CN218732196U - Bidirectional safety door socket - Google Patents

Abstract

The utility model relates to an electron device's technical field discloses a two-way emergency exit socket, and it includes at least a set of socket unit that is used for connecting plug, every group the socket unit all includes a plurality of live wire sockets that are used for supplying the live wire inserted sheet to stretch into, sets up the zero line socket that is used for supplying the zero line inserted sheet to stretch into between adjacent live wire socket, the zero line socket is located the centre of two adjacent live wire sockets, and is with organizing two adjacent live wire sockets link to each other with different control circuit respectively in the socket unit. This application accessible is inserted the live wire inserted sheet in with the plug and is established in the live wire socket of difference to change consumer's operating condition, the practicality is strong.

Description

Bidirectional safety door socket

Technical Field

The application relates to the technical field of electronic devices, in particular to a bidirectional safety door socket.

Background

The socket is an electronic device for realizing the on-off of a circuit by connecting or disconnecting a plug and a copper piece, and is commonly used for providing power for electric equipment. With the continuous development of the electronic and electrical industry, the performance requirements on the socket are higher and higher.

The socket in the related art generally includes a plurality of groups of socket units for connecting plugs, each group of socket units includes a live wire socket and a zero wire socket, and when a plug of the electric device is connected to the socket units, a live wire insertion piece in the plug is inserted into the live wire socket, and a zero wire insertion piece is inserted into the zero wire socket.

In the course of implementing the present application, the inventors found that the above-described related art has at least the following problems: each group of socket units in the socket can only be connected with one control circuit, so that when the plug is connected with the socket, the electric equipment only has a single working state and needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to enrich the operating condition of consumer when using, this application provides a two-way emergency exit socket.

The application provides a two-way emergency exit socket adopts following technical scheme:

the utility model provides a two-way emergency exit socket, includes at least a set of socket unit that is used for connecting plug, every group the socket unit all includes a plurality of live wire sockets that are used for supplying the live wire inserted sheet to stretch into, sets up the zero line socket that is used for supplying zero line inserted sheet to stretch into between adjacent live wire socket, the zero line socket is located the centre of two adjacent live wire sockets, and is with organizing two adjacent live wire sockets link to each other with different control circuit respectively in the socket unit.

Through adopting above-mentioned technical scheme, because adjacent live wire socket is connected with different control circuit respectively in the socket unit, during the use operating personnel can stretch into the live wire socket of difference with the live wire inserted sheet of plug for the consumer can link to each other with different control circuit, thereby richen the operating condition of consumer when using, the practicality is strong.

In addition, because only be provided with a zero line socket between the adjacent live wire socket, zero line inserted sheet when this zero line socket both can supply the plug to be connected with one of them live wire socket stretches into, and zero line inserted sheet when can supplying plug and another live wire socket to be connected stretches into again, helps reducing the whole width of socket, realizes the exquisite design of socket.

Optionally, the two-way emergency exit socket still includes the electrically conductive unit equal and the one-to-one with socket unit quantity, electrically conductive unit include with a set of socket unit in live wire socket quantity equal live wire conducting strip, with a set of socket unit in the zero line conducting strip that zero line socket quantity equals, be formed with in the live wire conducting strip the live wire socket, be formed with in the zero line conducting strip zero line socket is adjacent zero line socket in the electrically conductive unit zero line conducting strip, be located between the live wire conducting strip of zero line conducting strip homonymy homogeneous body shaping have the piece of connecting.

By adopting the technical scheme, the zero line conducting strips in each group of conducting units and the live wire conducting strips positioned on the same side of the zero line conducting strips are respectively connected into a whole by the adjacent communicating strips, so that the number of parts of the conducting units is reduced, the installation procedure of the conducting units is simplified, and the overall assembly efficiency of the socket is improved.

Optionally, a wiring screw penetrates through the connecting piece, a wire pressing piece is connected to the wiring screw in a threaded manner, a wiring hole for a wire to penetrate is formed between the wire pressing piece and the connecting piece, and the axial direction of the wiring screw is perpendicular to the penetrating direction of the wire.

Through adopting above-mentioned technical scheme, during external wire, can penetrate the wiring hole with the wire earlier, the rotating binding screw again for the line ball piece is to the one side removal that is close to the wire, compresses tightly the wire on the intercommunication piece until the line ball piece, thereby realizes the electric connection of socket and external circuit. Because the binding screw sets up on being used for connecting the intercommunication piece of adjacent live wire conducting strip or zero line conducting strip, operating personnel only need operate a binding screw during the wiring, alright introduce the electric current in adjacent two sets of electrically conductive units, compare in the mode that traditional needs wiring twice convenient and fast more.

