CN210723604U - Conductive metal sheet used as live wire conductive metal sheet or zero line conductive metal sheet of power socket and power socket - Google Patents

Abstract

The utility model provides a be used as conducting metal piece and supply socket of supply socket's live wire conducting metal piece or zero line conducting metal piece, a serial communication port, the conducting strip that the first half frame and the half frame of second formed including one end are connected, the opening opposite direction of first half frame and the half frame of second, and the free end of first half frame and the half frame of second respectively is equipped with the external electrically conductive feeler of connecting with electrical apparatus of confession that an opening is opposite, and electrically conductive feeler is two formula structures. The utility model discloses a conductive metal piece that is used as live wire conductive metal piece or zero line conductive metal piece of supply socket couples together two opposite direction's power slot's live wire conductive antenna or zero line conductive antenna through two half frames that one end is connected, can make the space that two supply sockets that set up relatively occupy as little as possible.

Description

Conductive metal sheet used as live wire conductive metal sheet or zero line conductive metal sheet of power socket and power socket

Technical Field

The utility model relates to a supply socket, in particular to live wire conductive metal piece or zero line conductive metal piece and supply socket who is used as supply socket.

Background

The magic cube type power socket is a popular socket at present, and generally has a plug on the bottom surface, and each side surface is provided with a jack for connecting an external electrical appliance, but for the power sockets such as the European standard specification and the French standard specification which need to reserve a sunken slot for the plug of the external electrical appliance on the socket, because the size of the plug is fixed according to the specification, the size of the reserved slot is also fixed, so that the magic cube type power socket with the European standard specification or the French standard specification is often large in size and is inconvenient to carry or use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a supply socket's live wire or zero line conducting metal piece and supply socket to solve at least one in the above-mentioned problem.

According to the utility model discloses an aspect provides a conductive metal piece that is used as live wire conductive metal piece or zero line conductive metal piece of supply socket, a serial communication port, the conducting strip that first half frame and the half frame of second formed including one end are connected, the opening opposite direction of first half frame and the half frame of second, and the free end of first half frame and the half frame of second respectively is equipped with the external electrically conductive feeler of connecting with electrical apparatus of confession that an opening is opposite, and electrically conductive feeler is two chip type structures.

The utility model discloses a conductive metal piece that is used as live wire conductive metal piece or zero line conductive metal piece of supply socket couples together two opposite direction's power slot's live wire conductive antenna or zero line conductive antenna through two half frames that one end is connected, can make the space that two supply sockets that set up relatively occupy as little as possible.

In some embodiments, the conductive sheet of the present invention includes two conductive sub-sheets, the middle portions of which are attached to each other, and the conductive sub-sheets include a first sub-half frame and a second sub-half frame; the free ends of the two conductive sub-sheets form a conductive antenna for connecting an external electrical appliance. The arrangement mode is convenient for processing the live wire conductive metal sheet or the zero wire conductive metal sheet.

In some embodiments, the present invention includes two conductive strips disposed perpendicular to each other. The arrangement can lead the power socket to be respectively provided with one power slot in four directions, and the structure is compact.

In some embodiments, the first half frame and the second half frame are rectangular half frames, and the frame length of the first half sub-frame is greater than or equal to the length of the second half sub-frame. The two conductive sub-sheets can be completely same in shape, and the free end can be provided with one side of the conductive antenna which is integrally formed. In the process of processing the live wire conductive metal sheet or the zero line conductive metal sheet, only one set of die needs to be prepared, and cost saving is facilitated. And abutting the middle parts of the two conductive sub-pieces to form a live wire conductive metal piece or a zero wire conductive metal piece with two conductive antennae at two ends.

According to another aspect of the present invention, there is also provided a power socket, comprising a first slot, a second slot, a third slot and a fourth slot; the first slot, the second slot, the third slot and the fourth slot are arranged in a square staggered manner; the live wire conductive metal sheet and the zero wire conductive metal sheet are arranged in parallel and are positioned in a containing space defined by the first slot, the second slot, the third slot and the fourth slot; the positions of the conductive antennae of the live wire conductive metal sheet and the zero line conductive metal sheet are respectively matched with the live wire jack and the zero line jack of the first slot, the second slot, the third slot and the fourth slot. The arrangement can lead the power socket to be respectively provided with one power slot in four directions, and the structure is compact.

