CN212209830U - Socket module and socket - Google Patents

Abstract

The application relates to a socket module and a socket, and belongs to the technical field of sockets. The embodiment of the application provides a socket module and socket, through set up the locating part on the shutter subassembly, and set up spacing space on the plug bush subassembly, this locating part slidable sets up in this spacing space, thereby in the course of work of this protection door subassembly, along with the removal of this shutter subassembly, this locating part is spacing in this spacing space all the time, in the time of shutter subassembly can normally work, guaranteed that this shutter subassembly can not break away from the plug bush subassembly, thereby it is spacing to need not to set up other parts again to protect the door subassembly, the use of part has been reduced, the assembling process of this socket has also been simplified.

Description

Socket module and socket

Technical Field

The present application relates to the field of socket technologies, and in particular, to a socket module and a socket.

Background

The socket is a device commonly used in industrial production and daily life, and can be used as an intermediate medium to realize connection or disconnection between a power supply and electrical equipment.

In order to improve the safety of the socket, a protection door assembly is usually arranged in the socket, and the socket has the functions of preventing fingers of a person from extending into the plug bush, preventing a single pole of the plug from being inserted into the plug bush, preventing dust from falling into the plug bush and the like. Taking as an example a socket provided with a protective door assembly, the socket generally comprises: the shell, the conductive connection assembly, the at least one plug bush assembly, the at least one protection door assembly and the at least one gland are sequentially arranged in the shell from bottom to top, wherein the plug bush assembly, the protection door assembly and the gland are in one-to-one correspondence, and the gland is used for limiting the protection door through being buckled on the plug bush assembly and preventing the protection door assembly from being separated from the plug bush assembly.

However, when the socket is assembled, the protective door assembly needs to be installed on the plug bush assembly, the gland is buckled on the plug bush assembly, and finally the assembled structure is installed in the shell, so that the structure of the socket is complex, and the assembling process is complex.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a socket module and socket can carry out spacingly through the plug bush subassembly to protection door subassembly to reduce the use of other parts, simplify the assembly process of socket. The technical scheme is as follows:

in one aspect, a receptacle module is provided, comprising: the plug bush component and the protective door component;

two opposite baffle plates are arranged on two sides of the top of the plug bush component, each baffle plate is provided with a limiting space, and the limiting space is at least partially positioned at the lower part of the baffle plate;

the shutter assembly is located between the two baffles, the side walls of the shutter assembly adjacent to each baffle are provided with limiting pieces, and the limiting pieces are slidably arranged in the limiting spaces of the corresponding baffles.

In one possible design, the spacing space includes a first through slot and a first groove;

the first through groove is positioned at the lower part of the corresponding baffle and penetrates through the baffle along the thickness direction of the baffle;

the first groove is positioned on the inner surface of the corresponding baffle plate and positioned at the upper part of the baffle plate;

the upper part of the first through groove is communicated with the first groove.

In one possible design, the upper portion of the first recess has an opening.

In a possible design, a junction of the first groove and the first through groove has a chamfer.

In one possible design, the spacing space is a second groove located on the inner surface of the respective baffle.

In one possible design, the upper portion of the second recess has an opening.

In one possible design, the limiting space is a second through groove penetrating through the baffle plate along the thickness direction of the corresponding baffle plate.

In one possible design, the end of the position-limiting element has an inclined surface, and the inclined surface is inclined from the end surface of the position-limiting element to the bottom of the protection door assembly.

In one possible design, the bottom of the protective door assembly has a supporting ridge, and the retainer is located directly above the supporting ridge.

In one aspect, there is provided a socket including: at least one jack module, conductive connection assembly, and housing provided in any of the above possible designs;

the conductive connecting component and the socket module are sequentially arranged in the shell from bottom to top.