Optionally, a plurality of anti-slip blocks are integrally formed on the hole wall of the wiring hole, and the distribution direction of the anti-slip blocks is parallel to the penetrating direction of the wire.

Through adopting above-mentioned technical scheme, the non slipping spur can increase the frictional force between wire and the wiring hole pore wall for difficult relative intercommunication piece removes after the wire crimping targets in place, is favorable to the steady operation of guarantee circuit.

Optionally, the live wire conductive sheet is provided with a live wire heat dissipation hole communicated with the live wire socket, and the zero line conductive sheet is provided with a zero line heat dissipation hole communicated with the zero line socket.

By adopting the technical scheme, when the plug is connected with the socket, the heat generated by the live wire insertion sheet can be discharged out of the live wire socket from the live wire heat dissipation hole, the heat generated by the zero line insertion sheet can be discharged out of the zero line socket from the zero line heat dissipation hole, and the heat dissipation performance of the conductive unit is good.

Optionally, the socket unit still includes the ground wire socket that is used for supplying the ground wire inserted sheet to stretch into, the ground wire socket distributes on the perpendicular bisector of zero line socket and adjacent live wire socket line.

Through adopting above-mentioned technical scheme, the socket of this application both can be applicable to two line plugs, also can be applicable to three-wire plug, and application scope is wide, the practicality is strong. When the socket is connected with the three-wire plug, the ground wire insert of the three-wire plug can extend into the ground wire jack to play a role of grounding, and the safety performance of the socket is high.

Optionally, the conductive unit further comprises a ground wire conductive sheet for grounding and a lug sheet fixedly connected to the ground wire conductive sheet, wherein the lug sheet is provided with a ground wire socket, and the length of the lug sheet along the plugging direction of the ground wire insertion sheet is greater than that of the ground wire conductive sheet along the plugging direction of the ground wire insertion sheet.

Through adopting above-mentioned technical scheme, the area of contact of increase ground wire inserted sheet and ground wire conducting strip is helped in being provided with of lug to improve ground connection stability, reduce the potential safety hazard.

Optionally, the bidirectional safety door socket further comprises a mounting seat for accommodating the conductive unit and a panel detachably arranged on the mounting seat, and the panel is provided with a through hole for a plug to penetrate into the socket unit; the mounting seat is provided with protection components which correspond to the socket units in one-to-one mode and are equal in number, and the protection components are used for shielding openings of the socket units when the socket units are not used.

Through adopting above-mentioned technical scheme, during the equipment socket, operating personnel can demolish the panel from the mount pad earlier, in again with the electrically conductive unit embedding mount pad, reconnect the panel on the mount pad at last. At this moment, the protective component can shield the opening of the socket unit so as to prevent external moisture from permeating into the socket unit through the through hole or causing safety accidents due to the situation of error insertion and the like.

Optionally, two fire wire sockets are arranged in each socket unit, the protection assembly includes a movable seat slidably arranged on the mounting seat, two protection seats slidably arranged on the movable seat, a first reset piece for driving the movable seat to move to a position covering a fire wire socket, and a second reset piece for driving the protection seats to move to a position covering a zero wire socket, and the moving directions of the movable seat and the protection seats are both parallel to the distribution directions of the fire wire sockets in the socket units in the same group; the positions of the movable seat corresponding to the two live wire sockets are respectively provided with a first guide inclined plane, and the two first guide inclined planes are both arranged towards the adjacent through holes and have opposite inclination directions; two the protection seat corresponds the position of zero line socket and all is equipped with the second direction inclined plane, and two second direction inclined planes all set up and the opposite direction of slope towards adjacent through-hole.

Through adopting above-mentioned technical scheme, during connecting plug, the live wire inserted sheet of plug can with first direction inclined plane butt, zero line inserted sheet can with second direction inclined plane butt, the sliding seat receives the promotion of live wire inserted sheet, the protection seat receives the promotion of zero line inserted sheet can mount pad horizontal migration relatively, until during the live wire inserted sheet stretched into the live wire socket, the zero line inserted sheet stretched into the zero line socket. After the plug was extracted, the sliding seat can move to the state that shields the live wire socket under the effect of first piece that resets, and the protection seat can move down to the state that shields the zero line socket in the effect of second protection piece to make the difficult phenomenon that gets into in the socket unit or the mistake appears and insert of outside moisture, the potential safety hazard is little.

