CN216529497U - Double-position wall power socket - Google Patents

Abstract

The utility model discloses a double-position wall power socket which comprises a bottom cover and a first panel covered on the bottom cover, wherein an accommodating cavity is formed between the first panel and the bottom cover, a circuit board and socket pins are arranged in the accommodating cavity, a portable equipment charging module and a wireless control module are further arranged on the circuit board, the portable equipment charging module is arranged at the upper part of the accommodating cavity, the wireless control module is used for controlling whether the first socket pins and/or the second socket pins are electrified or not, the socket pins are arranged at the lower part of the accommodating cavity, and the wireless control module is arranged at one side of the arrangement position of the portable equipment charging module in the accommodating cavity. This application is through optimizing the inner structure of arranging, not only can make wall supply socket have functions such as mains operated, portable equipment charge, still under the circumstances of guaranteeing the power consumption safety, make wall supply socket's appearance still can with the interior original socket end box adaptation of wall.

Description

Double-position wall power socket

Technical Field

The utility model relates to the technical field of power sockets, in particular to a double-position wall power socket.

Background

For the purpose of electricity safety, standards are established for power sockets in various countries all over the world, and for wall power sockets, the external dimensions of the power sockets are specified in many countries, and the dimensions of a reserved space for installing the power sockets in a wall body are specified.

With the development of science and technology and the popularization of mobile equipment, a common wall power socket only provided with a power supply jack cannot meet the requirements of the public, and on one hand, when the portable electronic equipment needs to be charged, a power adapter needs to be carried at any time, which is very inconvenient; another convenience is that if a jack for charging the portable electronic device is provided on the wall, a hole needs to be drilled in the wall for wiring, and a socket having a charging jack is additionally installed, which is very labor intensive.

SUMMERY OF THE UTILITY MODEL

In response to the deficiencies of the prior art, the present invention provides a dual-position wall outlet. This wall supply socket is through optimizing the inner structure that arranges, not only can make wall supply socket have functions such as mains operated, USB charges, still under the circumstances of guaranteeing the power consumption safety, makes wall supply socket's appearance still can with the interior original socket bottom box adaptation of wall.

The double-position wall power socket comprises a bottom cover and a first panel covered on the bottom cover, wherein an accommodating cavity is formed between the first panel and the bottom cover, a circuit board and socket pins are arranged in the accommodating cavity, a portable equipment charging module and a wireless control module are further arranged on the circuit board, and the socket pins comprise first socket pins and second socket pins;

the wireless control module is used for controlling whether the first socket pin and/or the second socket pin are electrified or not;

the portable equipment charging module is arranged at the upper part of the accommodating cavity, the socket pins are arranged at the lower part of the accommodating cavity, and the wireless control module is arranged at one side of the portable equipment charging module in the accommodating cavity.

The utility model provides a wall supply socket has integrateed portable equipment module of charging and general socket and has participated in, has still set up the wireless control module that whether remote control socket participated in the circular telegram simultaneously, and it compares with general current wall supply socket, can more accord with modernization demand, arranges the design through the structure to each module in the accommodating cavity simultaneously, makes it safer, reasonable and compact.

In some embodiments, the portable device charging module may include an electrical component disposed on the circuit board and a portable device charging interface, and the first panel is provided with a portable device charging socket corresponding to the position and shape of the portable device charging interface. By the arrangement, all elements and interfaces of the portable charging module are intensively arranged at one position in the accommodating cavity, so that other positions can be left as far as possible for other modules to be arranged at positions, and more functional modules can be integrated into the power socket.

In some embodiments, the first socket pin may include a first neutral pin and a first live pin, and the second socket pin may include a second neutral pin and a second live pin, the first neutral pin and the second neutral pin being connected by a neutral metal guide, the neutral metal guide being U-shaped and disposed at a lower portion of the receiving cavity, the first neutral pin or the second neutral pin or the neutral metal guide being connected to the circuit board. Therefore, the live wire socket pin between the two zero wire socket pins can be bypassed through the U-shaped zero wire metal guide sheet, the space occupied by the internal structure can be reduced, and the structural arrangement design of each module in the accommodating cavity is realized, so that the accommodating cavity is safer, more reasonable and more compact.

In some embodiments, the first live wire pin is connected to the circuit board, the second live wire pin is connected to the circuit board, a live wire metal guide is disposed on the circuit board, and the first live wire pin and the second live wire pin are connected to the live wire metal guide through the circuit board.