The embodiment of the application provides a socket module and socket, through set up the locating part on the shutter subassembly, and set up spacing space on the plug bush subassembly, make this locating part slidable set up in this spacing space, thereby in the course of work of this protection door subassembly, along with the removal of this shutter subassembly, this locating part is spacing in this spacing space all the time, in the time of the shutter subassembly can normally work, guaranteed that this shutter subassembly can not break away from the plug bush subassembly, thereby it is spacing to need not to set up other parts again to carry out protection door subassembly, the use of part has been reduced, the assembling process of this socket has also been simplified.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a receptacle module 1 according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a sleeve assembly 11 according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a receptacle module 1 according to an embodiment of the present disclosure;

FIG. 4 is a schematic cross-sectional view A-A of FIG. 3 provided by an embodiment of the present application;

FIG. 5 is a schematic structural view of another insert assembly 11 provided in the embodiments of the present application;

fig. 6 is a schematic structural diagram of another plug bush assembly 11 provided by the embodiment of the present application;

fig. 7 is a schematic structural diagram of yet another plug bush assembly 11 provided by an embodiment of the present application;

FIG. 8 is a schematic structural diagram of a protective door provided in an embodiment of the present application;

FIG. 9 is a schematic structural diagram of a protective door according to an embodiment of the present disclosure;

fig. 10 is a schematic structural diagram of a socket provided in an embodiment of the present application;

fig. 11 is a schematic structural diagram of an upper housing 31 according to an embodiment of the present disclosure;

fig. 12 is a schematic structural diagram of another socket provided in the embodiment of the present application;

fig. 13 is a schematic structural diagram of a cover 313 according to an embodiment of the present disclosure.

The various reference numbers in the drawings are illustrated below:

1-a socket module;

11-a sleeve assembly;

111-a baffle;

112-a spacing space;

1121-first through groove, 1122-first groove, 1123-chamfer, 1124-second groove, 1125-second through groove;

113-a mounting groove;

12-a protective door assembly;

121-a stopper;

1211-inclined plane;

122-a support ridge;

123-a drive ramp;

2-a conductive connection assembly;

3-a shell;

31-an upper shell;

311-mounting a vertical plate, 312-an upper shell body, 313-a cover body;

32-lower shell.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The protective door component is a device component which can be installed in electrical equipment and is used for shielding a conductive structure. Under the condition that personnel carried out some maloperation, the guard gate subassembly can play and keep apart the effect to conducting structure to prevent personnel from electrocuteeing. In production and life, the above-mentioned protective door assembly can be applied to electrical equipment such as sockets, wall switches and the like, for convenience of explanation, the embodiment of the present application is described by taking the example that the protective door assembly is installed in the socket module as an example, but it should be understood by those skilled in the art that the protective door assembly described below can be applied not only to the socket module but also to other electrical equipment, and thus the protection object of the present application is not limited to the protective door assembly in the socket module, and various protective door assemblies falling within the protection scope of the claims of the present application are included.

Fig. 1 is a schematic structural diagram of a receptacle module 1 according to an embodiment of the present application, please refer to fig. 1, in which the receptacle module 1 includes: a plug bush assembly 11 and a protective door assembly 12; two opposite baffle plates 111 are arranged on two sides of the top of the plug bush component 11, each baffle plate 111 is provided with a limiting space 112, and the limiting space 112 is at least partially positioned at the lower part of the baffle plate 111; the protection door assembly 12 is located between the two baffles 111, and the side wall of the protection door assembly 12 adjacent to each baffle 111 has a limiting member 121, and the limiting member 121 is slidably disposed in the limiting space 112 corresponding to the baffle 111.

The working principle of the protective door assembly 12 in the jack module 1 is described as follows:

in the socket, the socket module 1 is usually installed at the lower side of the upper housing, so that the upper housing, the shutter assembly 12 and the plug bush assembly 11 are sequentially arranged, the shutter assembly 12 is provided with driving inclined planes 123 corresponding to the jacks on the upper housing one to one, and each driving inclined plane 123 is located between one jack and the corresponding plug bush, and has a function of preventing foreign matters from entering the plug bush, for example, it is possible to prevent fingers of people from extending into the plug bush, prevent a single pole of a plug from being inserted into the plug bush, and prevent dust from falling into the plug bush, etc. When a plug is inserted into the jack downwards, the plug pin on the plug abuts against the driving inclined plane 123, and the plug pin can apply driving force to the driving inclined plane 123 to push the protective door assembly 12 to move along the horizontal direction, so that the driving inclined plane 123 is no longer located between the jack and the plug bush, the plug pin cannot be blocked from being inserted, and the inserting process of the plug pin is completed. If a single-pole plug or other foreign objects are inserted into one of the insertion holes of the upper housing, the shutter assembly 12 will not move horizontally, but will rotate downward at one end and tilt up at the other end with its own support ridge 122 as a pivot, so that the driving inclined plane 123 of the shutter assembly 12 is still located between the insertion hole and the insertion sleeve, thereby preventing the foreign objects from being inserted into the insertion sleeve of the receptacle module 1.

