CN218456162U - Socket with improved structure - Google Patents

Abstract

The utility model discloses a socket belongs to the electrical technology field. The socket comprises a strong current socket module, a weak current module, a shell, a first cover body and a second cover body; the housing includes: the first cover body and the second cover body are respectively positioned at a first port and a second port of the side wall part, the support part is positioned in the side wall part, and the support part is provided with a first connecting structure; the strong current socket module comprises a plurality of plug bush assemblies, wherein second connecting structures are arranged on the plug bush assemblies, and the first connecting structures are connected with the second connecting structures so that the plug bush assemblies are positioned in the side wall parts; the weak current module is positioned in the side wall part and electrically connected with the strong current socket module. Through set up the support portion in side wall portion inside to allow a plurality of plug bush subassemblies independently to assemble to the shell respectively, this not only makes the assembling process of forceful electric power socket module more simple and convenient high-efficient, and has reduced the overall structure design requirement to forceful electric power socket module, does benefit to and simplifies its structure.

Description

Socket with improved structure

Technical Field

The utility model relates to an electrical technology field, in particular to socket.

Background

The magic cube socket is arranged in a three-dimensional structure and is provided with a plurality of jack faces, a plurality of plugs can be loaded at the same time, and mutual interference among the plugs can be avoided.

In the related art, a strong current socket module and a weak current module are arranged in the magic cube socket, wherein the strong current socket module comprises a plug bush component, a copper bar and a connecting piece, one end of the copper bar is connected to a first position of the connecting piece, and the other end of the copper bar and the plug bush component are connected to a second position of the connecting piece together, so that the strong current socket module can be matched and plugged into a shell of the magic cube socket. The weak current module is close to the strong current socket module and is positioned in the shell of the magic cube socket.

However, the magic cube socket provided by the related art requires assembling the socket assembly, the copper bar and the connecting piece to form the strong electric socket module, and then integrally installing the strong electric socket module into the housing, which has high requirements on the overall structure design of the strong electric socket module, low structure fault tolerance, and complicates the assembly process of the strong electric socket module.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a socket can solve the technical problem who exists among the correlation technique.

Specifically, the method comprises the following technical scheme:

a socket comprises a strong current socket module, a weak current module, a shell, a first cover body and a second cover body;

the housing includes: the first cover body and the second cover body are respectively positioned at a first port and a second port of the side wall part, the support part is positioned in the side wall part, and the support part is provided with a first connecting structure;

the strong current socket module comprises a plurality of plug bush assemblies, wherein a second connecting structure is arranged on each plug bush assembly, and the first connecting structure is connected with the second connecting structure so that the plug bush assemblies are positioned in the side wall parts;

the weak current module is positioned in the side wall part and is electrically connected with the strong current socket module.

In some possible implementations, the bracket portion is integrally formed inside the side wall portion.

In some possible implementations, the bracket portion includes: a partition and a bracket;

the partition plate is connected to the inner side wall of the side wall part so as to divide an inner cavity of the side wall part into a first cavity and a second cavity, the first cavity is used for accommodating the strong current socket module, and the second cavity is used for accommodating the weak current module;

the support is connected to the surface of the partition plate, which is located on the first cavity, and the first connecting structure is located on the side wall of the support.

In some possible implementations, the sleeve assembly includes: the plug bush comprises a plug bush seat and a plug bush positioned on the plug bush seat;

the support comprises a plurality of supporting plates, and the supporting plates correspond to the plug bush assemblies one by one;

the first connecting structure is positioned on the side wall of the supporting plate, and the second connecting structure is positioned on the side wall of the socket seat;

the plug bush component is clamped between the corresponding supporting plate and the corresponding inner side wall of the side wall portion and is connected with the first connecting structure through the second connecting structure.

In some possible implementations, the inner side wall of the side wall portion has a plurality of guide ribs thereon, and the guide ribs are used for guiding the insertion of the plug bush assembly into the first cavity and positioning the plug bush assembly.

In some possible implementations, the first connection structure and the second connection structure are adaptive snap connection structures.