Therefore, the wiring arrangement design of the power plug pins in the power socket can be saved through the structural design of the live wire metal guide sheet, and the space in the accommodating cavity is saved.

In some embodiments, the bottom cover may further include a wire clamping assembly, the wire clamping assembly includes a zero wire clamping opening, a live wire clamping opening and a ground wire clamping opening, the zero wire clamping opening, the live wire clamping opening and the ground wire clamping opening are arranged in parallel on the lower portion of the bottom cover, the zero wire metal guide piece is connected with the zero wire clamping opening, and the live wire metal guide piece is connected with the live wire clamping opening. From this, can be connected zero line sheetmetal and live wire sheetmetal with the power cord of predetermineeing on the wall body through the wire clamping component.

In some embodiments, the first socket pins further include first ground pins, the second socket pins further include second ground pins, the first ground pins are connected with the second ground pins through ground wire metal guide pieces, the ground wire metal guide pieces are in a shape of a straight line and are arranged at the lower portions of the accommodating cavities, and the ground wire metal guide pieces are connected with the ground wire clamping openings. Therefore, the corresponding metal guide sheet structure can be designed for the ground wire of the socket, so that the space arrangement of the inner structure of the accommodating cavity is more compact.

In some embodiments, the ground conductive sheet includes a first ground sheet and a second ground sheet, the first ground pin and the second ground pin are connected through the first ground sheet, one end of the second ground sheet is connected to a middle portion of the first ground sheet, and the other end of the second ground sheet is connected to the ground clip opening. From this, can arrange the design of making the rationalization through the structure to ground wire metal conductor piece, make supply socket be applicable to the structural design of three hole sockets, can make ground wire metal conductor piece around the distance of establishing shorter, the space that occupies is littleer.

In some embodiments, the second neutral wire metal piece is disposed above the first ground wire metal piece, and the second neutral wire metal piece is disposed in parallel with the first ground wire metal piece with an insulating spacer disposed therebetween. Set up like this, the spatial position that both occupy of zero line metal guide piece and ground wire metal guide piece can be reduced as far as possible, for other components of acceping chamber inner structure provide more spaces of arranging, make inner structure arrange can be more reasonable and compact.

In some embodiments, a socket switch is further provided, and the socket switch includes a first socket switch and a second socket switch, and the first socket switch and the second socket switch are respectively arranged on two sides of the accommodating cavity;

the first socket switch comprises a first switch key and a first socket relay, the first switch key is connected with the first socket relay, and the other end of the first socket relay is connected with the circuit board and arranged on one side of the circuit board so as to be connected between the first live wire pin and the live wire metal guide sheet;

the second socket switch comprises a second switch key and a second socket relay, the second switch key is connected with the second socket relay, the other end of the second socket relay is connected with the circuit board and is arranged on one side, opposite to the first socket relay, of the circuit board, and the second socket relay is connected between the second live wire pin and the live wire metal guide sheet.

From this, can set up first socket switch and the second socket switch in both sides through addding on the socket, arrange rational utilization to the space of acceping intracavity structure and arrange, can also insert pin through switch and relay, insert pin through controlling first live wire, whether the second live wire is inserted and is connected between the live wire metal guide, the expert of indirect control first socket and second socket closes, can insert pin through first live wire and the mode of arranging that the second live wire was inserted, the rational design switch structure, the rationality of arranging of acceping intracavity structure is improved.

In some embodiments, the first socket switch further comprises a first switch circuit board, the second socket switch further comprises a second switch circuit board, and the first panel is provided with a through wire hole communicated to the inside of the accommodating cavity;

the first switch key is arranged on a first switch circuit board, the first switch circuit board is connected with the circuit board through a lead wire penetrating through the through hole, and the first switch circuit board is arranged on a first panel;

the second switch key is arranged on a second switch circuit board, the second switch circuit board is connected with the circuit board through a lead wire penetrating through the through hole, and the second switch circuit board is arranged on the first panel;

and a reset switch for resetting the function of the wireless control module is integrated on the first switch circuit or the second switch circuit board.

From this, can be through the design of switch circuit board and through-wire hole for switch button and reset switch's structure can set up in the outside of acceping the chamber, for acceping the intracavity portion and provide more design space, makes whole supply socket's structural arrangement more reasonable.