Optionally, the first reset piece includes first elastic pieces respectively disposed at two sides of the movable seat, one end of the first elastic piece is connected to the mounting seat, and the other end of the first elastic piece abuts against the movable seat; the second resets and includes setting up respectively at sliding seat both sides second shell fragment, the one end of second shell fragment is connected on the mount pad, other end butt is on adjacent protection seat, the distribution direction of two first shell fragments in the first piece that resets, the distribution direction of two second shell fragments in the second piece that resets all are on a parallel with the moving direction of sliding seat.

Through adopting above-mentioned technical scheme, plug connection is when the socket, and the sliding seat can remove and extrude adjacent first shell fragment for this first shell fragment deformation supports tight sliding seat, thereby improves the stability of live wire inserted sheet when pegging graft in the live wire socket. The protection seat can move and extrude the adjacent second elastic sheet, so that the second elastic sheet deforms and tightly supports the protection seat, and the stability of the zero line inserting sheet inserted into the zero line socket is improved. After the plug is pulled out, the sliding seat can reset to the position of sheltering from the live wire socket, the protection seat can reset to the position of sheltering from the zero line socket under the effect of second shell fragment under the effect of first shell fragment, simple structure, effectual that resets.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the adjacent live wire jacks in the jack units are respectively connected with different control circuits, and the live wire inserting pieces of the plug can be connected with different live wire jacks when in use, so that the working state of the electric equipment is enriched, and the practicability is high;

2. when the conducting wire is externally connected, after the conducting wire is stretched into the wiring hole, an operator only needs to rotate one wire pressing screw, so that the electric connection of two adjacent groups of conducting units can be realized, and the operation is simpler and more convenient;

3. when the socket is not used, the first reset piece can drive the movable seat to shield the live wire socket, and the second reset piece can drive the protective seat to shield the zero wire socket, so that external moisture is not easy to permeate into the socket unit or the phenomenon of misplugging is caused, and the potential safety hazard is small.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is an exploded schematic view of an embodiment of the present application.

Fig. 3 is a top view of a conductive element in an embodiment of the present application.

Fig. 4 is a perspective view of a conductive unit in an embodiment of the present application.

Fig. 5 is an exploded view of the conductive element in the embodiment of the present application.

Fig. 6 is a schematic structural view of a mounting seat and a guard assembly in an embodiment of the present application.

Description of reference numerals:

1. a mounting seat; 11. a first positioning post; 12. a second positioning column; 2. a panel; 21. a through hole; 3. a bottom cover; 4. a conductive unit; 41. a live wire conducting strip; 411. a live wire heat dissipation hole; 42. a zero line conducting strip; 421. a zero line heat dissipation hole; 43. a ground wire conducting strip; 44. a lug plate; 45. a communication sheet; 451. a binding screw; 452. pressing line sheets; 453. a wiring hole; 454. anti-skid blocks; 5. a socket unit; 51. a live wire socket; 52. a zero line socket; 53. a ground wire socket; 6. a guard assembly; 61. a movable seat; 611. a movable block; 612. a first stopper; 613. a first guide slope; 62. a protective seat; 621. a protection block; 622. a second stopper; 623. a second guide slope; 63. a first reset member; 631. a first spring plate; 64. a second reset member; 641. and a second elastic sheet.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses two-way emergency exit socket.

Referring to fig. 1 and 2, the bidirectional safety door socket comprises a mounting seat 1, a panel 2 detachably arranged on one side of the mounting seat 1, a bottom cover 3 detachably arranged on one side of the mounting seat 1, which is far away from the panel 2, at least one group of conductive units 4 for conducting electricity, and socket units 5 which are equal in number and correspond to the conductive units 4 one to one, wherein the socket units 5 are used for connecting plugs, and the conductive units 4 are arranged in the mounting seat 1. In the embodiment, the panel 2 and the bottom cover 3 are detachably connected to the mounting base 1 in a clamping manner, so that the assembly and disassembly are convenient; in other embodiments, the panel 2 and the bottom cover 3 may be connected to the mounting base 1 by bolts or the like.