In some possible implementations, the high power outlet module includes: the plug bush component comprises a plurality of plug bush components, an L-pole connecting strip and an N-pole connecting strip;

the plug bush component comprises a plug bush seat, and an L-pole plug bush and an N-pole plug bush which are positioned on the plug bush seat;

the L utmost point connecting strip with all have a plurality of connection positions on the N utmost point connecting strip, the L utmost point connecting strip passes through a plurality of connection positions with a plurality of L utmost point plug bush electric connection of a plurality of plug bush subassemblies, the N utmost point connecting strip passes through a plurality of connection positions with a plurality of N utmost point plug bush electric connection of a plurality of plug bush subassemblies.

In some possible implementations, the L-pole connecting bar and the N-pole connecting bar are both located at the same end of the plurality of sleeve assemblies.

In some possible implementations, the high voltage socket module further includes a plurality of E-pole connecting bars, and the E-pole connecting bar, the L-pole connecting bar, and the N-pole connecting bar are all located at the same end of the plurality of plug bush assemblies;

the plug bush component also comprises an E pole plug bush positioned on the plug bush seat;

the E pole connecting strip is provided with a plurality of connecting positions and is electrically connected with a plurality of E pole plug bushes of the plug bush assemblies through the connecting positions.

In some possible implementations, the connection locations are hole-shaped to allow insertion of the mating end of the corresponding socket.

The embodiment of the utility model provides a technical scheme's beneficial effect includes at least:

the embodiment of the utility model provides a socket, the structure to the shell is improved, make the shell set up to the support portion including side wall portion and the inside that is located side wall portion, set up first connection structure in support portion, be provided with second connection structure on forceful electric power socket module's the plug bush subassembly separately, like this, can assemble a plurality of plug bush subassemblies to the inner chamber of side wall portion separately independently, second connection structure on the plug bush subassembly is connected in the first connection structure on support portion, in order to realize the stable assembly of forceful electric power socket module in side wall portion inner chamber. It is therefore clear that the embodiment of the utility model provides a socket, through the design of support portion to allow a plurality of plug bush subassemblies to assemble to the shell independently separately, this not only makes the assembly process of forceful electric power socket module more simple and efficient, and has reduced the overall structure design requirement to forceful electric power socket module, does benefit to and simplifies its structure.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained without creative efforts.

Fig. 1 is a combination diagram of an exemplary receptacle according to an embodiment of the present invention;

fig. 2 is an exploded view of an exemplary receptacle provided by an embodiment of the present invention;

fig. 3 is a cross-sectional view of an exemplary receptacle provided by an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an exemplary housing according to an embodiment of the present invention;

fig. 5 is a cross-sectional view of an exemplary housing provided by an embodiment of the present invention;

FIG. 6 is a diagram illustrating an exemplary high voltage electrical outlet module according to an embodiment of the present invention;

fig. 7 is an exploded view of an exemplary high voltage electrical outlet module according to an embodiment of the present invention, wherein one of the three socket assemblies is further exploded.

The reference numerals denote:

1. a high voltage socket module;

11. a sleeve assembly; 110. a second connecting structure; 111. a socket base; 1121. an L pole plug bush; 1122. an N-pole plug bush; 1123. e pole plug bush; 1120. a plug end; 121. an L-pole connecting strip; 122. an N-pole connecting strip; 123. an E pole connecting strip; 130. a connection bit;

2. a weak current module;

3. a housing;

31. a side wall part; 310. a guide rib; 311. a first cavity; 312. a second cavity; 32. a bracket part; 320. a first connecting structure; 321. a partition plate; 322. a support; 3221. a support plate; 3222. reinforcing ribs;

4. a first cover body; 5. a second cover body.

Embodiments of the present invention have been illustrated by the accompanying drawings and described in more detail below. The drawings and the description are not intended to limit the scope of the inventive concept in any way, but rather to illustrate it by those skilled in the art with reference to specific embodiments.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that some terms of orientation are based on the orientation or positional relationship shown in the drawings, and are used only for convenience of description and simplicity of description, but do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be taken as limiting the invention. In the embodiments of the present invention, terms such as "upper", "lower", "side", and the like are generally used with reference to relative relationships between the orientations shown in fig. 3, and these orientation terms are used merely for describing the structures and the relationships between the structures more clearly, and are not used for describing absolute orientations. When the product is placed in different postures, the orientation may be changed, for example, "up" and "down" may be interchanged.