The socket module 1 provided by the embodiment of the present application, through setting up the limiting part 121 on the protection door assembly 12, and set up the spacing space 112 on the plug bush assembly 11, make this limiting part 121 slidable set up in this spacing space 112, thereby in the course of work of this protection door assembly 12, along with the removal of this protection door assembly 12, this limiting part 121 is spacing in this spacing space 112 all the time, in the time of protection door assembly 12 can normal use, it can not break away from plug bush assembly 11 to have guaranteed this protection door assembly 12, thereby need not to set up other parts again and carry on spacingly to the protection door assembly 12, the use of part has been reduced, the assembling process of this socket has also been simplified.

The structure of the ferrule assembly 11 in the receptacle module 1 will be described in detail below:

the insert assembly 11 includes a base and at least two inserts, two opposite baffles 111 are disposed on two sides of the top of the base, an accommodating groove capable of accommodating the protective door assembly 12 is disposed between the two baffles 111, and the at least two inserts are disposed in the base. The plug bush is made of conductive material, the plug pin is further inserted into the plug bush after being inserted into the jack to realize electrical coupling, and different plug bushes in one plug bush component 11 are used for connecting power lines with different polarities. Depending on the national standard supported by the receptacle module 1, a plug site may have a different number of sockets, for example, 2, 1 or 5 sockets, and the number of corresponding sockets is equal to that of the sockets.

With continued reference to FIG. 1, in one possible design, a first distance between two opposing baffles 111 of the insert assembly 11 is greater than or equal to a second distance between two opposing sidewalls of the shutter assembly 12 to ensure a clearance fit between the insert assembly 11 and the shutter assembly 12, for example, the first distance may be 11.4mm + -0.2 mm and the second distance may be 11mm + -0.2 mm, such that the clearance between the sidewalls of the shutter assembly 12 and the baffles 111 of the insert assembly 11 may be 0 mm-0.8 mm to ensure that the shutter assembly 12 does not disengage from the insert assembly 11.

Two opposite baffles 111 are disposed on two sides of the top of the sleeve assembly 11, each baffle 111 has a limiting space 112, and the limiting space 112 is at least partially located at a lower portion of the baffle 111, fig. 2 is a schematic structural view of the sleeve assembly 11 according to an embodiment of the present disclosure, please refer to fig. 2, in a possible design, the limiting space 112 includes a first through slot 1121 and a first groove 1122; the first through slots 1121 are located at the lower portions of the corresponding baffles 111, and penetrate through the baffles 111 along the thickness direction of the baffles 111; the first groove 1122 is located on the inner surface of the corresponding baffle 111 and is located on the upper portion of the baffle 111; the upper portion of the first through groove 1121 communicates with the first recess 1122.

In the above design, after the protection door assembly 12 is installed on the insert assembly 11, the limiting member 121 is located in the first through groove 1121, and during the operation of the protection door assembly 12, the first through groove 1121 and the first groove 1122 form a moving space of the limiting member 121 on the protection door assembly 12.

In one possible design, please refer to the structure of the receptacle module 1 provided in fig. 3-4, the length of the first through slot 1121 in the vertical direction is greater than the length of the limiting member 121, and the first through slot 1121 extends downward to the bottom of the corresponding baffle 111. On one hand, the base body can be formed through an injection molding process, namely liquid plastic needs to be injected into the mold, and after the plastic is fixed, the mold is separated from the plastic, so that the plastic can be formed into the base body. Based on the design, in order to form the first through groove 1121, the mold is a protrusion which is integrated and connected at the position, and the shape of the protrusion is the same as that of the first through groove 1121. On the other hand, since the seat body and the first through groove 1121 are both smaller in size and more finely designed components, the first through groove 1121 has a larger size under the premise that the performance of the plug bush assembly 11 is not affected by the above design, which is convenient for processing the seat body.