In some embodiments, the first slot, the second slot, the third slot, and the fourth slot of the present invention are countersunk power slots.

In some embodiments, the first slot and the third slot are equal in height, the second slot and the fourth slot are equal in height, and the first slot and the second slot are not equal in height; the live wire conductive metal sheets of the first slot and the third slot are positioned between the live wire conductive metal sheets and the zero wire conductive metal sheets of the second slot and the fourth slot. The arrangement can lead the power socket to be respectively provided with one power slot in four directions, and the whole length and the width of the power socket can be further reduced because the adjacent power sockets are not equal in height and are staggered.

In some embodiments, the first slot, the second slot, the third slot and the fourth slot of the present invention are all european standard slots, and are all provided with ground wire conductive metal sheets; the ground wire conductive metal sheet comprises a main sheet and an auxiliary sheet, wherein ground wire conductive contact angles for connecting an external electrical appliance are arranged at two ends of the main sheet, the auxiliary sheet is in a half-frame shape, one end of the auxiliary sheet is connected to the middle part of the main sheet, and a socket is arranged on the auxiliary sheet; the other end of the auxiliary sheet is inserted into the socket of the adjacent ground wire conductive metal sheet. The four ground wire conductive metal sheets are connected through the sockets on the adjacent ground wire conductive metal sheets in sequence, on one hand, assembly is convenient, on the other hand, the four ground wire conductive metal sheets surround a square, the live wire conductive metal sheet or the zero line conductive metal sheet is surrounded in the square, the four ground wire conductive metal sheets hardly occupy the inner space of the socket in addition, and the inner structure of the socket is more compact.

In some embodiments, the present invention includes a first slot, a second slot, a third slot, and a fourth slot; the first slot is a USB charging device, and the second slot, the third slot and the fourth slot are power supply slots; the first slot, the second slot, the third slot and the fourth slot are arranged in a square staggered manner; the live wire conductive metal sheet and the zero wire conductive metal sheet are arranged in parallel and are positioned in a containing space defined by the first slot, the second slot, the third slot and the fourth slot; the positions of the conductive antennae of the live wire conductive metal sheet and the zero line conductive metal sheet are respectively matched with the live wire jack and the zero line jack of the second slot, the third slot and the fourth slot. The power socket can be respectively provided with one power slot in four directions by the arrangement, the number and the positions of the power slots and the USB charging sockets can be set according to requirements by adopting the modular arrangement, and the structure is compact.

In some embodiments, the second slot, the third slot, and the fourth slot of the present invention are countersunk power slots.

Drawings

Fig. 1 is a schematic external structural view of an electric outlet according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the power socket shown in FIG. 1;

FIG. 3 is a schematic diagram of the internal structure of the power socket shown in FIG. 1;

FIG. 4 is an exploded view of the power socket shown in FIG. 1;

fig. 5 is a schematic structural diagram of a live wire conductive metal sheet or a neutral wire conductive metal sheet according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a live wire conductive metal sheet or a neutral wire conductive metal sheet according to another embodiment of the present invention;

FIG. 7 is an exploded view of the live or neutral conductive metal strip of FIG. 6;

FIG. 8 is a schematic perspective view of the live or neutral conductive metal plate shown in FIG. 6;

fig. 9 is a schematic plan view of a live wire conductive metal sheet or a neutral wire conductive metal sheet according to yet another embodiment of the present invention;

FIG. 10 is a perspective view of the hot or neutral conductive metal strip of FIG. 9;

FIG. 11 is a schematic view of the mounting bracket of either the hot or neutral conductive metal strip shown in FIG. 10;

fig. 12 is a schematic structural diagram of a ground conductive metal sheet according to an embodiment of the present invention;

fig. 13 is a schematic external structural view of an electric outlet according to another embodiment of the present invention;

FIG. 14 is a schematic view of the internal structure of the power socket shown in FIG. 12;

fig. 15 is a schematic structural view of a housing according to an embodiment of the present invention;

fig. 16 is a schematic view illustrating a usage state of a power outlet according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 to 4 schematically show a structure of a power outlet according to an embodiment of the present invention.