In order to make the technical solutions and advantages of the present invention clearer, the following will describe the embodiments of the present invention in further detail with reference to the accompanying drawings.

In the magic cube socket that provides to the correlation technique, its overall structure design requirement to forceful electric power socket module is higher, and has complicated forceful electric power socket module's assembling process, the embodiment of the utility model provides a improve the socket to solve the technical problem that correlation technique exists.

As shown in fig. 1 to fig. 3, the socket provided by the embodiment of the present invention includes a strong current socket module 1, a weak current module 2, a housing 3, a first cover 4 and a second cover 5; the outer shell 3 comprises a side wall part 31 and a support part 32, the first cover body 4 and the second cover body 5 are respectively positioned at a first port and a second port of the side wall part 31, the support part 32 is positioned in the side wall part 31, and the support part 32 is provided with a first connecting structure 320; the strong current socket module 1 comprises a plurality of plug bush assemblies 11, wherein the plug bush assemblies 11 are provided with second connecting structures 110, so that the plug bush assemblies 11 are positioned in the side wall parts 31; the weak current module 2 is located inside the side wall portion 31 and electrically connected to the strong current socket module 1.

The embodiment of the utility model provides a socket, the structure to shell 3 has improved, make shell 3 set up to including side wall portion 31 and the support portion 32 that is located the inside of side wall portion 31, set up first connection structure 320 on support portion 32, be provided with second connection structure 110 on forceful electric power socket module 1's the plug bush subassembly 11 separately, thus, can assemble a plurality of plug bush subassemblies 11 to the inner chamber of side wall portion 31 separately independently, second connection structure 110 on the plug bush subassembly 11 connects the first connection structure 320 on support portion 32, in order to realize the stable assembly of forceful electric power socket module 1 in side wall portion 31 inner chamber.

It can be seen that the embodiment of the utility model provides a socket, through the design of support portion 32 to allow a plurality of plug bush subassemblies 11 to assemble to shell 3 independently separately, this not only makes the assembling process of forceful electric power socket module 1 more simple and efficient, and has reduced the overall structure design requirement to forceful electric power socket module 1, does benefit to and simplifies its structure.

The structure of the various components involved in the socket and their function are further described below:

in some examples, the socket provided by the embodiment of the present invention is a magic cube socket, and for each plug bush component 11, the side wall portion 31 of the housing 3 is correspondingly provided with a jack surface, and the shape of the housing 3 is determined according to the number of the plug bush components 11, the type of the weak current module 2, and the like.

For example, when the high voltage socket module 1 includes three or four plug assemblies 11, the side wall portion 31 may be formed in a regular rectangular frame shape or an irregular rectangular frame-like shape.

Fig. 1 and 2 illustrate that the number of the plug bush assemblies 11 is three, so that the side wall portions 31 are configured in a rectangular frame-like shape, three sides of which are respectively flat and respectively provided with the insertion holes as insertion hole surfaces, and the other side of which is used as a bottom supporting surface, which can be flat, and can also be in a bent structure as shown in fig. 2.

The side wall portion 31 has a first port and a second port which are opposite to each other, the first cover 4 is mounted to the first port of the side wall portion 31, and the second cover 5 is mounted to the second port of the side wall portion 31. The connection manner between the first cover body 4 and the second cover body 5 and the side wall portion 31 includes but is not limited to: snap connection, plug-in connection, riveting, screw connection, etc.

One of the first cover 4 and the second cover 5 is provided with a hole structure corresponding to the weak current module 2, which may be, for example, a jack, a display hole, or the like. Fig. 1 illustrates that the first cover 4 is provided with a hole structure corresponding to the weak current module 2, which means that the weak current module 2 is abutted by the first cover 4 and limited in the inner cavity of the side wall portion 31.

The bracket portion 32 disposed in the inner cavity of the side wall portion 31 is used for supporting and connecting the sleeve assembly 11, and in some examples, the bracket portion 32 is integrally formed inside the side wall portion 31.

With such an arrangement, not only the strength of the side wall portion 31 can be improved, but also the assembling process of the socket can be further simplified, because the assembling of the bracket portion 32 is not required. For example, the housing 3 provided by the embodiment of the present invention is integrally prepared by an injection molding process.

