CN115832751A - Socket safety door device and socket - Google Patents

Abstract

The invention relates to the technical field of electric connectors, and particularly discloses a socket safety door device and a socket, wherein the socket comprises a socket panel, and the socket panel is provided with a safety cavity; the safety door comprises a driving surface, a driving back surface and a supporting column, wherein the driving back surface is arranged opposite to the driving surface; the elastic reset piece is abutted against the driving back surface; the socket module comprises an elastic reset piece mounting hole, a second guide inclined plane for limiting the sliding direction of the supporting column and an electrode through hole. The socket safety door device and the socket can prevent electric shock caused by mistakenly inserting foreign matters into the jacks, and effectively ensure the safety of life and property.

Description

Socket safety door device and socket

Technical Field

The invention relates to the technical field of electric connectors, in particular to a socket safety door device and a socket.

Background

The socket is visible everywhere in daily life of people, and is usually provided with one group or more than one group of jacks, the jacks are in a two-hole type or three-hole type, when in use, a wire is not needed to be used for connecting an electric appliance and a main circuit, the socket is convenient and simple, and the connection and disconnection of the part of circuits are finally achieved through the connection and disconnection between a circuit and a copper piece.

Along with the continuous improvement of people's standard of living, common socket has can't satisfy people to the requirement of security, and especially common socket can't prevent to miss to insert the electric shock that leads to, inserts the socket with the object when especially children play and leads to getting an electric shock, causes huge loss to life and property safety, consequently, design safe and reliable, the socket of facilitating the use is one of the effective way that reduces above-mentioned risk.

Accordingly, there is a need to provide a safety door device for a receptacle that solves or overcomes the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a socket safety door device which can prevent electric shock caused by mistakenly inserting foreign matters into jacks and effectively ensure the safety of life and property.

In order to solve the above problems, an aspect of the present invention provides a receptacle security gate device including: a receptacle panel having a safety cavity; the safety door comprises a driving surface, a driving back surface and a supporting column, wherein the driving back surface is arranged opposite to the driving surface, the supporting column is rotatably arranged in the safety cavity, a first inclined plane boss and a second inclined plane boss are arranged on the driving surface, and a first abutting boss and a second abutting boss are arranged on the driving back surface; the elastic reset piece is abutted against the driving back face, and can displace along the height direction when the first inclined plane boss and the second inclined plane boss of the driving face are simultaneously pressed from the direction of the jack of the socket panel; socket module, socket module includes elasticity reset piece mounting hole, restriction the second direction inclined plane and the electrode jack of support column slip direction, work as only first inclined plane boss or second inclined plane boss receives and comes from when the pressure of socket panel jack direction, the support column is in second direction inclined plane with elasticity resets and takes place to rotate to certain extent under the effect, first support to the boss or the second support to the boss with the electrode jack supports and leans on.

Preferably, the first abutment boss and the second abutment boss of the drive back face are respectively adjacent to one side of the first bevel boss and the second bevel boss of the drive face.

Preferably, the socket panel comprises a support column groove and a first guide inclined plane, the support column groove and the first guide inclined plane are arranged in the safety cavity, the support column is rotatably installed in the support column groove, and the first guide inclined plane and the second guide inclined plane can cooperate to enable the first inclined plane boss and the second inclined plane boss to be staggered with the socket panel jack.

Preferably, the socket panel further comprises a limiting structure, and the limiting structure is arranged on the periphery of the safety cavity and the grounding hole.

Preferably, the first and second ramp bosses are within the receptacle panel receptacle when the support post is disposed in the support post recess of the receptacle panel.

Preferably, the emergency exit is still including setting up the electrode via hole that is close to live wire jack one side, works as the drive face first inclined plane boss with the second inclined plane boss receive simultaneously from when the pressure of socket panel jack direction, the support column is in socket panel's first direction inclined plane with on the socket module the displacement takes place under the effect of second direction inclined plane, the live wire plug with the electrode via hole link up.

Preferably, the socket panel further comprises a fixing clip for connecting and fixing the socket module and the socket panel.

Preferably, both sides that elasticity reset the piece are provided with a plurality of little shell fragments, and is a plurality of little shell fragment can block to be established elasticity resets in the piece mounting hole, elasticity resets the upper portion of piece and is cross structure and have smooth connection face.