As shown in fig. 1 to 4, the power socket is a magic cube type socket, the main body 10 is a square column, and a plug 30 is disposed at the bottom for external power supply. Four sides of the main body 10 are respectively provided with one power supply slot (a first slot 21, a second slot 22, a third slot 23, and a fourth slot 24). The first slot 21, the second slot 22, the third slot 23 and the fourth slot 24 are all in European style specifications and are countersunk power slots, the openings are outward, the live wire jack is on the upper side, the zero wire jack is on the lower side, and the two ground wire contacts are in the middle.

In order to save space, the four slots are staggered in sequence, have outward openings and are arranged in a square shape. The side surface of the second slot 22 abuts against the bottom surface of the first slot 21, the side surface of the third slot 23 abuts against the bottom surface of the second slot 22, the side surface of the fourth slot 24 abuts against the bottom surface of the third slot 23, and the side surface of the first slot 21 abuts against the bottom surface of the fourth slot 24.

The bottom surfaces of the first slot 21, the second slot 22, the third slot 23 and the fourth slot 24 enclose a square accommodating space, and the live wire conductive metal sheet 51 and the neutral wire conductive metal sheet 52 are located in the accommodating space. The positions of the conductive antenna 66 of the live conductive metal sheet 51 and the neutral conductive metal sheet 52 are respectively matched with the live jack and the neutral jack of the first slot 21, the second slot 22, the third slot 23 and the fourth slot 24. The arrangement can lead the power socket to be respectively provided with one power slot in four directions, and has compact structure and small integral volume.

A misplug protection device 70 is arranged between the jack of each power supply slot and the live wire conductive metal sheet 51 and the neutral wire conductive metal sheet 52.

In other embodiments, the plug 30 may not be provided, and the main body of the power socket may be directly mounted on the wall through the power cord. The first slot 21, the second slot 22, the third slot 23 and the fourth slot 24 may be countersunk slots of french or german specifications, or may be non-countersunk slots of chinese or american specifications. For a non-countersunk slot similar to the Chinese specification, the problem of overlarge volume of the socket is not obvious because no space is required to be reserved for a power plug on the socket.

Fig. 5 schematically shows a structure of a conductive metal sheet used as a live conductive metal sheet or a neutral conductive metal sheet of an electric outlet according to an embodiment of the present invention.

As shown in fig. 5, the live wire conductive metal sheet 51 or the neutral wire conductive metal sheet 52 of the power socket is a conductive sheet 60 formed by a first half frame and a second half frame with one ends connected, the opening directions of the first half frame and the second half frame are opposite, the free ends of the first half frame and the second half frame are respectively provided with a conductive antenna 66 with an opposite opening for connecting an external electrical appliance, and the conductive antenna 66 is of a two-sheet structure. The live wire conductive metal sheet 51 or the zero wire conductive metal sheet 52 connects the live wire conductive antenna or the zero wire conductive antenna of the two opposite power supply slots through the two half frames connected at one end, so that the space occupied by the two oppositely arranged power supply slots can be reduced as much as possible.

Fig. 6 to 8 schematically show the structure of a conductive metal sheet used as a live wire conductive metal sheet or a neutral wire conductive metal sheet of a power outlet according to another embodiment of the present invention.

As shown in fig. 6 to 8, the conductive sheet 60 includes two conductive sub-sheets 61 whose middle portions are attached to each other, the conductive sub-sheet 61 includes a first sub-half frame 611 and a second sub-half frame 612, and the frame length of the first sub-half frame 611 is greater than or equal to the length of the second sub-half frame 612. The free ends of the two conductive sub-sheets 61 form one side of a conductive antenna 66 for connecting an external electrical appliance. The two conductive sub-pieces 61 may be identical in shape, and the free end may be provided with one side of an integrally formed conductive antenna 66. In the process of processing the conductive metal sheet, only one set of die is needed, which is beneficial to saving the cost. The middle parts of the two conductive sub-pieces are abutted, so that the live conductive metal piece 51 or the neutral conductive metal piece 52 with one conductive antenna 66 at each end is formed.

