaped positioning body 22 is provided with a through hole for the bottom end of the ground wire conductor 8 to penetrate through, and the bottom end of the ground wire conductor 8 penetrates through the through hole to correspondingly contact with a grounding copper piece in the power track; further, a spring 9 for providing downward elastic force to the ground conductor can be further arranged in the vertical mounting hole 242, the spring 9 is a pressure spring, the upper end and the lower end of the spring 9 are respectively connected with the adapter body 1 and the ground conductor, and the ground conductor 8 always keeps the trend of moving downwards through the spring 9, so that the ground conductor 8 can be kept in good contact with the grounding copper piece.

In this embodiment, a rotary connection structure is arranged between the housing 10 of the adapter body 1 and the rotary ring 4, the rotary connection structure includes an annular flange 42 arranged along the circumferential direction and a hook 101 connected with the annular flange 42 along the circumferential direction in a matching manner, the annular flange 42 is formed on the rotary ring 4, the hook 101 is formed on the housing 10, the rotary ring 4 and the housing 10 can be connected in a limited manner by matching the hook 101 with the annular flange 42, and the two can rotate relatively; as a variant embodiment: the annular flange 42 is formed on the housing 10, and the catch 101 is formed on the rotating ring 4.

As a further embodiment in this example: a rotation angle limiting structure is arranged between the shell 10 of the adapter body 1 and the rotating ring 4, and the relative rotation angle between the rotating ring 4 and the shell 10 is limited within a controllable range by the arrangement of the angle limiting structure, so that the operation of a user is facilitated; as a specific implementation scheme of a rotation angle limiting structure: the rotation angle limiting structure comprises a first stop block 102 arranged on the shell 10 and a second stop block 43 arranged on the rotating ring 4, and when the rotating ring 4 rotates to a preset angle, the first stop block 102 and the second stop block 43 are abutted to play a limiting role.

Furthermore, an elastic fastener 44 is integrally formed on the rotating ring 4, a positioning column 14 is arranged on the adapter body 1, the positioning column 14 can be fixed on the housing 10, when the rotating ring 4 rotates to a preset angle, the elastic fastener 44 is fastened with the positioning column 14 so as to relatively lock the rotating ring 4 and the adapter body 1 at a corresponding angle position, and further limit the electric plug pins 30, for example, when the rotating ring 4 rotates to a preset angle, the electric plug pins 30 are limited at a limit position stored in the positioning frame or a limit position extending out of the positioning frame.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And such obvious changes and modifications as fall within the true spirit of the invention are deemed to be covered by the present invention.

Claims (10)

1. An adapter for a track socket comprises an adapter body (1), wherein a zero line terminal (11) electrically connected with a zero line plug bush and a live line terminal (12) electrically connected with a live line plug bush are arranged in the adapter body;

the adapter comprises an adapter body (1), a positioning frame (2) and a power supply, wherein the positioning frame (2) is fixed at the bottom of the adapter body (1), two vertical electric connecting posts (3) are rotatably mounted on the positioning frame (2), the two electric connecting posts (3) are respectively a live wire electric connecting post and a zero line electric connecting post, the two electric connecting posts (3) are respectively electrically connected with a live wire terminal (12) and a zero line terminal (11), a transverse electric connecting pin (30) is arranged at the bottom end of each electric connecting post (3), and the electric connecting pins (30) are of a flat structure;

the rotating ring (4) is rotatably arranged on the adapter body (1), and the rotating ring (4) is linked with the two electric connecting columns (3) through a linkage mechanism, so that the two electric connecting columns (3) are driven to rotate relative to the positioning frame (2) through the linkage mechanism when the rotating ring (4) rotates;

the linkage mechanism is characterized by comprising two transmission gears (5) which are respectively coated with plastic and fixed outside the two electric connecting poles (3) and two arc-shaped racks (6) which are synchronously and rotationally connected with the rotating ring (4), wherein the two transmission gears (5) are respectively meshed and connected with the two arc-shaped racks (6).