Preferably, the first guide slope and the second guide slope have the same slope angle.

The invention also provides a socket, which comprises the socket safety door device.

Through the technical scheme, the invention has the following beneficial effects:

the invention relates to a socket safety door device, which comprises a socket panel, a safety door, an elastic reset piece and a socket module, wherein when a driving surface is not pressed in the direction of a socket panel jack, the elastic reset piece is in an initial state, a support column is arranged in a support column groove, and a first inclined plane boss and a second inclined plane boss on the driving surface respectively block a plug from being inserted into the socket panel jack; when the first inclined plane boss and the second inclined plane boss on the driving surface are simultaneously pressed from the direction of the jack of the socket panel, the elastic reset piece contracts, at the moment, the support column slides and displaces under the action of the first guide inclined plane of the socket panel and the second guide inclined plane of the socket module, so that the first inclined plane boss and the second inclined plane boss on the plug and the safety door are staggered, meanwhile, the live wire plug is communicated with the electrode through hole, and the live wire plug, the zero plug and the grounding plug can be accurately inserted into the electrode jack on the socket module through the jack of the socket panel, thereby realizing the communication of a circuit; when only the first inclined plane boss or the second inclined plane boss of the driving surface receives pressure from the jack direction of the socket panel, the safety door can rotate by taking the support column as an axis and enables the first abutting boss or the second abutting boss on the driving back face to abut against the corresponding electrode jack of the socket module, the first inclined plane boss or the second inclined plane boss on the driving surface abuts against the live wire or the zero wire jack of the socket panel, and the safety door is limited to slide relative to the socket panel. The invention effectively solves the problem of electric shock caused by inserting foreign matters into the jacks, has simple structural design and can ensure the safety of life and property of people to the maximum extent.

Drawings

FIG. 1 is a schematic view of the construction of a receptacle security door assembly of the present invention;

FIG. 2 is a schematic view of the structure of the receptacle panel of the receptacle safety door apparatus of the present invention;

fig. 3 is a schematic view showing the construction of a safety door of the outlet safety door apparatus of the present invention;

fig. 4 is a schematic structural view of an elastic reset member of the receptacle safety door apparatus of the present invention;

fig. 5 is a schematic structural view of a receptacle module of the receptacle security door apparatus of the present invention;

FIG. 6 is a schematic view of the receptacle security door assembly of the present invention shown without an insert;

FIG. 7 isbase:Sub>A cross-sectional view A-A of FIG. 6;

fig. 8 is a schematic view of the structure of the receptacle safety door device of the present invention inserted from the neutral wire jack on one side thereof;

FIG. 9 is a schematic view of the receptacle safety door assembly of the present invention shown inserted through the hot wire receptacle on one side thereof;

fig. 10 is a schematic view showing a structure of the safety door device of the receptacle according to the present invention, which is inserted from both sides of the hot and neutral insertion holes at the same time.

Description of the reference numerals

1. A receptacle panel; 111. a safety chamber; 112. a limiting structure; 113. a support post groove; 114. a first guide slope; 115. a socket panel jack; 116. mounting a column; 117. a grounding hole, 2 and a safety door; 21. a support pillar; 22. a drive face; 221. a first inclined plane boss; 222. a second inclined plane boss; 23. a drive back; 231. a first abutment boss; 232. a second abutment boss; 24. an electrode via hole; 3. an elastic reset member; 311. a small spring plate; 4. a socket module; 411. a limit matching part; 412. an elastic reset member mounting hole; 413. a second guide slope; 414. fixing the clamping groove; 415. an electrode insertion hole; 5. fixing the card; 6. and (4) screws.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

It should be noted that some directional terms used in the following description for clearly illustrating the technical aspects of the present invention are only used for convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated, therefore, the features defined "first" and "second" may explicitly or implicitly include one or more of the features described.