In some examples, as shown in fig. 3, the bracket portion 32 includes a partition 321 and a bracket 322, and as can be further seen from fig. 4 and 5, the partition 321 is connected to the inner sidewall of the side wall portion 31 to divide the inner cavity of the side wall portion 31 into a first cavity 311 and a second cavity 312, where the first cavity 311 is used for accommodating the high power socket module 1, and the second cavity 312 is used for accommodating the low power module 2; the bracket 322 is connected to the surface of the partition 321 located in the first cavity 311, and the first connecting structure 320 is located on the sidewall of the bracket 322.

By providing the bracket portion 32 to include the partition 321 and the bracket 322, on the one hand, the high voltage outlet module 1 can be seated on the partition 321, so that the partition 321 can support the high voltage outlet module 1, and the bracket 322 can be connected to the socket assembly 11 of the high voltage outlet module 1 to achieve positioning, which can improve the assembly stability of the strength outlet module therein. On the other hand, the partition 321 separates the inner cavity of the side wall portion 31 into a first cavity 311 and a second cavity 312, the first cavity 311 is used for accommodating the strong current socket module 1, and the second cavity 312 is used for accommodating the weak current module 2, so that the strong current socket module 1 and the weak current module 2 are separated by the partition 321 and arranged in different cavities, and the influence of the temperature rise of the strong current socket module 1 on the weak current module 2 can be effectively avoided.

For example, when the weak current module 2 includes the USB connector, since the output power of the USB connector itself is large and the temperature rise of the USB connector itself is also high, then, under the situation that the strong current socket module 1 generates heat due to the load, the heat generated by the strong current socket module 1 is blocked by the partition 321, and the transfer to the weak current module 2 is significantly reduced, so that the temperature rise of the weak current module 2 is not too large, which is favorable for the temperature rise test of the weak current module 2, and meets the requirement of safety regulations on the temperature rise of the socket.

One end of the bracket 322 is connected to the surface of the partition 321, the other end extends along the depth direction of the first cavity 311, the bracket 322 may be a solid structure or a hollow structure, and the bracket 322 having the hollow structure has a certain elastic deformation capability, which is more beneficial to the smooth insertion of the plug bush assembly 11 into the inner cavity of the side wall portion 31.

In some examples, the high voltage electric outlet module 1 includes a plurality of plug bush assemblies 11, the plug bush assemblies 11 include plug bush seats 111 and plug bushes located on the plug bush seats 111; accordingly, as can be seen from fig. 5, the support 322 includes a plurality of supporting plates 3221, and the plurality of supporting plates 3221 correspond to the plurality of insert sleeve assemblies 11 one to one; the first connecting structure 320 is located on the sidewall of the supporting plate 3221, and the second connecting structure 110 is located on the sidewall of the socket 111; the insert sleeve assembly 11 is clamped between the corresponding supporting plate 3221 and the corresponding inner side wall of the side wall portion 31 and connected with the first connecting structure 320 through the second connecting structure 110.

By providing a plurality of supporting plates 3221, each supporting plate 3221 cooperates with a corresponding inner side wall of the side wall portion 31 to form an accommodating cavity, and the accommodating cavity is used for accommodating and limiting the plug bush assembly 11, specifically, limiting the plug bush seat 111.

The support 322 is provided in a form including a plurality of supporting plates 3221, so that the supporting plates 3221 can be elastically deformed under a certain pressure, on the premise of ensuring stable assembly of the plurality of insert sleeve assemblies 11, which facilitates smooth assembly of the insert sleeve seats 111 into the corresponding accommodating cavities in a clamping state.

For the socket base 111, it includes the seat at least, and the plug bush holds and is fixed a position in the seat, and further, the socket base 111 can also include the protection door structure spare, and a port department that the protection door structure spare lid was located the seat plays the guard action.

The support 322 includes a plurality of supporting plates 3221 connected in sequence, and in some examples, the support 322 has a shape of a closed-sided frame, so that more than one supporting plate or supporting plates 3221 may be disposed in the support 322, so that the side of the support 322 is closed.