Drawings

FIG. 1 is an exploded schematic view of a double-position wall outlet according to an embodiment of the present invention;

FIG. 2 is a schematic view of a mounting structure of a first panel of a dual-position wall outlet according to an embodiment of the present invention;

FIG. 3 is a schematic view of the internal structure of a receiving cavity of a dual-position wall outlet in accordance with an embodiment of the present invention;

FIG. 4 is a schematic diagram of a dual-position wall outlet socket pin configuration in accordance with one embodiment of the present invention;

FIG. 5 is a schematic diagram of a first panel structure of a dual-position wall outlet according to an embodiment of the present invention;

FIG. 6 is an exploded view of the first panel, the second panel and the cover of the dual position wall outlet according to one embodiment of the present invention;

description of reference numerals: 1. a bottom cover; 11. an accommodating cavity; 2. a first panel; 21. a portable device charging jack; 221. a first socket outlet; 222. a second socket outlet; 23. a groove; 24. a through hole; 3. a circuit board; 4. a portable device charging module; 41. a portable device charging interface; 42. an electrical component; 5. a socket pin; 51. a first socket pin; 511. a first neutral pin; 512. a first live wire pin; 513. a first ground pin; 52. a second socket pin; 521. a second neutral pin; 522. a second live wire pin; 523. a second ground pin; 53. a ground wire metal lead sheet; 531. a first ground wire metal piece; 532. a second ground metal sheet; 54. a zero line metal guide sheet; 541. a first zero line metal sheet; 542. a second zero line metal sheet; 543. a third zero line metal sheet; 544. a fourth zero line metal sheet; 55. a live wire metal lead; 56. an insulating spacer; 6. a socket switch; 61. a first socket switch; 611. a first switch key; 612. a first socket relay; 613. a first switch circuit board; 614. a first switch cap; 62. a second socket switch; 621. a second switch key; 622. a second socket relay; 623. a second switch circuit board; 624. a second switch cap; 7. a wire clamping assembly; 71. A zero line nip; 72. a ground wire clamp opening; 73. a live wire clamping opening; 8. a wireless control module; 81. a reset switch; 9. a second panel; 91. an opening; 92. a small hole; 93. and (7) a face cover.

Detailed Description

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

Fig. 1 to 6 schematically show the structure of an embodiment of the wall outlet of the present application.

Referring to fig. 1, the wall power socket includes a bottom cover 1 and a first panel 2 covering the bottom cover 1, the bottom cover 1 is disposed in a box shape, the first panel 2 is covered on the bottom cover 1 and can be fixedly connected with the bottom cover 1 through screws, and a space between the bottom cover 1 and the first panel 2 forms a receiving cavity 11 for receiving and placing internal components of the power socket. The accommodating cavity 11 is provided with a circuit board 3, and a portable device charging module 4, a socket pin 5, a socket switch 6 and a wireless control module 8 which are arranged on the circuit board 3.

The bottom cover 1 is further provided with a wire clamping assembly 7, the wire clamping assembly 7 comprises a zero wire clamping opening 71, a live wire clamping opening 73 and a ground wire clamping opening 72, and the wire clamping assembly 7 is used for correspondingly connecting and fixing each pin of the socket pins 5 in the accommodating cavity 11 with a three-phase line in a cavity preset in a wall. The openings of the neutral clip opening 71, the live clip opening 73 and the ground clip opening 72 are rearward, and the fastening screws are located below the clip openings.

The portable device charging module 4 is mainly used for charging portable devices, and in the application, the definitions of the portable devices include devices which can be conveniently carried on the body of a person in daily life, such as a mobile phone, a tablet, a charger, a notebook computer, and the like.

Referring to fig. 2 and 3, the portable device charging module 4 includes an electrical component 42 disposed on the circuit board 3 and a portable device charging interface 41, in this application, the definition of the electrical component 42 includes a safety component such as a DC power supply and a capacitor connected to the circuit board 3 and a component such as a transformer connected to the portable device charging interface 41, and the portable device charging interface 41 may include an interface for connecting to a portable device such as a USB interface and a Type-C interface.

The socket pins 5 include a first socket pin 51 and a second socket pin 52. The number of the pins on the socket pins 5 can be specifically designed according to the length, width and height of the power socket, and in this embodiment, the power socket in australian standards is taken as an example, and two power sockets are provided. The socket pins 5 may be two-hole type or three-hole type.