In one possible design, please refer to the structure of the receptacle module 1 shown in fig. 3 to 4, wherein the first groove 1122 is in clearance fit with the position-limiting member 121, so as to ensure that the position-limiting member 121 can slide smoothly in the first groove 1122. For example, the distance between the inner wall of the first groove 1122 and the outer wall of the limiting member 121 may be designed to be 0mm to 2mm, so that the first groove 1122 and the limiting member 121 are in contact or have a gap with a certain width to form a clearance fit. The existence of the first groove 1122 can ensure that the limiting member 121 can move in the first groove 1122, and the baffle 111 at the corresponding position of the first groove 1122 does not have a gap, that is, the rear wall of the first groove 1122 serves as a plate for connecting the baffles 111 at the left and right sides of the first groove 1122, so that the integrity of the corresponding baffle 111 in the plug bush assembly 11 is maintained.

In one possible design, the upper portion of the first recess 1122 has an opening that can be used as an installation channel for the protective door assembly 12 to facilitate installation of the protective door assembly 12 by an installer. In the process of installing the protection door assembly 12 on the plug bush assembly 11, the installer can move the limiting member 121 to the top end of the opening, and then push the limiting member 121 downwards to move downwards along the opening, that is, to move downwards from the top end of the plug bush assembly 11 into the limiting space 112, thereby facilitating the installation of the protection door assembly 12.

In a possible design, the connection between the first groove 1122 and the first through slot 1121 has a chamfer 1123, the limiting member 121 can move from the first groove 1122 to the first through slot 1121 along the chamfer 1123 during the process of mounting the protection door assembly 12 on the socket assembly 11, and the chamfer 1123 can reduce the moving resistance of the limiting member 121, thereby facilitating the mounting of the protection door assembly 12.

In a possible design, another structural design of the sleeve assembly 11 is provided, and referring to fig. 5, the limiting space 112 is a second groove 1124 located on the inner surface of the corresponding baffle 111, so that the outer surface of the corresponding baffle 111 has continuity and is relatively beautiful.

In one possible design, another design of the insert sleeve assembly 11 is provided, and referring to fig. 6, the upper portion of the second groove 1124 has an opening that can be used as an installation channel for the protective door assembly 12 to facilitate installation of the protective door assembly 12 by an installer. In the process of installing the protection door assembly 12 on the plug bush assembly 11, the installer can move the limiting member 121 to the top end of the opening, and then push the limiting member 121 downwards to move downwards along the opening, that is, to move downwards from the top end of the plug bush assembly 11 into the limiting space 112, thereby facilitating the installation of the protection door assembly 12.

Fig. 7 is a schematic structural diagram of another plug bush assembly 11 according to an embodiment of the present application, please refer to fig. 7, in a possible design, the limiting space 112 is a second through groove 1125 penetrating through the baffle 111 along the thickness direction of the corresponding baffle 111, the through groove structure is convenient for processing, and during the installation process of the protection door assembly 12, an installer can also observe the limiting member 121 from the outside of the plug bush assembly 11 through the second through groove 1125, so as to facilitate the smooth operation of the installation process.

The structure of the protective door assembly 12 in the jack module 1 is described in detail below:

the protective door assembly 12 includes a protective door and a resilient member, wherein the resilient member may be a spring. The protective door assembly 12 is provided with a limiting piece 121, the plug bush assembly 11 is provided with a limiting space 112, and the protective door assembly 12 is connected with the plug bush assembly 11 by installing the limiting piece 121 into the limiting space 112. In the horizontal direction, based on the elastic action of the elastic element, the protective door will be subjected to an acting force in the direction of the extension of the elastic element, so that the protective door is in the first position, namely, the position covering the plug bush, and meanwhile, the inner wall of the accommodating groove on the plug bush component 11 plays a role of stopping the protective door, so that the protective door is allowed to move in the horizontal plane, and the protective door cannot be separated from the plug bush component 11 in the horizontal direction. When the multi-pole plug pin is inserted into the jack of the upper shell at the same time during the use of the socket, the protective door moves under the pushing of the plug pin and compresses the elastic piece, and because the length direction of the limiting space 112 is parallel to the elastic piece, the limiting piece 121 of the protective door can move in the limiting space 112 along with the protective door until the protective door is at the second position, namely the position exposing the jack; when the latch is withdrawn, the resilient member, based on its own resilience, again urges the protective door assembly 12 to the first position for use. In the using process of the socket, if a single-pole plug pin or other foreign matters are inserted into one jack of the upper shell, the protective door does not move in the horizontal direction based on the structure of the protective door, but one end of the protective door moves downwards, and the other end of the protective door tilts, so that the driving inclined plane 123 (see fig. 8) of the protective door is still positioned between the jack and the plug bush until the protective door is positioned at the third position, namely the position of still closing the jack, so that the foreign matters are prevented from being inserted into the jack, and the limiting piece 121 rotates at a certain angle. In the above working process, the plug bush assembly 11 can always limit the protective door assembly 12 in the horizontal direction.