Referring to fig. 3 and 4, two sets of conductive units 4 and jack units 5 are distributed along the length direction of the mounting base 1, each set of conductive unit 4 includes a plurality of live wire conductive strips 41, a zero line conductive strip 42 located between adjacent live wire conductive strips 41, a ground wire conductive strip 43 located on one side of the panel 2 and facing the zero line conductive strip 42, a plurality of lugs 44 fixedly connected to the ground wire conductive strip 43, two live wire conductive strips 41 are arranged in each set of conductive unit 4, the structure of the conductive unit is indicated by the two lugs 44, and the two live wire conductive strips 41 in the same set of conductive unit 4 are respectively connected with different control circuits.

Referring to fig. 4 and 5, the ground wire conductive strips 43 in the two adjacent sets of conductive units 4 are processed in an integrated manner, a communicating strip 45 is integrally formed between the zero line conductive strips 42 in the two adjacent sets of conductive units 4 and the live wire conductive strips 41 on the same side of the zero line conductive strips 42, and the material of the communicating strip 45 is the same as that of the live wire conductive strips 41 and the zero line conductive strips 42. Wear to be equipped with one binding screw 451 in the intercommunication piece 45 that links to each other with live wire conducting strip 41, wear to be equipped with two binding screws 451 in the intercommunication piece 45 that links to each other with zero line conducting strip 42, equal threaded connection has line ball piece 452 on every binding screw 451, be formed with the wiring hole 453 that is used for supplying the wire to wear to establish between line ball piece 452 and the intercommunication piece 45, integrated into one piece has a plurality of non slipping spur 454 on the pore wall of wiring hole 453, this non slipping spur 454 integrated into one piece is on line ball piece 452. The distribution direction of the anti-slip blocks 454 in the same wiring hole 453 is parallel to the wire penetrating direction, and the axial direction of the wiring screw 451 is perpendicular to the wire penetrating direction. When the wire is externally connected, an operator can firstly stretch the wire into the wiring hole 453 and then rotate the wiring screw 451 to drive the wire pressing piece 452 to press the wire onto the communicating piece 45.

Referring to fig. 3 and 4, the socket unit 5 includes a plurality of live wire sockets 51 for the live wire insertion piece to extend into, a neutral wire socket 52 provided between the adjacent live wire sockets 51 for the neutral wire insertion piece to extend into, and a ground wire socket 53 provided between the neutral wire socket 52 and the adjacent live wire socket 51 for the ground wire insertion piece to extend into, the neutral wire socket 52 is located in the middle of the two adjacent live wire sockets 51, and the ground wire socket 53 is located on the perpendicular bisector of the connection line between the neutral wire socket 52 and the adjacent live wire socket 51.

Referring to fig. 3 and 4, the number of the live wire sockets 51 in each set of socket units 5 is also two, and each live wire socket 51 is formed by a different live wire conducting strip 41, so that the live wire inserting piece can be electrically connected with the live wire conducting strip 41 when extending into the live wire socket 51. The neutral insertion opening 52 is formed by the neutral conductive tab 42 such that the neutral insertion tab is electrically connected to the neutral conductive tab 42 when the neutral insertion tab extends into the neutral insertion opening 52. The ground jack 53 is formed by the lug 44, and the ground blade of the plug can be electrically connected with the ground conducting strip 43 through the lug 44 when extending into the ground jack 53, so as to realize the grounding effect. In order to increase the connection area between the ground wire insertion piece and the ground wire conductive piece 43, the length of the connection piece 44 along the insertion direction of the ground wire insertion piece is greater than the length of the ground wire conductive piece 43 along the insertion direction of the ground wire insertion piece.

Referring to fig. 4 and 5, in order to improve the heat dissipation performance of the conductive unit 4 during operation, a live wire heat dissipation hole 411 communicated with the live wire socket 51 is formed in the live wire conductive plate 41, and a neutral wire heat dissipation hole 421 communicated with the neutral wire socket 52 is formed in the neutral wire conductive plate 42, so that heat generated during operation of the live wire conductive plate 41 can be discharged from the live wire heat dissipation hole 411, and heat generated during operation of the neutral wire conductive plate 42 can be discharged from the neutral wire heat dissipation hole 421.