In one embodiment, the first socket pin 51 and the second socket pin 52 are both two-hole socket pins 5, the first socket pin 51 includes a first neutral pin 511 and a first live pin 512, the second socket pin 52 includes a second neutral pin 521 and a second live pin 522, the first neutral pin 511 is connected to the circuit board 3, the first neutral pin 511 is connected to a neutral metal guide 54, the second neutral pin 521 is connected to the neutral metal guide 54 to connect the first neutral pin 521 and the second neutral pin 522, and both are connected to the neutral nip 71 through the neutral metal guide 54; the first live wire pin 512 and the second live wire pin 522 are both connected to the circuit board 3, and are both connected to the live wire metal tab 55 through the trace of the circuit board 3, and are further connected to the live wire clip 73 through the live wire metal tab 55.

In another embodiment, when one of the first socket pin 51 and the second socket pin 52 is a two-hole socket pin 5 and the other is a three-hole socket pin 5, for example, when the first socket pin 51 is a two-hole socket pin 5 and the second socket pin 52 is a three-hole socket pin 5, the connection between the neutral wire and the hot wire is not changed, the second socket pin 52 further includes a second ground pin 523, and the second ground pin 523 is connected to the ground clip 72 through the ground wire metal guide 53.

In still another embodiment, referring to fig. 3, when the first and second outlet pins 51 and 52 are three-hole outlet pins 5, the connection between the neutral line and the hot line is not changed, the first outlet pin 51 further includes a first ground pin 513, the second outlet pin 52 further includes a second ground pin 523, and the first ground pin 513 and the second ground pin 523 are both connected to the ground metal lead 53 and connected to the ground clip 72 through the ground metal lead 53.

Referring to fig. 3, in the housing cavity 11, the electric component 42 and the portable device charging interface 41 are both provided at an upper portion of the housing cavity 11, and the neutral metal piece 54 and the live metal piece 55 are both provided at a lower portion in the housing cavity 11. Specifically, the upper portion mentioned here specifically refers to an end of the power socket that is located above when the power socket is mounted on the wall, and the lower portion refers to an end of the power socket that is located below when the power socket is mounted on the wall. In the actual installation process, since the upper part and the lower part can be installed in the front and back directions according to actual needs, in the present embodiment, referring to the illustration in fig. 3, the internal structure of the housing cavity 11 will be further described with reference to the electrical component 42 and the portable device charging interface 41 being disposed on the upper part of the housing cavity 11, and further, the zero wire metal guide 54, the live wire metal guide 55 and the ground wire metal guide 56 being disposed at the lower part of the housing cavity 11, and correspondingly, the wire clamping assembly 7 being disposed at the lower part of the bottom cover 1 for facilitating the connection of the metal guides.

Specifically, referring to fig. 3, the portable device charging interface 41 is disposed on the upper portion of the circuit board 3, the first socket pin 51 is disposed on the lower left side of the portable device charging interface 41, the second socket pin 52 is disposed upside down on the lower right side of the portable device charging interface 41, the neutral wire metal lead 54, the live wire metal lead 55 and the ground wire metal lead 56 are disposed on the lower portion of the accommodating cavity 11, and both the first socket pin 51 and the second socket pin 52 may be disposed upright or upside down, and in the illustration pin structure of fig. 3, both the first socket pin 51 and the second socket pin 52 are in upside down state.

Through this kind of design, concentrate the electrical components of portable equipment charging module 4 and portable equipment charging interface 41 and set up on the upper portion of accepting the chamber 11, set up zero line metal conducting strip 54 and live wire metal conducting strip 55 in another portion of accepting chamber 11 that keeps away from portable equipment charging module 4, the lower part promptly, because circuit board 3 is the sheet structure, therefore after accepting the interior place circuit board 3 of chamber 11, still there is certain setting space, therefore can enough hold the setting of metal conducting strip, and then can make electrical components, portable equipment charging interface 41 keep away from the metal conducting strip, avoid taking place mutual contact, form the short circuit or cause danger.