After the limiting member 121 is installed in the limiting space 112 of the plug bush assembly 11, the top wall of the limiting space 112 can limit the limiting member 121 in the vertical direction, and if the protective door moves in the working process, because the force from the plug pin received by the protective door assembly 12 has a downward component force and a horizontal component force, and only the force from the elastic member in the horizontal direction is received, the protective door assembly 12 cannot be separated from the plug bush assembly 11 upwards, so that the plug bush assembly 11 can limit the protective door assembly 12 in the vertical direction.

In conclusion, when the protective door assembly 12 can work normally, the structure limits the protective door assembly 12 from the horizontal direction and the vertical direction respectively, and ensures that the protective door assembly 12 cannot be separated from the plug bush assembly 11.

Fig. 8 is a schematic structural diagram of a protective door provided in an embodiment of the present application, and fig. 9 is a schematic structural diagram of a protective door provided in an embodiment of the present application, please refer to fig. 8-9, in a possible design, a supporting ridge 122 is provided at the bottom of the protective door assembly 12, and the limiting members 121 are located right above the supporting ridge 122, that is, two limiting members 121 extend along the same axis, so that the two limiting members 121 are stressed uniformly during the use of the protective door assembly 12, and are not easily damaged, and the protective door assembly 12 has a simple structure and is easy to produce.

In a possible design, the position-limiting member 121 is a cylinder, and the cylinder structure has a smooth outer surface, so that the position-limiting member 121 can be conveniently installed in the position-limiting space 112 of the plug assembly 11, and in the use process of the socket module 1, the smooth outer shape of the cylinder can reduce the abrasion of the position-limiting member 121 in the moving process, so that the position-limiting member 121 is not easily damaged, and the service life of the protection door assembly 12 is prolonged.

In one possible design, the end of the limiting member 121 has an inclined surface 1211, and the inclined surface 1211 inclines from the end surface of the limiting member 121 to the bottom direction of the protection door assembly 12. In the process of installing the protection door assembly 12 in the insert pocket assembly 11, the side of the protection door assembly 12 having the inclined surface 1211 is directed to the upper side of the insert pocket assembly 11, and the inclined surface 1211 is opposite to the inner wall of the insert pocket assembly 11 in the installation process, so that the protection door assembly 12 can be conveniently inserted into the insert pocket assembly 11, and the protection door assembly 12 can be conveniently and smoothly installed.

In the above embodiment, the receptacle module 1 is described, and a receptacle to which the receptacle module 1 is applied is described below.

Fig. 10 is a schematic structural diagram of a socket according to an embodiment of the present application, please refer to fig. 10, where the socket includes: at least one jack module 1, conductive connection assembly 2, and housing 3 provided in any of the above possible designs; the conductive connecting member 2 and the jack module 1 are arranged in the housing 3 in this order from the bottom upward.

In the socket, a plurality of inserting positions are arranged on the shell 3, and one inserting position corresponds to one protection door component 12 and one inserting sleeve component 11. A plurality of jacks are arranged on one plug position, the driving inclined planes 123 corresponding to the jacks one by one are arranged in the protective door component 12, and the plug bushes corresponding to the jacks one by one are arranged in the plug bush component 11, wherein each driving inclined plane 123 is positioned between one jack and one plug bush. The plug bush component 11 is connected with the protective door component 12, and the bottom end of the plug bush component 11 is connected with the conductive connecting component 2.