In some examples, as shown in fig. 4, the supporting frame 322 may further include a plurality of reinforcing ribs 3222, the reinforcing ribs 3222 are disposed on a surface of the supporting board 3221 facing away from the inserting sleeve assembly 11, and one end of the reinforcing ribs 3222 is connected to the partition 321. The structural stability of the supporting plate 3221 can be improved by providing the reinforcing ribs 3222, and the supporting effect of the supporting plate on the insert sleeve assembly 11 can be further improved.

As mentioned above, each supporting plate 3221 cooperates with the corresponding inner side wall of the side wall portion 31 to form a receiving cavity, and the receiving cavity includes a first cavity wall and a second cavity wall which are oppositely disposed, the first cavity wall is provided by the supporting plate 3221, and the second cavity wall is provided by the side wall portion 31, in some examples, two opposite outer side walls of the socket seat 111 of the socket assembly 11 respectively abut against the first cavity wall and the second cavity wall, so as to achieve positioning in the receiving cavity.

In some examples, as shown in fig. 4, the inner sidewall of the side wall portion 31 has a plurality of guiding ribs 310, and the guiding ribs 310 are used for guiding the insertion of the sleeve assembly 11 into the first cavity 311 and positioning the sleeve assembly 11. For example, for each sleeve assembly 11, the number of the guide ribs 310 is two, the two guide ribs 310 are arranged at intervals, and the axial direction of the guide ribs 310 is the same as the insertion direction of the sleeve assembly 11 into the first cavity 311.

When the sleeve assembly 11 is inserted downwards into the first cavity 311, it is positioned between the two guiding ribs 310, so that the guiding ribs 310 can guide the downward insertion movement of the sleeve assembly 11. Meanwhile, a positioning gap is formed between the two guiding ribs 310, and the socket base 111 is inserted into the positioning gap in a matching manner, so that the guiding ribs 310 can also position the socket assembly 11.

As mentioned above, each supporting plate 3221 cooperates with the corresponding inner sidewall of the side wall portion 31 to form a containing cavity, which includes the first cavity wall and the second cavity wall oppositely disposed, and the second cavity wall is provided by the side wall portion 31, that is, the guiding rib 310 is disposed on the second cavity wall. In this way, the opposite first and second sides of the socket 111 are positioned by the first and second cavity walls, respectively, and the opposite third and fourth sides of the socket 111 are positioned by the two guiding ribs 310, respectively.

The embodiment of the present invention relates to a first connection structure 320 and a second connection structure 110, which can be detachable connection structures of the same adaptation, for example, the first connection structure 320 and the second connection structure 110 are buckle connection structures of the same adaptation.

As can be seen from fig. 3, the first connecting structure 320 is a first latch disposed on a sidewall of the supporting board 3221, the second connecting structure 110 is a second latch disposed on a sidewall of the socket 111, the first latch includes a first inclined guiding surface and a first horizontal latching surface adjacent to each other, the first horizontal latching surface is located below the first inclined guiding surface, the second latch includes a second inclined guiding surface and a second horizontal latching surface adjacent to each other, and the second horizontal latching surface is located above the second inclined guiding surface.

During application, the plug bush seat 111 is inserted into the accommodating cavity between the support plate 3221 and the side wall portion 31, the second inclined guide surface of the second buckle is inserted downwards along the first inclined guide surface of the first buckle, the first inclined guide surface and the second inclined guide surface are smoothly matched and guide the insertion process, and after the plug bush seat 111 is inserted in place, the first horizontal clamping surface of the first buckle is abutted to the second horizontal clamping surface of the second buckle, so that the plug bush seat 111 is effectively prevented from being freely separated from the accommodating cavity in the direction opposite to the insertion direction.

In the socket provided by the embodiment of the present invention, the strong electric power socket module 1 includes a plurality of plug bush assemblies 11, the number of the plug bush assemblies 11 is two, three, four or more, for each plug bush assembly 11, as can be known by referring to fig. 6 and 7, it includes the plug bush seat 111 and the L-pole plug bush 1121 and the N-pole plug bush 1122 located on the plug bush seat 111.

Further, as shown in fig. 6 and 7, the electric outlet module 1 further includes an L-pole connecting bar 121 and an N-pole connecting bar 122. The L-pole connecting bar 121 and the N-pole connecting bar 122 each have a plurality of connecting sites 130, the N-pole connecting bar 122 is electrically connected to the N-pole sockets 1122 of the plug bush assemblies 11 through the connecting sites 130, and the L-pole connecting bar 121 is electrically connected to the L-pole sockets 1121 of the plug bush assemblies 11 through the connecting sites 130.

