CN220492269U - Connection structure and socket - Google Patents

Abstract

The utility model relates to the technical field of sockets, in particular to a connecting structure and a socket; the socket comprises a shell, a connecting structure and at least two plug bushes, wherein the connecting structure and the at least two plug bushes are arranged in the shell; the connecting structure comprises a baffle plate and a conductive piece arranged on the baffle plate, wherein one of the baffle plate and the conductive piece is provided with a positioning piece, and the positioning piece is connected with the other one of the baffle plate and the conductive piece so as to prevent the conductive piece from being separated from the baffle plate; at least two of the plug bushes are electrically connected through the conductive member. The conductive member of the connecting structure can be stably assembled on the partition plate so as to ensure that the conductive member is stably and electrically connected with the plug bush with the same polarity.

Description

Connection structure and socket

Technical Field

The utility model relates to the technical field of sockets, in particular to a connecting structure and a socket.

Background

Various types of sockets are commonly used electrical equipment. The basic structure of the socket generally comprises a shell and a plug bush assembly assembled in the shell, wherein the shell is provided with a plug pin hole, and a plug pin on a plug of the electrical equipment can pass through the plug pin hole to be in plug fit with the plug bush assembly, so that the purpose of taking electricity through the socket is realized.

In order to improve the utilization rate of the socket, a plurality of plug bush assemblies are generally integrated on one socket so as to enable a plurality of electrical equipment to be powered through one socket; the sleeves of the same polarity in the plurality of sleeve assemblies are usually required to be electrically connected with each other; if jumper wire welding is adopted, the welding operation difficulty is high, the efficiency is low, the outer skin of the jumper wire is easy to scald during welding, the electrical insulation is not up to the standard, and the safety is reduced. In order to improve various problems of jumper wire welding, related art has configured a partition plate at a socket and assembled a conductive member at the partition plate to electrically connect the same-polarity sockets using the conductive member at the partition plate.

However, the separator and the conductive member provided by the related art cannot be stably assembled, and the stability of electrically connecting the same-polarity socket using the conductive member is lowered.

Disclosure of Invention

The utility model aims to provide a connecting structure and a socket, wherein a conductive member of the connecting structure can be stably assembled on a partition plate so as to ensure that the conductive member can be used for stably and electrically connecting a plug bush with the same polarity.

Embodiments of the present utility model are implemented as follows:

in a first aspect, the present utility model provides a connection structure comprising:

a partition plate; the method comprises the steps of,

the conductive piece is arranged on the partition board and is used for electrically connecting at least two plug bushes; wherein,

one of the separator and the conductive member is provided with a positioning member that is connected to the other of the separator and the conductive member to prevent the conductive member from being separated from the separator.

In an alternative embodiment, the locating piece is a locating column, the locating column is connected with the partition board, the conducting piece is provided with a locating hole, the locating column is spliced with the locating hole, and the side wall of the locating column is tightly attached to the wall of the locating hole.

In an alternative embodiment, the conductive member includes a conductive strip and a conductive body connected to the conductive strip, the conductive strip being vertically disposed with the separator, the conductive body being in contact with the separator.

In an alternative embodiment, the conductive member comprises at least two conductive bodies, the at least two conductive bodies being connected by a conductive strip; the baffle is provided with first hole, and the electrically conductive body is provided with the second hole, and second hole and first hole intercommunication, and both are used for the grafting plug bush jointly.

In an alternative embodiment, the conductive body is provided with a positioning hole for mating with the positioning member.

In an alternative embodiment, the partition is provided with a limit groove, and the conductive member is in plug-in fit with the limit groove.

In an alternative embodiment, the partition board is connected with at least two spacing ribs, and a spacing groove is formed between the at least two spacing ribs.

In an alternative embodiment, the partition is connected to a connector which is connected to a bracket fitted with a plug bush.