The assembly and use of the socket are described in detail below:

with continued reference to fig. 10, the protective door assembly 12 is pushed into the receiving slot of the insert assembly 11, that is, the side wall of the protective door assembly 12 moves downward along the baffle 111 of the receiving slot until the position-limiting member 121 of the protective door assembly 12 is inserted into the position-limiting space 112 of the insert assembly 11. The elastic member is compressed and then inserted into the receiving groove, so that both ends of the elastic member respectively abut against the receiving groove and the protective door assembly 12, thereby connecting the protective door assembly 12, the elastic member and the insert sleeve assembly 11 into a whole. Then, the whole formed by the protection door component 12 and the plug bush component 11 is arranged in the shell 3, so that the top of the protection door component 12 is abutted against the inner wall of the shell 3 or has a certain gap, and the conductive connecting component 2 is arranged in the shell 3, thus completing the assembly of the socket. After the socket is installed, because the top of the protection door assembly 12 abuts against the inner wall of the housing 3 or has a certain gap, when the protection door assembly 12 is located at any position during the use of the socket, the housing 3 can limit the protection door assembly 12, so that the protection door assembly 12 cannot be separated from the plug bush assembly 11.

The socket provided by the embodiment of the application, through set up locating part 121 on shutter subassembly 12, and set up spacing space 112 on plug bush subassembly 11, make this locating part 121 slidable set up in this spacing space 112, thereby in the course of work of this shutter subassembly 12, along with the removal of this shutter subassembly 12, this locating part 121 is spacing in this spacing space 112 all the time, in shutter subassembly 12 can normally work, guaranteed that this shutter subassembly 12 can not break away from plug bush subassembly 11, thereby need not to set up other parts again and carry out spacingly to shutter subassembly 12, the use of part has been reduced, the assembling process of this socket has also been simplified.

The structure of the conductive connection member 2 in the socket will be described in detail below:

this electrically conductive coupling assembling 2 includes many electrically conductive metal strips for couple together the power cord of different polarities and corresponding plug bush, realize that the electric property between power cord, electrically conductive coupling assembling 2, plug bush, bolt, the electrical equipment, thereby can be for the electrical equipment power supply. Two ends of each conductive metal strip in the socket are respectively connected to the inner walls of the two ends of the shell 3, and one end of each conductive metal strip is also connected with different power lines.

The conductive metal strip is a rod, and may be, for example, a cylinder, an elliptic cylinder, or a polygonal prism, which is not limited in this application. It should be noted that, a user can design the shape of each conductive metal strip according to different application scenarios to complete the conductive function. In addition, a user can design the length of each conductive metal strip according to different application scenarios, which is not limited in the embodiment of the present application.

The conductive metal strip is made of a conductive material for conducting current from the power line to the connected plug bush assembly 11, for example, copper.

The structure of the housing 3 in the socket will be described in detail below:

in one possible design, the housing 3 comprises an upper housing 31 and a lower housing 32; the upper shell 31 is positioned on the protective door assembly 12, and the driving inclined planes 123 on the protective door assembly 12 correspond to the jacks of the upper shell 31 one by one, so that the structure is simpler, and the appearance is more attractive.

Referring to fig. 2, the top of the sleeve assembly 11 further has two concave vertical plates with opposite openings, and the concave vertical plates have mounting slots 113 inside; referring to fig. 11, the upper housing 31 has a mounting vertical plate 311 adapted to the mounting groove, and the mounting vertical plate 311 of the upper housing 31 is limited in the mounting groove of the plug bush assembly 11 to limit each receptacle module 1, so as to facilitate the mounting of the receptacle module 1.

Fig. 12 is a schematic structural diagram of another socket provided in the embodiment of the present application, please refer to fig. 12, and in a possible design, the upper housing 31 includes: an upper housing body 312 and at least one cover 313; the upper housing body 312 has at least one mounting hole in which the cover 313 is located; the cover 313 is disposed on the protective door assembly 12, and the driving inclined planes 123 on the protective door assembly 12 correspond to the insertion holes on the cover 313 one by one. In the above structure, the cover 313 is a structure that can be separated from the upper casing body 312, and is flexible to be mounted on and dismounted from the upper casing body 312. Fig. 13 is a schematic structural diagram of a cover 313 according to an embodiment of the present disclosure, please refer to fig. 13, in which the cover 313 has a mounting vertical plate 311 adapted to the mounting groove, and the mounting vertical plate 311 of the upper housing 31 is limited in the mounting groove of the plug bush assembly 11 to connect the upper housing 31 and the receptacle module 1, so as to facilitate the mounting of the receptacle module 1.