In the description of the present invention, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; either directly or indirectly through intervening media, either internally or in any combination thereof. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The present invention provides a receptacle safety door apparatus, as shown in fig. 1 to 10, including: a socket panel 1, the socket panel 1 having a safety cavity 111; the safety door 2 comprises a driving surface 22, a driving back surface 23 arranged opposite to the driving surface 22 and a supporting column 21, wherein the supporting column 21 is rotatably installed in the safety cavity 111, the driving surface 22 is provided with a first inclined plane boss 221 and a second inclined plane boss 222, and the driving back surface 23 is provided with a first abutting boss 231 and a second abutting boss 232; the elastic reset piece 3 is abutted against the driving back surface 23, and can displace along the height direction when the first inclined plane boss 221 and the second inclined plane boss 222 of the driving surface 22 simultaneously receive pressure from the direction of the socket panel jack 115; the outlet module 4, the outlet module 4 includes an elastic reset piece mounting hole 412, a second guiding inclined plane 413 for limiting the sliding direction of the supporting column 21, and an electrode insertion hole 415, when only the first inclined plane boss 221 or the second inclined plane boss 222 receives a pressure from the direction of the outlet panel insertion hole 115, and the supporting column 21 rotates to a certain extent under the action of the second guiding inclined plane 413 and the elastic reset piece 3, the first abutting boss 231 or the second abutting boss 232 abuts against the electrode insertion hole 415.

It should be noted that the safety door device for a socket of the present invention includes a socket panel 1 having a safety cavity 111, a plurality of sets of socket panel jacks 115 are disposed on the socket panel 1, wherein the socket panel jacks 115 include a live jack and a neutral jack, the live jack and the neutral jack penetrate through the safety cavity 111 along a plug insertion direction, a safety door 2 is fittingly mounted in the safety cavity 111, the safety door 2 includes a driving surface 22, a driving back surface 23 disposed opposite to the driving surface 22, a supporting column 21, and an electrode via hole 24 mounted on one side of the live jack, wherein a first inclined plane boss 221 and a second inclined plane boss 222 are disposed on both sides of the driving surface 22, the first inclined plane boss 221 and the second inclined plane boss 222 are generally prism-shaped protrusions, and a first abutting boss 231 and a second abutting boss 232 are disposed on both side ends of the driving back surface 23, the first abutting boss 231 and the second abutting boss 232 are generally plate-shaped bosses, the support post 21 is generally installed at both sides of the middle portion of the safety door 2, and can rotate in the safety cavity 111 or slide along the second guiding inclined plane 413, the elastic restoring member 3 abuts against the middle position of the driving back surface 23, when the first inclined plane boss 221 and the second inclined plane boss 222 are simultaneously pressed from the direction of the socket panel insertion hole 115, elastic deformation occurs, the elastic restoring member 3 can be displaced in the height direction, the socket module 4 includes an elastic restoring member installation hole 412 for installing the elastic restoring member 3, a second guiding inclined plane 413 for limiting the sliding direction of the support post 21, and an electrode through hole 415, wherein the second guiding inclined plane 413 has a certain slope, when the first inclined plane boss 221 and the second inclined plane 222 on the driving surface 22 are simultaneously pressed from the direction of the socket panel insertion hole 115, the supporting column 21 slides along the slope direction of the second guiding inclined plane 413, so that the plug is staggered with the first inclined plane boss 221 and the second inclined plane boss 222, and the live plug, the zero plug and the grounding plug can be accurately inserted into the electrode jack 415 on the socket module 4 through the socket panel jack 115, thereby realizing the communication of the circuit, when only the first inclined plane boss 221 or the second inclined plane boss 222 on the driving surface 22 is pressed from the socket panel jack 115 direction, the supporting column 21 rotates to a certain extent under the action of the second guiding inclined plane 413 and the elastic reset piece 3, the first abutting boss 231 or the second abutting boss 232 on the driving back surface 23 abuts against the electrode jack 415, the first inclined plane boss 221 or the second inclined plane boss 222 on the driving surface 22 abuts against the live plug or the zero plug jack on the socket panel 1, and the safety door 2 is limited from continuously deflecting.