In an alternative embodiment, the partition board is connected with two connecting pieces, the two connecting pieces are opposite and distributed at intervals, and an inserting space is formed between the two connecting pieces and is used for inserting the bracket; and/or the number of the groups of groups,

one side of one connecting piece facing the other connecting piece is configured to be capable of being abutted against the bracket; and/or the number of the groups of groups,

the connecting piece is clamped with the bracket.

In a second aspect, the present utility model provides a socket comprising a housing, a connection structure of any of the preceding embodiments and at least two inserts; the connecting structure and the at least two plug bushes are arranged in the shell; at least two of the plug bushes are electrically connected through the conductive member.

The connecting structure and the socket of the embodiment of the utility model have the beneficial effects that: the socket provided by the embodiment of the utility model comprises a shell, a connecting structure and at least two plug bushes, wherein the connecting structure and the at least two plug bushes are arranged in the shell; the connecting structure comprises a baffle plate and a conductive piece arranged on the baffle plate, wherein one of the baffle plate and the conductive piece is provided with a positioning piece, and the positioning piece is connected with the other one of the baffle plate and the conductive piece so as to prevent the conductive piece from being separated from the baffle plate; at least two of the plug bushes are electrically connected through the conductive member. Because the conductive piece is connected with the partition board through the positioning piece, and the positioning piece can prevent the conductive piece from separating from the partition board, the stability of the conductive piece assembled on the partition board can be improved, and the stability of the electrical connection of at least two plug bushes through the conductive piece is further ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is an exploded view of a socket according to an embodiment of the present utility model;

FIG. 2 is a schematic view showing an exploded structure of a connection structure, a plug bush and a bracket according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a connection structure, a plug bush and a bracket according to an embodiment of the present utility model;

FIG. 4 is an exploded view of a connecting structure according to an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of a connection structure according to an embodiment of the present utility model.

Icon: 010-socket; 100-a housing; 101-a plug pin hole assembly; 110-an upper cover; 120-lower cover; 130-a bracket; 140-a base; 200-inserting sleeve; 210-a conductive plate; 220-plug bush body; 300-connection structure; 310-separator; 311-limit grooves; 312-first hole; 313-a first limit rib; 314-a second limit rib; 315-third limit ribs; 316-fourth limit ribs; 320-conductive members; 321-a second hole; 322-a first conductive strip; 323-a second conductive strip; 324-a first conductive body; 325-a second conductive body; 326-a third conductive strap; 327-fourth conductive strips; 328-a third conductive body; 329-a fourth conductive body; 330-positioning columns; 331-guiding ramp; 340-positioning holes; 350-connecting piece; 351—plug space; 352-holding rib.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in use, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1, the present embodiment provides a socket 010, which may refer to a multi-face socket, for example: the double-sided socket, the triple-sided socket, the four-sided socket, and the like are not particularly limited herein. The four-sided socket will be described in detail below as an example. Of course, in other embodiments, the receptacle 010 may also be referred to as a single-sided receptacle.

The receptacle 010 includes a housing 100 and a plug bush assembly assembled to the housing 100; the shell 100 is provided with a bolt hole assembly 101, the bolt hole assembly 101 corresponds to the plug bush assembly, and after a bolt on a plug of the electrical equipment passes through the bolt hole assembly 101, the plug can be plugged with the plug bush assembly to realize power connection. The plug bush assembly has a structure similar to that of the related art, and comprises an L-pole plug bush and an N-pole plug bush.

The socket 010 of the embodiment is a four-sided socket, the housing 100 is in a quadrangular prism shape, the housing 100 comprises a first face, a second face, a third face and a fourth face which are connected end to end in sequence, and the first face, the second face and the third face are all provided with plug pin hole assemblies 101; the bolt hole assemblies 101 arranged on the first surface and the third surface are five holes, wherein two holes are used for being inserted with a two-pole plug, and the other three holes are used for being inserted with a three-pole plug; the second surface is provided with two bolt hole assemblies 101 for plugging the two-pole plug.