The middle part of the conductive sub-sheet 61 can be further provided with a welding part 62 for welding the electric wire, and the welding part 62 can be provided with a through hole for penetrating the electric wire.

Fig. 9 schematically shows a structure of a conductive metal sheet used as a live conductive metal sheet or a neutral conductive metal sheet of an electric outlet according to still another embodiment of the present invention.

As shown in fig. 9, the live conductive metal plate 51 or the neutral conductive metal plate 52 includes two conductive plates 60 disposed perpendicular to each other. The arrangement can lead the power socket to be respectively provided with one power slot in four directions, and the structure is compact. The magic cube type power socket in fig. 1-3 uses the live conductive metal piece 51 and the neutral conductive metal piece 52.

In this embodiment, the first half frame and the second half frame are both rectangular half frames. In other embodiments, the first half-frame and the second half-frame may also be semi-circular frames or other shaped half-frames.

Fig. 10 schematically shows a perspective view of the hot or neutral conductive metal piece of fig. 9, applied to the power socket of fig. 3.

As shown in fig. 3, in the power supply socket, the first slot 21 and the third slot 23 are equal in height, the second slot 22 and the fourth slot 24 are equal in height, and the first slot 21 and the second slot 22 are not equal in height. As shown in fig. 10, the live conductive metal plate 51 includes two conductive plates 60 disposed perpendicular to each other, but the two conductive plates 60 have different heights and are connected by a conductor. The hot conductive metal strip 51 of the first and third slots 21, 23 is located between the hot and neutral conductive metal strips 51, 52 of the second and fourth slots 22, 24. The arrangement can lead the power socket to be respectively provided with one power slot in four directions, and the whole length and the width of the power socket can be further reduced because the adjacent power slots are not equal in height and are staggered.

Figure 11 schematically illustrates the configuration of the mounting brackets for the live and neutral conductive metal plates shown in figure 10.

As shown in fig. 11, a three-layered mounting structure may be adopted for this type of installation of the live conductive metal piece 51 and the neutral conductive metal piece 52. The lower side of the upper layer support 81 is provided with a clamping groove matched with the shape and the position of the live wire conductive metal sheet 51, the upper side of the middle layer support 82 is provided with a clamping groove matched with the live wire conductive metal sheet 51, the lower side of the middle layer support is provided with a clamping groove matched with the position and the shape of the zero wire conductive metal sheet 52, and the upper side of the lower layer support 83 is provided with a clamping groove matched with the position and the shape of the zero wire conductive metal sheet 52. Firstly, the neutral wire conductive metal sheet 52 is arranged on the upper side of the lower layer support 83, then the middle layer support 82 is arranged on the upper side of the neutral wire conductive metal sheet 52 according to a preset position, then the live wire conductive metal sheet 51 is arranged on the upper side of the middle layer support 82, and finally the upper layer support 81 is arranged on the upper side of the live wire conductive metal sheet 51.

In other embodiments, the first slot 21, the second slot 22, the third slot 23 and the fourth slot 24 may also be designed to be equal in height, and the length and width of the main body of the power socket may be slightly larger and the height may be slightly smaller than those of the power sockets with different heights. The user can select as desired.

Fig. 12 schematically shows a structure of a ground conductive metal sheet of a power socket according to an embodiment of the present invention.

As shown in fig. 12, in the present embodiment, the first slot 21, the second slot 22, the third slot 23, and the fourth slot 24 are all european standard slots, and are all provided with ground conductive metal sheets. As shown in fig. 11, the ground conductive metal piece 53 includes a main piece 531 and a sub piece 532, each having a plate-like structure. The two ends of the main piece 531 are provided with ground wire conductive antennae for connecting an external electrical appliance, the auxiliary piece 532 is in a half-frame shape, one end of the auxiliary piece 532 is connected to the middle part of the main piece 531, and the auxiliary piece 532 is provided with a socket 533. The other end of the sub-plate 532 is inserted into the insertion opening 533 of the adjacent ground conductive metal plate 53. The four ground wire conductive metal sheets 53 are connected sequentially through the sockets 533 on the adjacent ground wire conductive metal sheets 53, on one hand, assembly is facilitated, on the other hand, the four ground wire conductive metal sheets 53 form a square, the live wire conductive metal sheet 51 or the zero wire conductive metal sheet 52 are surrounded in the square, the four ground wire conductive metal sheets 53 hardly occupy the internal space of the socket, and the internal structure of the socket is more compact.