The specific working process is as follows: when the driving surface 22 is not pressed from the direction of the socket panel jack 115 on the socket panel 1, the elastic restoring member 3 is in the initial state, and the first inclined plane boss 221 and the second inclined plane boss 222 on the driving surface 22 block the plug from being inserted into the live line jack and the neutral line jack on the socket panel 1, respectively; when the first inclined plane boss 221 and the second inclined plane boss 222 on the driving surface 22 are simultaneously pressed from the direction of the socket panel insertion hole 115, the elastic resetting piece 3 elastically contracts, at this time, the support column 21 slides along the slope direction under the action of the second guide inclined plane 413 of the socket module 4, the first inclined plane boss 221 and the second inclined plane boss 222 on the safety door 2 are staggered with the socket panel insertion hole 115, so that a plug can be inserted into the socket panel insertion hole 115, and the circuit is recovered smoothly; when only the first inclined plane boss 221 or the second inclined plane boss 222 of the driving surface 22 is pressed from the socket panel jack 115 direction, the safety door 2 can rotate by taking the supporting column 21 as an axis and enable the first abutting boss 231 or the second abutting boss 232 on the driving back surface 23 to abut against the corresponding electrode jack 415 of the socket module 4, the first inclined plane boss 221 or the second inclined plane boss 222 on the driving surface 22 abuts against the live wire or the neutral wire jack of the socket panel 1, the relative sliding between the safety door 2 and the socket panel 1 is limited, and the circuit communication is prevented.

Further, referring to fig. 3, first and second abutment bosses 231 and 232 of drive back face 23 are adjacent to a side of first and second ramp bosses 221 and 222, respectively, of drive face 22. Specifically, the first abutting boss 231 of the driving back surface 23 is close to one side of the first inclined boss 221 of the driving surface 22, and the second abutting boss 232 of the driving back surface 23 is close to one side of the second inclined boss 222 of the driving surface 22, it should be noted that, when an object is inserted from the live wire jack, the supporting column 21 rotates clockwise to a certain extent under the action of the second guiding inclined surface 413 and the elastic resetting member 3, at this time, the second inclined boss 222 abuts against the neutral wire jack on the receptacle panel 1, and at the same time, the first abutting boss 231 abuts against the corresponding electrode jack 415 on the receptacle module 4, so as to limit the safety door 2 from deflecting continuously; when an object is inserted from the neutral wire jack, the supporting column 21 rotates counterclockwise to a certain extent under the action of the second guiding inclined plane 413 and the elastic resetting piece 3, at this time, the first inclined plane boss 221 abuts against the live wire jack on the socket panel 1, meanwhile, the second abutting boss 232 abuts against the corresponding electrode jack 415 on the socket module 4, and the safety door 2 is limited from continuing deflection.

As an embodiment of the receptacle panel 1, referring to fig. 2, the receptacle panel 1 includes a supporting post groove 113 disposed in the safety cavity 111, and a first guiding inclined plane 114, wherein the supporting post 21 is rotatably mounted in the supporting post groove 113, and the first guiding inclined plane 114 and the second guiding inclined plane 413 can cooperate to dislocate the first inclined plane boss 221 and the second inclined plane boss 222 from the receptacle panel insertion hole 115. Specifically, when the first and second inclined bosses 221 and 222 on the driving surface 22 are not pressed from the direction of the receptacle panel insertion hole 115, at this time, the support post 21 is relatively stationary in the support post groove 113, i.e., does not rotate or slide along the first and second guide inclined surfaces 114 and 413, and the first and second inclined bosses 221 and 222 are located in the receptacle panel insertion hole 115; when the first slope step 221 or the second slope step 222 on the driving surface 22 receives a pressure from the socket panel insertion hole 115, the supporting column 21 can rotate counterclockwise or clockwise along the supporting column groove 113; when the first inclined plane boss 221 and the second inclined plane boss 222 on the driving surface 22 are simultaneously pressed from the direction of the socket panel insertion hole 115, at this time, the supporting column 21 can slide along the first guide inclined plane 114 and the second guide inclined plane 413 under the cooperation effect of the first guide inclined plane 114 and the second guide inclined plane 413, it should be noted that, for smooth sliding, the slope angles of the first guide inclined plane 114 and the second guide inclined plane 413 are the same, in the sliding process, the electrode through hole 24 on the safety door 2 is communicated with the socket panel insertion hole 115, the live wire plug and the neutral wire plug can be inserted into the live wire terminal and the neutral wire terminal inside the socket, and the circuit is restored to be smooth.