Referring to fig. 4, in some embodiments, the neutral wire guide 54 is disposed in a U-shape, and two ends of the neutral wire guide are respectively connected to the first neutral pin 511 and the second neutral pin 521, the neutral wire guide 54 may include a first neutral wire 541, a second neutral wire 542, and a third neutral wire 543, which are sequentially connected, wherein one end of the first neutral wire 541 is connected to the first neutral pin 511, the other end of the first neutral wire 541 is connected to the second neutral wire 542, the third neutral wire 543 is horizontally disposed, one end of the third neutral wire 541 is connected to the second neutral pin 521, the other end of the third neutral wire is connected to the second neutral wire 542, a middle portion of the second neutral wire 542 is connected to a fourth neutral wire 544, and the fourth neutral wire 544 is connected to the neutral wire grip 71. Specifically, taking the first socket pin 51 and the second socket pin 52, which are the inverted three-hole socket pins 5, as an example, referring to fig. 4, the first neutral pin 511 is led out through the first neutral wire 541 that is obliquely arranged, and is connected to one end of the second neutral wire 542, the first neutral wire 541 is horizontally arranged below the wire clamping assembly 7, the other end of the second neutral wire 542 is connected to the third neutral wire 543, the third neutral wire 543 is obliquely arranged, and the other end thereof is connected to the second neutral pin 521, so that the neutral wire guide 54 bypasses the second live wire pin 522 that is located between the first neutral wire 511 and the second neutral wire 521, thereby forming a U-shaped structure. A fourth neutral wire metal strip 544 is led out of the second neutral wire metal strip 542 close to the wire clamping assembly 7 and is used for being connected with the neutral wire clamping opening 71, so that the first neutral pin 511 and the second neutral pin 521 are simultaneously connected with the three-phase neutral wires through the neutral wire metal guide strip 54.

The ground wire metal guide 53 is disposed in a line shape to connect the first ground wire pin 513 and the second ground wire pin 523, the ground wire metal guide 53 may include a first ground wire metal 531 and a second ground wire metal 532, one end of the first ground wire metal 531 is connected to the first ground wire pin 513, the other end thereof is connected to the second ground wire pin 523, one end of the second ground wire metal 532 is connected to the middle of the first ground wire metal 531, and the other end thereof is connected to the ground wire clip 72. Referring to fig. 4, since there is no barrier between the first ground pin 513 and the second ground pin 523, the ground wire metal piece 53 is preferably directly disposed between the first ground pin 513 and the second ground pin 523, and therefore the first ground wire metal piece 531 is preferably disposed in parallel with the second neutral wire metal piece 542 and below the clip wire assembly 7. The second ground plate 532 is led out from the first ground plate 531 near the wire clamping assembly 7 for connecting with the ground clamping opening 72, so as to connect the first ground pin 513 and the second ground pin 523 with the three-phase ground wires through the ground plate guide 53. Since the second neutral wire plate 542 is disposed in parallel with and adjacent to the first ground wire plate 531, and the second ground wire plate 532 passes by one side of the second neutral wire plate 542 when connected to the ground clip opening 72, the insulating spacer 56 may be further disposed therebetween. The insulating spacer 56 may be designed only for a portion which is easily contacted, and as shown in fig. 2, the insulating spacer 56 is a rectangular-shaped spacer and is disposed between the second ground metal piece 532 and the first and second ground metal pieces 531 and 542 at a position in fig. 2.

Through the shape and the structure of the zero line metal guide piece 54 and the ground wire metal guide piece 53 designed in this way, the zero line metal guide piece 54 and the ground wire metal guide piece 53 are arranged at the lower part in the accommodating cavity 11, and are not contacted with each other and influenced, the distance of the metal guide piece around the accommodating cavity is shorter, the occupied space is smaller, more arrangement spaces can be provided for other elements of the internal structure of the accommodating cavity 11, and the arrangement of the internal structure can be more reasonable and compact.

On the first panel 2, there are further provided a portable-device charging inlet 21 corresponding to the position and shape of the portable-device charging inlet 41, and a first socket outlet 221 and a second socket outlet 222 corresponding to the positions and shapes of the first socket pin 51 and the second socket pin 52.

In some embodiments, the socket switch 6 includes a first socket switch 61 and a second socket switch 62, the first socket switch 61 being disposed on an upper side of the first socket pin 51, and the second socket switch 62 being disposed on an upper side of the second socket pin 52. Referring to fig. 2, 3 and 5, the first socket switch 61 may include a first switch button 611 and a first socket relay 612, the first switch button 611 is connected to the first socket relay 612, specifically, one end of the first switch button 611 and one end of the first socket relay 612 may be connected to the circuit board 3, the two ends are connected by routing the circuit board 3, the other end of the first socket relay 612 is also connected to the circuit board 3, and specifically, the first socket relay 612 may be disposed at the lower left side of the circuit board 3, so as to be connected between the first live wire pin 512 and the live wire metal guide 55 by routing the circuit board 3; the structure of the second socket switch 62 is similar to that of the first socket switch 61, and includes a second switch button 621 and a second socket relay 622, the second switch button 621 is connected to the second socket relay 622, the other end of the second socket relay 622 is connected to the circuit board 3, and the second socket relay 622 may be disposed at the lower right side of the circuit board 3 to be connected between the second live pin 522 and the live metal tab 55. The first switch button 611 and the second switch button 621 can be point switches, and the first switch cap 614 and the second switch cap 624 are sleeved outside the point switches.