The position that sets up connection position 130 on L utmost point connecting strip 121 and the N utmost point connecting strip 122 is corresponding with the position of a plurality of N utmost point plug bushes 1122 in a plurality of plug bush subassemblies 11 and the free end of a plurality of L utmost point plug bushes 1121, the embodiment of the utility model provides an L utmost point connecting strip 121 through making an integral type is electric connection a plurality of L utmost point plug bushes 1121 in a plurality of plug bush subassemblies 11 simultaneously to and, make the N utmost point connecting strip 122 of an integral type be electric connection a plurality of N utmost point plug bushes 1122 in a plurality of plug bush subassemblies 11 simultaneously, can form the equipment of forceful electric power socket module 1, this equipment mode is not only more simple and convenient high-efficient, and safe and reliable more.

In some examples, as shown in fig. 6, the L-pole connecting bar 121 and the N-pole connecting bar 122 are both located at the same end of the plurality of sleeve assemblies 11. By arranging the L-pole connecting strips 121 and the N-pole connecting strips 122 at the ends of the plurality of plug bush assemblies 11, it is advantageous to increase the operable space, simplify the assembly process of the electric power socket module 1, and improve the assembly efficiency.

In this case, the free ends of the L-pole sleeve 1121 and the N-pole sleeve 1122 can both be extended out of the sleeve seat 111 and are both located on the same side of the sleeve seat 111, and the L-pole connecting bar 121 and the N-pole connecting bar 122 can be connected to the free ends of the L-pole sleeve 1121 and the N-pole sleeve 1122 outside the sleeve seat 111.

For the socket provided by the embodiment of the present invention, the strong electricity socket module 1 therein may correspond to a two-hole socket, may also correspond to a three-hole socket, and may also correspond to a five-hole socket, in order to adapt to a three-hole socket and a five-hole socket, as shown in fig. 6 and fig. 7, the strong electricity socket module 1 further includes a plurality of E-pole connecting strips 123, the E-pole connecting strip 123, the L-pole connecting strip 121, and the N-pole connecting strip 122 are all located at the same end of the plurality of inserting sleeve assemblies 11; the sleeve assembly 11 also includes an E-pole sleeve 1123 on the sleeve mount 111; the E-pole connecting bar 123 has a plurality of connecting sites 130 thereon, and the E-pole connecting bar 123 is electrically connected to the E-pole sockets 1123 of the socket assemblies 11 through the connecting sites 130.

The function and assembly position of the E-pole connecting bar 123 are the same as those of the L-pole connecting bar 121 and the N-pole connecting bar 122, and are not described in detail herein.

In some examples, the N-pole connecting bar 122, the L-pole connecting bar 121, and the optional E-pole connecting bar 123 according to embodiments of the present invention are all integrated copper bars.

By way of example, three plug assemblies 11 are provided, three plug assemblies 11 can be arranged in a shape of a Chinese character 'ji', and the L-pole connecting bar 121, the N-pole connecting bar 122 and the E-pole connecting bar 123 can be adaptively designed to include a horizontal main body segment and a vertically extending segment connected with two ends of the horizontal main body segment at an included angle.

In some examples, the L-pole connecting strip 121, the N-pole connecting strip 122 and the E-pole connecting strip 123 are sequentially arranged from outside to inside, that is, the L-pole connecting strip 121 is located at the outermost side (closer to the inner wall of the side wall portion 31) and has the longest length, and the E-pole connecting strip 123 is located at the innermost side (closer to the bracket portion 32) and has the shortest length, so that the high power outlet module 1 has stronger safety.

The connection between the N-pole connecting strip 122, the L-pole connecting strip 121, and the optional E-pole connecting strip 123 and the corresponding plug bushes includes, but is not limited to, welding, screwing, and the like, and in some examples, the connection between the connecting strips and the plug bushes is achieved using a welding manner.

In some examples, as shown in fig. 6 and 7, the connection sites 130 on the N-pole, L-pole, and optional E-pole connection bars 122, 121, 123 are porous to allow insertion of the mating end 1120 of the corresponding socket. The plug end 1120 of the socket referred to herein is the free end of the socket mentioned above.