As a specific embodiment of the receptacle panel 1, the receptacle panel 1 further includes a limiting structure 112, and the limiting structure 112 is disposed on the periphery of the safety chamber 111 and the grounding hole 117. Specifically, the limit structure 112 may be a plurality of stoppers that are engaged with the limit engaging portion 411 of the socket module 4, so as to prevent the plug from being inserted into the electrode socket 415 due to the deviation, and when the socket panel socket 115 is aligned with the electrode socket 415 of the socket module 4, the fire plug, the zero plug and the ground plug can be accurately inserted into the electrode socket 415 of the socket module 4 through the socket panel socket 115, thereby achieving the communication of the circuit.

Specifically, the outlet safety door further includes a fixing clip 5 for connecting the fixed outlet module 4 and the outlet panel 1. It should be noted that the fixing clip 5 includes a groove and a mounting hole, wherein the groove is clipped in the fixing clip groove 414, the mounting hole may be fixed on the mounting post 116 on the socket panel 1 by using a screw, and certainly, the socket panel 1 and the socket module 4 may also be fixed by using a bolt connection, where the bolt should have sufficient strength and rigidity to ensure the stability of the connection.

As a specific embodiment of the elastic resetting member 3, two sides of the elastic resetting member 3 are provided with a plurality of small elastic pieces 311, the small elastic pieces 311 can be clamped in the elastic resetting member mounting hole 412, and the upper portion of the elastic resetting member 3 is of a cross structure and has a smooth connecting surface. Specifically, a plurality of little shell fragments 311 can be with self firm fixing in elasticity resets a mounting hole 412, prevent that elasticity resets 3 upset and drop, when the first inclined plane boss 221 or the second inclined plane boss 222 of drive face 22 when receiving pressure, elasticity resets 3 and the combined action of second direction inclined plane 413, makes emergency exit 2 take place to deflect, and the smooth connection face of upper portion crossing structure can make emergency exit 2 can not appear the card phenomenon dead along the direction when sliding.

In addition, on the basis of a safety door device of a socket of the present invention, the present invention further provides a socket, comprising a safety door device of the socket, wherein when the driving surface 22 is not pressed from the direction of the socket panel insertion hole 115 of the socket panel 1, the elastic restoring member 3 is in an initial state, and the first inclined surface projection 221 and the second inclined surface projection 222 on the driving surface 22 respectively block the insertion of the plug into the live wire insertion hole and the neutral wire insertion hole on the socket panel 1; when the first inclined plane boss 221 and the second inclined plane boss 222 on the driving surface 22 are simultaneously pressed from the direction of the socket panel insertion hole 115, the elastic resetting piece 3 elastically contracts, at this time, the support column 21 slides along the gradient direction under the action of the second guide inclined plane 413 of the socket module 4, the first inclined plane boss 221 and the second inclined plane boss 222 on the safety door 2 and the socket panel insertion hole 115 are staggered with each other, so that a plug can be inserted into the socket panel insertion hole 115, and the circuit is recovered to be smooth; when only the first inclined plane boss 221 or the second inclined plane boss 222 of the driving surface 22 is pressed from the direction of the socket panel jack 115, the safety door 2 can rotate by taking the supporting column 21 as an axis and make the first abutting boss 231 or the second abutting boss 232 abut against the corresponding electrode jack 415 of the socket module 4, and the first inclined plane boss 221 or the second inclined plane boss 222 abut against the live wire or neutral wire jack of the socket panel 1, so that the relative sliding between the safety door 2 and the socket panel 1 is limited, and the circuit communication is prevented.

As can be seen from the above description, when the first inclined plane boss 221 and the second inclined plane boss 222 on the driving surface 22 are not pressed from the direction of the socket panel insertion hole 115, at this time, the supporting column 21 is relatively stationary in the supporting column groove 113, i.e. does not rotate and slide along the first guide inclined plane 114 and the second guide inclined plane 413, and the first inclined plane boss 221 and the second inclined plane boss 222 are located in the socket panel insertion hole 115; when the first inclined plane boss 221 or the second inclined plane boss 222 on the driving surface 22 is pressed from the direction of the socket panel jack 115, and at this time, when the supporting column 21 rotates to a certain extent under the action of the second guide inclined plane 413 and the elastic reset piece 3, the first abutting boss 231 or the second abutting boss 232 abuts against the electrode jack 415, the first inclined plane boss 221 or the second inclined plane boss 222 abuts against the live wire or the neutral wire jack of the socket panel 1, and the safety door 2 is limited from continuously deflecting; when the first inclined plane boss 221 and the second inclined plane boss 222 on the driving surface 22 are simultaneously pressed from the direction of the socket panel jack 115, at this time, the supporting column 21 slides along the inclined planes under the matching action of the first guide inclined plane 114 and the second guide inclined plane 413, so that the first inclined plane boss 221 and the second inclined plane boss 222 on the plug and the safety door 2 are staggered, the live plug is communicated with the electrode through hole 24, and the live plug, the zero plug and the grounding plug can be accurately inserted into the electrode jack 415 on the socket module 4 through the socket panel jack 115, thereby realizing the communication of the circuit.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the technical idea of the present invention, and these simple modifications are within the protective scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and the invention is not described in any way for the possible combinations in order to avoid unnecessary repetition.