Through setting up like this, can be through point switch and relay, participate in 512, the second live wire through controlling first live wire and participate in being connected between 522 and the live wire metal guide 55 or not, the expert of the first socket of indirect control and second socket is closed, can participate in 512 and the second live wire mode of arranging of participating in 522 through first live wire, and reasonable design switch structure improves the rationality of arranging of acceping 11 inner structure in chamber, can occupy the space of acceping 11 insides in chamber simultaneously as few as possible.

Referring to fig. 5, in some embodiments, the first socket switch 61 further includes a first switch circuit board 613, the first switch button 611 is disposed on the first switch circuit board 613, the first switch circuit board 613 is connected to the circuit board 3 through a wire, so as to connect the first switch button 611 and the first socket relay 612 by routing on the circuit board 3, the first switch circuit board 613 is mounted on the first panel 2, and the first panel 2 is provided with a wire hole 24 communicating with the interior of the receiving cavity 11, so that the first switch circuit board 613 can be connected to the circuit board 3 through a wire; the structure of the second socket switch 62 is similar to that of the first socket switch 61, and the second socket switch further includes a second switch circuit board 623, the second switch button 621 is disposed on the second switch circuit board 623, the second switch circuit board 623 is connected to the circuit board 3 through a wire, so as to connect the second switch button 621 and the second socket relay 622 through a wiring manner on the circuit board 3, the second switch circuit board 623 is mounted on the first panel 2, and the first panel 2 is provided with a wire hole 24 communicating with the inside of the accommodating cavity 11, so that the second switch circuit board 623 can be connected to the circuit board 3 through a wire. Thus, by such a design, the circuit arrangement on the circuit board 3 can be simplified, the scale of the circuit board 3 can be reduced, the related circuits can be distributed to the first switch circuit board 613 and the second switch circuit board 623, and the arrangement rationality inside the housing chamber 11 can be improved.

Referring to fig. 5, in some embodiments, the first panel 2 may further have a groove 23 for placing the first socket pin 51, the second socket pin 52 and the neutral wire guide 54, and if one or both of the first socket pin 51 and the second socket pin 52 are the three-hole socket pin 5, the groove 23 may be further disposed according to the position of the ground wire guide 53. Through this kind of design, can effectively avoid the contact between each metal guide piece, improve the security.

In some embodiments, the wireless control module 8 is disposed on the circuit board 3, and is used for controlling whether the first socket pin 51 and the second socket pin 52 are powered or not at the same time, or the wireless control module 8 is used for controlling whether the first socket pin 51 or the second socket pin 52 is powered or not separately, the wireless control module 8 is connected with the circuit board 3, the wireless control module 8 can be implemented by bluetooth, WiFi, ZigBee or other modules, and related necessary components can be disposed on the circuit board 3 at a position behind the portable device charging interface 41, as shown in fig. 3 and 5. In the embodiment where the power socket is further provided with the first switch circuit board 613 or the second switch circuit board 623, a reset switch 81 for resetting the function of the wireless control module 8 may be further integrated on the first switch circuit board 613 or the second switch circuit board 623.

In some embodiments, the first panel 2 may further cover the second panel 9, the second panel 9 is opened with an opening 91 for exposing the first socket pin 51, the second socket pin 52 and the charging interface 41 of the portable device, and a small hole 92 is provided at a position corresponding to the reset switch 81 of the wireless control module 8 to prevent the reset switch 81 from being touched by mistake and to allow the reset switch to be touched by a slender object. The second panel 9 may be covered with a cover 93.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims (10)

1. Two position wall supply socket, its characterized in that: the portable device comprises a bottom cover and a first panel covered on the bottom cover, wherein an accommodating cavity is formed between the first panel and the bottom cover, a circuit board and socket pins are arranged in the accommodating cavity, a portable device charging module and a wireless control module are arranged on the circuit board, and the socket pins comprise first socket pins and second socket pins;

the wireless control module is used for controlling whether the first socket pin and/or the second socket pin are electrified or not;

the portable equipment charging module is arranged at the upper part of the accommodating cavity, the socket pins are arranged at the lower part of the accommodating cavity, and the wireless control module is arranged at one side of the portable equipment charging module.