That is, the connection positions 130 of the N-pole connection bar 122 are all hole-shaped to allow the insertion ends 1120 of the N-pole sockets 1122 to be inserted, the connection positions 130 of the L-pole connection bar 121 are all hole-shaped to allow the insertion ends 1120 of the L-pole sockets 1121 to be inserted, and the connection positions 130 of the E-pole connection bar 123 are all hole-shaped to allow the insertion ends 1120 of the E-pole sockets 1123 to be inserted.

Through set up poroid connection position 130 on the connecting strip, like this, the grafting end 1120 of plug bush can insert to this connection position 130 at first and realize preliminary location, then makes the connecting strip carry out fixed connection with the grafting end 1120 of plug bush through the welding mode again, and this is showing the assembly reliability that has improved the connecting strip and has improved the assembly efficiency of connecting strip.

Moreover, the above-mentioned E-pole connecting bar 123, L-pole connecting bar 121 and N-pole connecting bar 122 are all located at the same end of the plurality of plug bush assemblies 11, which makes the welding operation space large enough, makes the welding operation easier, and is extremely advantageous for simplifying the assembly process of the high voltage electric outlet module 1 and improving the assembly efficiency thereof.

In some examples, the shape of the hole-like connection site 130 matches the shape of the insertion end 1120 of the plug housing, e.g., both are rectangular shapes that are easily formed.

In summary, the assembly process of the strong current socket module 1 according to the embodiment of the present invention can be as follows:

providing a plurality of plug bush assemblies 11, and respectively assembling the plurality of plug bush assemblies 11 into the housing 3, specifically, each plug bush assembly 11 is assembled into an accommodating cavity formed by the side wall portion 31 and the bracket portion 32 in a matching manner, and the second connecting structure 110 on the plug bush seat 111 of the plug bush assembly 11 is connected with the first connecting structure 320 on the supporting plate 3221 of the bracket portion 32, so as to realize the positioning of the plug bush assembly 11 in the housing 3.

Then, the N-pole connecting strip 122, the L-pole connecting strip 121, and the optional E-pole connecting strip 123 are respectively assembled to the multiple plug bush assemblies 11, specifically, the N-pole connecting strip 122, the L-pole connecting strip 121, and the optional E-pole connecting strip 123 are sleeved into the plug ends 1120 of the corresponding plug bushes through the hole-shaped connecting positions 130, and then are sequentially welded, so that the assembly of the high voltage socket module 1 is completed.

For the weak current module 2, which includes but is not limited to a weak current socket module, a USB socket module, a network cable connector module, a display module, etc., the weak current module 2 includes at least a printed circuit board and functional components electrically connected to the printed circuit board, which include but are not limited to a USB functional component, a network cable connector functional component, a display functional component, etc., according to the specific type of the weak current module 2.

In the embodiment of the present invention, the weak current module 2 is located in the second cavity 312, and the strong current socket module 1 is located in the first cavity 311, both of which are separated by the partition 321, wherein the printed circuit board of the weak current module 2 is electrically connected to the L-pole connecting strip 121 and the N-pole connecting strip 122 of the strong current socket module 1 through the opening hole formed on the partition 321 by the conducting wire.

Through effectively separating weak current module 2 and forceful electric power socket module 1, and arrange different cavitys in, the influence of the temperature rise when can effectively reduce 1 loads of forceful electric power socket module (for example fully loaded) to weak current module 2's temperature rise improves the security of socket.

In some examples, the printed circuit board of the weak current module 2 abuts against the partition 321, the other end of the weak current module 2 abuts against the first cover 4, and the first cover 4 is provided with a hole structure corresponding to the weak current module 2.

It should be noted that the embodiment of the present invention provides a socket, which further includes a power line, a power line bracket, a switch, etc., wherein the power line is electrically connected to the switch, the switch can be electrically connected to the L-pole connecting strip 121 through a jumper, and the power line bracket is used for supporting and positioning the power line. In some examples, the second cover 5 is provided with hole structures corresponding to the power line and the switch member, respectively.

In embodiments of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The term "plurality" means two or more unless explicitly defined otherwise.