In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (10)

1. A receptacle security door apparatus, comprising:

a socket panel (1), the socket panel (1) having a safety cavity (111);

the safety door (2) comprises a driving surface (22), a driving back surface (23) and a supporting column (21), wherein the driving back surface (23) is arranged opposite to the driving surface (22), the supporting column (21) is rotatably installed in the safety cavity (111), a first inclined plane boss (221) and a second inclined plane boss (222) are arranged on the driving surface (22), and a first abutting boss (231) and a second abutting boss (232) are arranged on the driving back surface (23);

the elastic resetting piece (3) is abutted against the driving back surface (23), and can be displaced in the height direction when the first inclined plane boss (221) and the second inclined plane boss (222) of the driving surface (22) are simultaneously pressed from the direction of a socket panel insertion hole (115);

the socket module (4) comprises an elastic reset piece mounting hole (412), a second guide inclined plane (413) for limiting the sliding direction of the supporting column (21) and an electrode jack (415), when only the first inclined plane boss (221) or the second inclined plane boss (222) is pressed from the direction of the socket panel jack (115), the supporting column (21) rotates to a certain extent under the action of the second guide inclined plane (413) and the elastic reset piece (3), and the first abutting boss (231) or the second abutting boss (232) abuts against the electrode jack (415).

2. A receptacle safety door apparatus according to claim 1, characterized in that the first abutment boss (231) and the second abutment boss (232) of the drive back face (23) are respectively adjacent to one side of the first ramp boss (221) and the second ramp boss (222) of the drive face (22).

3. The receptacle security door apparatus according to claim 1, wherein the receptacle panel (1) comprises a support post groove (113) disposed in the security cavity (111), a first guide ramp (114), the support post (21) being rotatably mounted in the support post groove (113), the first guide ramp (114) and the second guide ramp (413) being capable of cooperating to misalign the first ramp boss (221) and the second ramp boss (222) with the receptacle panel receptacle (115).

4. A socket safety door arrangement according to claim 3, characterized in that the socket panel (1) further comprises a stopper structure (112), the stopper structure (112) being arranged on the periphery side of the safety chamber (111) and the grounding hole (117).

5. The receptacle security door arrangement according to claim 3, characterized in that the first and second ramp bosses (221, 222) are in the receptacle panel receptacle (115) when the support post (21) is placed in the support post groove (113) of the receptacle panel (1).

6. A receptacle safety door apparatus according to claim 1, wherein the safety door (2) further comprises an electrode via hole (24) provided at a side close to the live wire jack, and when the first slope projection (221) and the second slope projection (222) of the driving face (22) are simultaneously pressed in the direction from the receptacle panel jack (115), the support column (21) is displaced by the first guide slope (114) of the receptacle panel (1) and the second guide slope (413) of the receptacle module (4), and the live wire plug is passed through the electrode via hole (24).

7. The outlet safety door system according to claims 1 to 6, further comprising a fixing clip (5) for connecting and fixing the outlet module (4) and the outlet panel (1).

8. The safety door device of socket according to claim 7, wherein a plurality of small spring plates (311) are disposed on two sides of the elastic reset member (3), the small spring plates (311) can be clamped in the elastic reset member mounting hole (412), and the upper portion of the elastic reset member (3) has a cross structure and a smooth connecting surface.

9. The receptacle security door apparatus of claim 7, wherein the first guide ramp (114) and the second guide ramp (413) have the same slope angle.

10. A receptacle comprising the receptacle security door apparatus of any one of claims 1-9.

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