Referring to fig. 2 and 6, a through hole 21 for a plug to penetrate into the socket unit 5 is formed in the panel 2, two sets of protection components 6 are arranged on the mounting base 1, and the protection components 6 are used for respectively shielding openings of the two sets of socket units 5 when the socket is not used. Each group of protection components 6 comprises a movable seat 61 arranged on the mounting seat 1 in a sliding manner, two protection seats 62 arranged on the movable seat 61 in a sliding manner, a first reset piece 63 used for driving the movable seat 61 to move to a position covering a live wire socket 51, and a second reset piece 64 used for driving the protection seats 62 to move to a position covering a neutral wire socket 52, wherein the moving directions of the movable seat 61 and the protection seats 62 are all parallel to the distribution direction of the live wire sockets 51 in the same group of socket units 5.

Referring to fig. 6, the movable seat 61 includes a movable block 611, and two first stoppers 612 integrally formed on one side of the movable block 611 facing the through hole 21, the two first stoppers 612 are respectively disposed at positions corresponding to different live wire sockets 51, and each first stopper 612 is respectively provided with a first guiding inclined surface 613 corresponding to the live wire socket 51, and the two first guiding inclined surfaces 613 are both disposed facing the adjacent through hole 21 and inclined in opposite directions.

Referring to fig. 6, the protection base 62 includes a protection block 621 slidably disposed in the movable block 611, and second stoppers 622 integrally formed on one side of the protection block 621 facing the through hole 21, where the two second stoppers 622 are located at positions corresponding to the same neutral wire insertion opening 52, and each second stopper 622 is provided with a second guiding inclined surface 623 corresponding to the neutral wire insertion opening 52, and the two second guiding inclined surfaces 623 are disposed facing the adjacent through hole 21 and have opposite inclined directions.

Referring to fig. 6, the first reset element 63 includes first elastic pieces 631 respectively disposed on two sides of the movable block 611, a first positioning column 11 and a second positioning column 12 are fixed on one side of the mounting base 1 facing the panel 2, one end of the first elastic piece 631 is sleeved on the first positioning column 11, and the other end abuts against the movable block 611. The second reset element 64 includes second elastic pieces 641 respectively disposed on two sides of the movable block 611, one end of the second elastic piece 641 is sleeved on the second positioning column 12, the other end of the second elastic piece 641 abuts on the adjacent protection block 621, and the distribution directions of the two first elastic pieces 631 and the two second elastic pieces 641 are parallel to the movable direction of the movable block 611. After the plug is pulled out, the first stopper 612 is reset to the state of shielding the live wire socket 51 under the action of the first elastic piece 631, and the second stopper 622 is reset to the state of shielding the neutral wire socket 52 under the action of the second elastic piece 641, so that the safety of the socket is improved.

The implementation principle of this application embodiment two-way emergency exit socket does: when the plug is connected to the socket, the first guiding inclined plane 613 contacts the live wire insertion piece, so that the movable seat 61 moves along the distribution direction of the live wire insertion holes 51, and the first elastic piece 631 deforms and generates elastic force; the second guiding inclined plane 623 contacts with the neutral wire insertion piece, so that the two protection bases 62 move towards the side away from each other, the second elastic piece 641 deforms and generates elastic force, the first stop block 612 and the second stop block 622 are further abutted against the plug, and the stability of the plug when being connected with the socket unit 5 is high. Because each live wire socket 51 in the same socket unit 5 is connected with different control circuits, an operator can change the plugging position of the plug during use so as to connect the electric equipment with different control circuits, thereby changing the working state of the electric equipment. For example, two plugs are respectively connected to the live wire sockets 51 on the same side of the neutral wire socket 52, so as to realize the synchronous control of two electric devices; or two plugs are respectively connected in the live wire sockets 51 positioned on different sides of the neutral wire socket 52, so as to realize the distinguishing control of two electric devices.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A two-way safety gate socket comprising at least one set of jack units (5) for connecting plugs, characterized in that: every group socket unit (5) all include a plurality of live wire sockets (51) that are used for supplying the live wire inserted sheet to stretch into, set up zero line socket (52) that are used for supplying the zero line inserted sheet to stretch into between adjacent live wire socket (51), zero line socket (52) are located the centre of two adjacent live wire sockets (51), and are organized together two adjacent live wire sockets (51) link to each other with different control circuit respectively in socket unit (5).