The process of assembling the socket may be: the protective door assembly 12 is pushed into the receiving groove of the insert sleeve assembly 11, that is, the side wall of the protective door assembly 12 moves downward along the baffle 111 of the receiving groove until the position-limiting member 121 of the protective door assembly 12 is inserted into the position-limiting space 112 of the insert sleeve assembly 11. The elastic member is compressed and then inserted into the receiving groove, so that both ends of the elastic member respectively abut against the receiving groove and the protective door assembly 12, thereby connecting the protective door assembly 12, the elastic member and the insert sleeve assembly 11 into a whole. Then, the cover 313 is covered on the protection door assembly 12, and the conductive connecting assembly 2 is installed at the bottom of the plug bush assembly 11, so as to form an integral module comprising the cover 313, the protection door assembly 12, the plug bush assembly 11 and the conductive connecting assembly 2. After the assembling process is completed, the integral module may be first installed in the lower housing 32, and then the upper housing 31 may be fastened to the lower housing 32, or the integral module may be first installed in the upper housing 31, and then the lower housing 32 and the upper housing 31 may be fastened to complete the assembling of the socket.

In summary, no matter the upper housing 31 is an integrally formed structure, or a split structure formed by the upper housing body 312 and the cover 313, the receptacle module 1 provided in this embodiment can be adapted thereto, so that the receptacle module 1 is suitable for being widely applied to various types of receptacles.

All the above optional technical solutions may be combined arbitrarily to form optional embodiments of the present application, and are not described herein again.

The socket module 1 and the socket provided by the embodiment of the application, through setting up the limiting part 121 on the protection door component 12, and set up the spacing space 112 on the plug bush component 11, make this limiting part 121 slidable set up in this spacing space 112, thereby in the course of work of this protection door component 12, along with the removal of this protection door component 12, this limiting part 121 is spacing in this spacing space 112 all the time, in the time of protection door component 12 can normally work, it can not break away from plug bush component 11 to have guaranteed this protection door component 12, thereby need not to set up other parts again and carry out spacingly to the protection door component 12, the use of part has been reduced, the assembling process of this socket has also been simplified.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. A jack module (1), characterized in that the jack module (1) comprises: the plug bush component (11) and the protective door component (12);

two opposite baffle plates (111) are arranged on two sides of the top of the plug bush component (11), each baffle plate (111) is provided with a limiting space (112), and the limiting space (112) is at least partially positioned at the lower part of the baffle plate (111);

the protection door assembly (12) is located between the two baffles (111), the side walls of the protection door assembly (12) adjacent to the baffles (111) are provided with limit pieces (121), and the limit pieces (121) are slidably arranged in limit spaces (112) of the corresponding baffles (111).

2. The jack module (1) of claim 1, wherein the retention space (112) includes a first through slot (1121) and a first groove (1122);

the first through grooves (1121) are positioned at the lower parts of the corresponding baffles (111) and penetrate through the baffles (111) along the thickness direction of the baffles (111);

the first grooves (1122) are positioned on the inner surface of the corresponding baffle plate (111) and positioned on the upper part of the baffle plate (111);

the upper portion of the first through groove (1121) communicates with the first groove (1122).

3. The jack module (1) of claim 2, wherein the upper portion of the first recess (1122) has an opening.

4. The jack module (1) of claim 2, wherein the junction of the first groove (1122) and the first through slot (1121) has a chamfer (1123).

5. The jack module (1) of claim 1, wherein the retention space (112) is a second groove (1124) located on an inner surface of the respective shutter (111).

6. The jack module (1) of claim 5, wherein the second recess (1124) has an opening at an upper portion thereof.

7. The jack module (1) of claim 1, wherein the spacing space (112) is a second through slot (1125) extending through the respective flap (111) in a thickness direction of the flap (111).

8. The jack module (1) according to claim 1, wherein the end of the retainer (121) has a slope (1211), the slope (1211) sloping from the end of the retainer (121) toward the bottom of the protection door assembly (12).

9. The jack module (1) of claim 1, wherein the protective door assembly (12) has a supporting ridge (122) at the bottom, and the stop (121) is located directly above the supporting ridge (122).

10. A socket, comprising: at least one receptacle module (1) according to any of claims 1 to 9, a conductive connection assembly (2) and a housing (3);

the shell (3) is internally provided with the conductive connecting component (2) and the socket module (1) which are sequentially arranged from bottom to top.

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