The above description is only for facilitating the understanding of the technical solutions of the present invention by those skilled in the art, and is not intended to limit the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A socket, comprising: the power socket comprises a strong current socket module (1), a weak current module (2), a shell (3), a first cover body (4) and a second cover body (5);

the housing (3) comprises: the side wall part (31) and the bracket part (32), the first cover body (4) and the second cover body (5) are respectively positioned at a first port and a second port of the side wall part (31), the bracket part (32) is positioned inside the side wall part (31), and the bracket part (32) is provided with a first connecting structure (320);

the strong electric socket module (1) comprises a plurality of plug bush assemblies (11), wherein a second connecting structure (110) is arranged on each plug bush assembly (11), and the first connecting structure (320) is connected with the second connecting structure (110) so that the plug bush assemblies (11) are positioned inside the side wall parts (31);

the weak current module (2) is positioned in the side wall part (31) and is electrically connected with the strong current socket module (1).

2. The socket according to claim 1, wherein the leg portion (32) is integrally formed inside the side wall portion (31).

3. The socket according to claim 1, wherein the bracket portion (32) comprises: a partition plate (321) and a bracket (322);

the partition plate (321) is connected to the inner side wall of the side wall part (31) to divide the inner cavity of the side wall part (31) into a first cavity (311) and a second cavity (312), the first cavity (311) is used for accommodating the strong current socket module (1), and the second cavity (312) is used for accommodating the weak current module (2);

the bracket (322) is connected to the surface of the partition plate (321) located in the first cavity (311), and the first connecting structure (320) is located on the side wall of the bracket (322).

4. A socket according to claim 3, wherein the sleeve assembly (11) comprises: the plug bush comprises a plug bush seat (111) and a plug bush positioned on the plug bush seat (111);

the support (322) comprises a plurality of supporting plates (3221), and the supporting plates (3221) correspond to the plug bush assemblies (11) one by one;

the first connecting structure (320) is located on a side wall of the supporting plate (3221), and the second connecting structure (110) is located on a side wall of the socket seat (111);

the insert sleeve assembly (11) is clamped between the corresponding supporting plate (3221) and the corresponding inner side wall of the side wall portion (31), and is connected with the first connecting structure (320) through the second connecting structure (110).

5. The receptacle of claim 4, wherein the side walls (31) have a plurality of guiding ribs (310) on the inner side walls, and the guiding ribs (310) are used for guiding the insertion of the socket assembly (11) into the first cavity (311) and positioning the socket assembly (11).

6. The receptacle of claim 1 wherein said first (320) and second (110) connection structures are mating snap-fit connection structures.

7. The socket according to any one of claims 1 to 6, wherein the high power socket module (1) comprises: a plurality of insert assemblies (11), L-pole connecting strips (121), and N-pole connecting strips (122);

the plug bush assembly (11) comprises a plug bush seat (111) and an L pole plug bush (1121) and an N pole plug bush (1122) which are positioned on the plug bush seat (111);

the L pole connecting strip (121) and the N pole connecting strip (122) are provided with a plurality of connecting positions (130), the L pole connecting strip (121) is electrically connected with a plurality of L pole plug bushes (1121) of a plurality of plug bush components (11) through the connecting positions (130), and the N pole connecting strip (122) is electrically connected with a plurality of N pole plug bushes (1122) of the plug bush components (11) through the connecting positions (130).

8. The receptacle of claim 7 wherein said L-pole connecting bar (121) and said N-pole connecting bar (122) are both located at the same end of said plurality of sleeve assemblies (11).

9. The socket of claim 7, wherein the high voltage socket module (1) further comprises a plurality of E-pole connecting bars (123), the E-pole connecting bar (123), the L-pole connecting bar (121), and the N-pole connecting bar (122) are all located at the same end of the plurality of socket assemblies (11);

the sleeve assembly (11) further comprises an E-pole sleeve (1123) on the sleeve seat (111);

the E pole connecting strip (123) is provided with a plurality of connecting positions (130), and the E pole connecting strip (123) is electrically connected with a plurality of E pole plug bushes (1123) of the plug bush assemblies (11) through the connecting positions (130).

10. The receptacle of claim 7 wherein said connection sites (130) are apertured to allow insertion of a mating end (1120) of a corresponding plug housing.

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