2. The adapter for rail sockets according to claim 1, wherein the electrical posts (3) are machined by: one end of a copper column is heated and then pressed into a flat shape, the edge of the copper column is trimmed, then the end is bent by 90 degrees to form the electric connection pin (30), and finally the transmission gear (5) is molded at the corresponding position on the copper column in a plastic coating mode.

3. The adapter for the rail socket according to claim 1, wherein the arc-shaped rack (6) and the rotating ring (4) are connected by a plug-in structure, the plug-in structure comprises a plug-in strip (61) formed on one of the arc-shaped rack (6) and the rotating ring (4) and a plug hole (41) formed on the other of the arc-shaped rack (6) and the rotating ring (4), and the plug-in strip (61) is connected with the plug hole (41) in a plug-in manner.

4. The adapter for rail sockets according to claim 1, characterized in that the arc-shaped rack (6) is fixedly connected to the rotating ring (4) by means of screws or snaps.

5. The adapter for the rail socket according to claim 1, wherein the positioning frame (2) comprises a positioning bottom plate (21) fixedly connected with the shell (10) of the adapter body (1) and a U-shaped positioning body (22) fixed at the bottom of the positioning bottom plate (21), a mounting through hole (23) is formed above the U-shaped positioning body (22) on the positioning bottom plate (21), a positioning block (24) is inserted into the mounting through hole (23) from top to bottom inside the U-shaped positioning body (22), two end portions of the positioning block (24) are provided with limiting notches (241), two electric posts (3) extend into two opposite ends inside the U-shaped positioning body (22) through the mounting through hole (23) and are respectively positioned by the two limiting notches (241), and a receiving space (25) into which an electric plug pin (30) can rotate is formed between the bottom of the positioning block (24) and the U-shaped positioning body (22).

6. The adapter for the track socket as claimed in claim 5, wherein the bottom end bending part of the electric connecting post (3) is coated with a plastic coating layer (33), the lower end of the plastic coating layer (33) is provided with a downward convex positioning circular truncated cone (31), the inner bottom of the U-shaped positioning body (22) is provided with a positioning hole (221) inserted into the positioning circular truncated cone (31), and the upper end of the plastic coating layer (33) is provided with a resisting step (331) suitable for being abutted and limited with the positioning block (24).

7. The adapter for the track socket according to claim 1, wherein the two electric connecting poles (3) are provided with a shaft connecting part (32) at the upper end, the live wire terminal (12) and the neutral wire terminal (11) are correspondingly provided with clamping sleeve parts (13), and the clamping sleeve parts (13) are tightly sleeved outside the shaft connecting part (32).

8. The adapter for the rail socket according to claim 5, wherein a grounding terminal (7) electrically connected with a grounding plug sleeve is arranged in the adapter body (1), a grounding conductor (8) is positioned in the middle of the positioning frame (2), and the grounding conductor (8) is electrically connected with the grounding terminal (7); the ground wire conductor (8) is installed in a vertical installation hole (242) on the positioning block (24), and a through hole for the bottom end of the ground wire conductor (8) to penetrate is formed in the bottom of the U-shaped positioning body (22).

9. The adapter for a track socket according to claim 1, wherein a rotary connection structure is provided between the housing (10) of the adapter body (1) and the rotary ring (4), the rotary connection structure comprises an annular flange (42) arranged along the circumferential direction and a hook (101) connected with the annular flange (42) along the circumferential direction, the annular flange (42) is formed on one of the housing (10) and the rotary ring (4), and the hook (101) is formed on the other of the housing (10) and the rotary ring (4).

10. The adapter for the rail socket according to claim 1, wherein a rotation angle limiting structure is arranged between the shell (10) of the adapter body (1) and the rotating ring (4);

the rotation angle limiting structure comprises a first stop block (102) arranged on the shell (10) and a second stop block (43) arranged on the rotating ring (4), and the first stop block (102) abuts against the second stop block (43) when the rotating ring (4) rotates to a preset angle.

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