2. A bi-directional safety gate receptacle according to claim 1, wherein: still include electrically conductive unit (4) equal and the one-to-one with socket unit (5) quantity, electrically conductive unit (4) include with live wire conducting strip (41) that live wire socket (51) quantity equals in a set of socket unit (5), with zero line conducting strip (42) that zero line socket (52) quantity equals in a set of socket unit (5), be formed with in live wire conducting strip (41) live wire socket (51), be formed with in zero line conducting strip (42) zero line socket (52), adjacent the homogeneous body shaping has intercommunication piece (45) between zero line conducting strip (42) in electrically conductive unit (4), the live wire conducting strip (41) that is located zero line conducting strip (42) homonymy.

3. A bi-directional safety gate receptacle according to claim 2, wherein: the wire pressing piece is characterized in that a wiring screw (451) penetrates through the communicating piece (45), a wire pressing piece (452) is connected to the wiring screw (451) in a threaded mode, a wiring hole (453) for a wire to penetrate through is formed between the wire pressing piece (452) and the communicating piece (45), and the axial direction of the wiring screw (451) is perpendicular to the penetrating direction of the wire.

4. A bi-directional safety door receptacle according to claim 3, wherein: the hole wall of the wiring hole (453) is integrally formed with a plurality of anti-skidding blocks (454), and the distribution direction of the anti-skidding blocks (454) is parallel to the penetrating direction of the wire.

5. A bi-directional safety gate receptacle according to claim 2, wherein: the live wire conducting plate (41) is provided with a live wire radiating hole (411) communicated with the live wire socket (51), and the null wire conducting plate (42) is provided with a null wire radiating hole (421) communicated with the null wire socket (52).

6. A bi-directional safety door receptacle according to claim 2, wherein: socket unit (5) still include ground wire socket (53) that are used for supplying the ground wire inserted sheet to stretch into, ground wire socket (53) distribute on the perpendicular bisector that zero line socket (52) and adjacent live wire socket (51) are connected.

7. The bi-directional safety door receptacle according to claim 6, wherein: electrically conductive unit (4) still including ground wire conducting strip (43), the fixed connection that is used for ground connection lug (44) on the ground wire conducting strip (43), be formed with in lug (44) ground wire socket (53), lug (44) are greater than ground wire conducting strip (43) along the length of ground wire inserted sheet grafting direction.

8. A bi-directional safety gate receptacle according to claim 2, wherein: the socket comprises a socket body and is characterized by further comprising a mounting seat (1) for accommodating a conductive unit (4) and a panel (2) detachably arranged on the mounting seat (1), wherein a through hole (21) for a plug to penetrate into a socket unit (5) is formed in the panel (2); the protective component (6) which corresponds to the socket units (5) in the same number one to one is arranged on the mounting seat (1), and the protective component (6) is used for shielding openings of the socket units (5) when the protective component is not used.

9. A bi-directional safety gate receptacle according to claim 8, wherein: two live wire sockets (51) are arranged in each group of socket units (5), each protective component (6) comprises a movable seat (61) which is arranged on the mounting seat (1) in a sliding manner, two protective seats (62) which are arranged on the movable seat (61) in a sliding manner, a first reset piece (63) which is used for driving the movable seat (61) to move to the position of shielding the live wire socket (51), and a second reset piece (64) which is used for driving the protective seats (62) to move to the position of shielding the zero wire socket (52), and the moving directions of the movable seats (61) and the protective seats (62) are parallel to the distribution direction of the live wire sockets (51) in the same group of socket units (5); the positions of the movable seat (61) corresponding to the two live wire sockets (51) are respectively provided with a first guide inclined surface (613), and the two first guide inclined surfaces (613) are arranged towards the adjacent through holes (21) and have opposite inclination directions; two positions, corresponding to the zero line socket (52), of the protection seats (62) are respectively provided with a second guide inclined plane (623), and the two second guide inclined planes (623) are arranged towards the adjacent through holes (21) and are opposite in inclination direction.

10. A bi-directional safety gate receptacle according to claim 9, wherein: the first reset piece (63) comprises first elastic sheets (631) respectively arranged on two sides of the movable seat (61), one end of each first elastic sheet (631) is connected to the mounting seat (1), and the other end of each first elastic sheet abuts against the movable seat (61); the second resets piece (64) including setting up respectively at sliding seat (61) both sides second shell fragment (641), the one end of second shell fragment (641) is connected on mount pad (1), the other end butt is on adjacent protection seat (62), the distribution direction of two first shell fragments (631) in first piece (63) that resets, the distribution direction of two second shell fragments (641) in second piece (64) that resets all are on a parallel with the activity direction of sliding seat (61).

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