Fig. 13 and 14 schematically show the structure of a power outlet with a USB charging device according to an embodiment of the present invention.

As shown in fig. 13 and 14, the main body 10 of the power socket is a square column, and a plug 30 is provided at the bottom for external power. Four sides of the main body 10 are respectively provided with one power supply slot (a first slot 21, a second slot 22, a third slot 23, and a fourth slot 24). The first slot 21 is a USB charging device, with one USB socket and one TypeC socket on top of the power socket. The second slot 22, the third slot 23 and the fourth slot 24 are european style power slots. The first slot 21, the second slot 22, the third slot 23 and the fourth slot 24 are arranged in a square staggered manner. The side surface of the second slot 22 abuts against the bottom surface of the first slot 21, the side surface of the third slot 23 abuts against the bottom surface of the second slot 22, the side surface of the fourth slot 24 abuts against the bottom surface of the third slot 23, and the side surface of the first slot 21 abuts against the bottom surface of the fourth slot 24.

The live wire conductive metal sheet and the neutral wire conductive metal sheet are arranged in parallel and are positioned in an accommodating space defined by the first slot 21, the second slot 22, the third slot 23 and the fourth slot 24. The positions of the conductive antenna 66 of the live conductive metal sheet 51 and the neutral conductive metal sheet 52 are respectively matched with the live jack and the neutral jack of the second slot 22, the third slot 23 and the fourth slot 24.

Fig. 15 schematically shows the structure of a housing according to an embodiment of the present invention.

As shown in fig. 15, two lateral outer edges of each power slot are provided with a buckle 41, an inner surface of the side wall 12 of the housing is provided with a slot 42 adapted to the buckle 41 in shape and position, and a positioning block 43 is arranged at the bottom of the slot 42. When the power socket is installed, the buckle 41 is directly inserted into the clamping groove 42 and abuts against the positioning block 43, the top cover 11 is covered, and the position of the power socket can be fixed.

When the first slot 21 and the third slot 23 are equal in height, the second slot 22 and the fourth slot 24 are equal in height, and the first slot 21 and the second slot 22 are not equal in height, two sets of slots 42 with opposite openings may be oppositely arranged on the inner side surface of the housing. The groove bodies of the first and third insertion grooves 21 and 23 are inserted from one direction of the side wall, and the groove bodies of the second and fourth insertion grooves 22 and 24 are inserted from the other direction of the side wall.

The power socket can be provided with one power slot in four directions, the structure is compact, any slot or a plurality of slots can be set into the power slot or the USB charging device due to the adoption of the modularized arrangement, and the number and the positions of the power slot and the USB charging socket can be set according to the requirement. In other embodiments, the USB socket may be disposed on the side of the main body of the power socket as needed.

Fig. 16 schematically shows a use state of an electric outlet according to an embodiment of the present invention.

As shown in fig. 16, four external electrical appliance plugs 20 are simultaneously and respectively inserted into a first slot 21, a second slot 22, a third slot 23 and a fourth slot 24 of the power socket from four directions, and pins of the four external electrical appliance plugs 20 are arranged in a staggered manner inside the power socket.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. The conductive metal sheet used as the live wire conductive metal sheet or the zero line conductive metal sheet of the power socket is characterized by comprising a conductive sheet (60) formed by a first half frame and a second half frame which are connected at one end, the opening directions of the first half frame and the second half frame are opposite, the free ends of the first half frame and the second half frame are respectively provided with a conductive antenna (66) which is opposite in opening and is connected with an external electric appliance, and the conductive antenna is of a two-sheet structure.

2. A conductive sheet metal for use as a hot or neutral conductive sheet metal of an electrical outlet according to claim 1, wherein said conductive sheet (60) comprises two conductive sub-sheets (61) attached to each other at their middle portions, said conductive sub-sheets (61) comprising a first sub-half-frame (611) and a second sub-half-frame (612);

and the free ends of the two conductive sub-sheets (61) form conductive antennae (66) for connecting an external electrical appliance.