2. A dual-position wall outlet as defined in claim 1, wherein: the portable equipment charging module comprises an electric element arranged on the circuit board and a portable equipment charging interface, and a portable equipment charging socket corresponding to the position and the shape of the portable equipment charging interface is arranged on the first panel.

3. A dual-position wall outlet as defined in claim 1, wherein: the first socket pin comprises a first neutral pin and a first live pin; the second socket pin comprises a second neutral pin and a second live pin;

the first zero line pin and the second zero line pin are connected through a zero line metal guide sheet, the zero line metal guide sheet is U-shaped and is arranged at the lower part of the accommodating cavity, and the first zero line pin or the second zero line pin or the zero line metal guide sheet is connected with the circuit board.

4. A dual-position wall outlet as defined in claim 3, wherein: the first live wire pin and the second live wire pin are connected through the circuit board, a live wire metal guide sheet is arranged on the circuit board, and the first live wire pin and the second live wire pin are connected with the live wire metal guide sheet through the circuit board.

5. A dual-position wall outlet as defined in claim 4, wherein: the bottom cover is provided with a zero line clamping opening, a live line clamping opening and a ground wire clamping opening, the zero line clamping opening, the live line clamping opening and the ground wire clamping opening are arranged on the lower portion of the bottom cover side by side, the zero line metal guide piece is connected with the zero line clamping opening, and the live line metal guide piece is connected with the live line clamping opening.

6. A dual-position wall outlet as defined in claim 5, wherein: the first socket pin further comprises a first ground pin, and the second socket pin further comprises a second ground pin;

the first ground wire plug pin and the second ground wire plug pin are connected through a ground wire metal guide sheet, the ground wire metal guide sheet is in a straight shape and is arranged at the lower part of the accommodating cavity, and the ground wire metal guide sheet is connected with the ground wire clamping opening.

7. A dual-position wall outlet as defined in claim 6, wherein: the ground wire metal guide sheet comprises a first ground wire metal sheet and a second ground wire metal sheet, the first ground wire pin and the second ground wire pin are connected through the first ground wire metal sheet, one end of the second ground wire metal sheet is connected with the middle of the first ground wire metal sheet, and the other end of the second ground wire metal sheet is connected with the ground wire clamping opening.

8. A dual-position wall outlet as defined in claim 7, wherein: the zero line metal guide sheet comprises a second zero line metal sheet, the second zero line metal sheet is arranged above the first ground wire metal sheet, the second zero line metal sheet is arranged in parallel with the first ground wire metal sheet, and an insulating partition plate is arranged between the second zero line metal sheet and the first ground wire metal sheet.

9. A dual-position wall outlet as defined in claim 4, wherein: the socket switch is also arranged and comprises a first socket switch and a second socket switch, and the first socket switch and the second socket switch are respectively arranged on two sides of the accommodating cavity;

the first socket switch comprises a first switch key and a first socket relay, the first switch key is connected with the first socket relay, and the other end of the first socket relay is connected with the circuit board and arranged on one side of the circuit board so as to connect the first live wire pin with the live wire metal guide sheet;

the second socket switch comprises a second switch key and a second socket relay, the second switch key is connected with the second socket relay, the other end of the second socket relay is connected with the circuit board and is arranged on one side, opposite to the first socket relay, of the circuit board so as to be connected with the second live wire pin and the live wire metal guide sheet.

10. A dual-position wall outlet as defined in claim 9, wherein: the first socket switch further comprises a first switch circuit board, the second socket switch further comprises a second switch circuit board, and the first panel is provided with a through wire hole communicated to the inside of the accommodating cavity;

the first switch key is arranged on the first switch circuit board, the first switch circuit board is connected with the circuit board through a lead penetrating through the through hole, and the first switch circuit board is arranged on the first panel;

the second switch key is arranged on the second switch circuit board, the second switch circuit board is connected with the circuit board through a lead penetrating through the through hole, and the second switch circuit board is arranged on the first panel;

and a reset switch for resetting the function of the wireless control module is integrated on the first switch circuit or the second switch circuit board.

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