3. A conductive metal sheet for use as a hot or neutral conductive metal sheet for an electrical outlet according to claim 2, comprising two conductive sheets (60) arranged perpendicular to each other.

4. A conductive sheet metal for use as a hot or neutral conductive sheet metal of an electrical outlet according to any one of claims 1 to 3, wherein the first half-frame and the second half-frame are both rectangular half-frames, the length of the first sub-half-frame (611) being greater than or equal to the length of the second sub-half-frame (612).

5. An electrical outlet, comprising a first slot (21), a second slot (22), a third slot (23), a fourth slot (24), a hot conductive metal strip (51) and a neutral conductive metal strip (52), wherein the hot conductive metal strip (51) and the neutral conductive metal strip (52) are the conductive metal strips of any one of claims 1 to 4 used as the hot conductive metal strip or the neutral conductive metal strip of the electrical outlet;

the first slot (21), the second slot (22), the third slot (23) and the fourth slot (24) are arranged in a square staggered manner;

the live wire conductive metal sheet (51) and the zero wire conductive metal sheet (52) are arranged in parallel and are positioned in an accommodating space defined by the first slot (21), the second slot (22), the third slot (23) and the fourth slot (24);

the positions of the conductive antennae of the live wire conductive metal sheet (51) and the zero wire conductive metal sheet (52) are respectively matched with the live wire jack and the zero wire jack of the first slot (21), the second slot (22), the third slot (23) and the fourth slot (24).

6. The power outlet according to claim 5, wherein the first slot (21), the second slot (22), the third slot (23) and the fourth slot (24) are countersunk power slots.

7. The power socket according to claim 6, wherein the first slot (21) and the third slot (23) are equal in height, the second slot (22) and the fourth slot (24) are equal in height, and the first slot (21) and the second slot (22) are not equal in height;

the live wire conductive metal sheets (51) of the first slot (21) and the third slot (23) are positioned between the live wire conductive metal sheets (51) and the neutral wire conductive metal sheets (52) of the second slot (22) and the fourth slot (24).

8. The power socket according to claim 6, wherein the first slot (21), the second slot (22), the third slot (23) and the fourth slot (24) are all European standard slots, and are provided with ground wire conductive metal sheets (53);

the ground wire conductive metal sheet (53) comprises a main sheet (531) and an auxiliary sheet (532), ground wire conductive antennae for connecting external electrical appliances are arranged at two ends of the main sheet (531), the auxiliary sheet (532) is in a half-frame shape, one end of the auxiliary sheet (532) is connected to the middle part of the main sheet (531), and a socket (533) is arranged on the auxiliary sheet (532);

the other end of the sub-sheet (532) is inserted into the jack (533) of the adjacent ground wire conductive metal sheet (53).

9. An electrical outlet, comprising a first slot (21), a second slot (22), a third slot (23), a fourth slot (24), a hot conductive metal strip (51) and a neutral conductive metal strip (52), wherein the hot conductive metal strip (51) and the neutral conductive metal strip (52) are the conductive metal strips of any one of claims 1 to 4 used as the hot conductive metal strip or the neutral conductive metal strip of the electrical outlet;

the first slot (21) is a USB charging device, and the second slot (22), the third slot (23) and the fourth slot (24) are power supply slots;

the first slot (21), the second slot (22), the third slot (23) and the fourth slot (24) are arranged in a square staggered manner;

the live wire conductive metal sheet (51) and the zero wire conductive metal sheet (52) are arranged in parallel and are positioned in an accommodating space defined by the first slot (21), the second slot (22), the third slot (23) and the fourth slot (24);

the positions of the conductive antennae (66) of the live wire conductive metal sheet (51) and the zero wire conductive metal sheet (52) are respectively matched with the live wire jack and the zero wire jack of the second slot (22), the third slot (23) and the fourth slot (24).

10. An electrical outlet according to claim 9, wherein the second, third and fourth slots (22, 23, 24) are countersunk power slots.

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