Referring to fig. 2, correspondingly, the socket 010 includes two plug bush assemblies, one of which is disposed corresponding to the first surface, and the other of which is disposed corresponding to the third surface; each plug bush assembly includes two plug bushes 200, namely an L-pole plug bush and an N-pole plug bush, that is, the socket 010 of this embodiment includes two L-pole plug bushes and two N-pole plug bushes, and the structure of the L-pole plug bushes is similar to that of the N-pole plug bushes, and only the L-pole plug bushes corresponding to the first surface are used as examples for detailed description. The L-pole plug comprises a conductive plate 210 and three plug bodies 220 connected to the conductive plate 210, wherein one plug body 220 is correspondingly arranged with one hole in the plug pin hole assembly 101 of the second surface, and the other two plug bodies 220 are correspondingly arranged with holes of the first surface, which are correspondingly inserted with the two-pole plug and the three-pole plug.

It should be appreciated that in other embodiments, the plug pin aperture assemblies 101 provided on the first, second and third faces may each be two or three or five apertures; alternatively, in other embodiments, the housing 100 may further be provided with a USB interface or a Type-C interface, and a USB component or a Type-C component is correspondingly further provided in the housing 100, which is not specifically limited herein.

Of course, in other embodiments, the number of the plug assemblies may be three, four, etc., and the corresponding sockets 010 include three, four, etc. L-pole plugs and N-pole plugs, respectively, which are not particularly limited herein.

Optionally, the socket 010 further includes a protection door assembly provided in the housing 100 for shielding or opening the latch hole assembly 101 to improve safety. The structure and operation principle of the protection door assembly are similar to those of the related art, and are not repeated here.

The structure of the housing 100 may be selected as desired; referring to fig. 1, in the present embodiment, in order to improve the ease of assembly, the housing 100 includes an upper cover 110 and a lower cover 120, the upper cover 110 and the lower cover 120 are fastened and connected, the upper cover 110 is provided with a plug hole assembly 101, and a socket assembly is assembled in an installation space between the upper cover 110 and the lower cover 120.

Optionally, the upper cover 110 and the lower cover 120 may be connected by a fastening means including, but not limited to, a snap fit, a bolt, or the like.

Referring to fig. 1 and 2, in order to improve the ease of assembling the plug bush assembly to the housing 100; the receptacle 010 further includes a bracket 130, and the plug bush assembly is provided to the bracket 130.

Further, the socket 010 includes two brackets 130, and two plug bush components are disposed on the two brackets 130 in a one-to-one correspondence; one leg 130 is connected to the other leg 130 on a side facing away from the corresponding ferrule assembly. Thus, after the plug bush assembly and the bracket 130 are assembled into a whole, the plug bush assembly and the bracket are assembled in the shell 100 in a modularized manner, so that the assembly difficulty is reduced, and the assembly efficiency is improved.

Still further, the socket 010 further includes a base 140, and the plug bush assembly is assembled to the bracket 130 through the base 140; specifically, the base 140 is provided with two mounting grooves, and the L-pole plug bush and the N-pole plug bush of the plug bush assembly are respectively assembled in the two mounting grooves; the base 140 is coupled to the bracket 130. By this arrangement, the reliability of the sleeve assembly mounted on the bracket 130 can be improved. Of course, in other embodiments, the receptacle 010 does not include the base 140 and the plug assembly may be mounted directly to the bracket 130.

The connection between the two brackets 130 and the connection between the base 140 and the brackets 130 include, but are not limited to, clamping, fastening with bolts, and the like.

In assembling the socket 010, the inserts 200 of the same polarity need to be electrically connected to each other, that is, the two L-pole inserts in the present embodiment need to be electrically connected to each other, and the two N-pole inserts also need to be electrically connected to each other.

Referring to fig. 2 and 3, the socket 010 of the present embodiment further includes a connection structure 300, and the connection structure 300 is used for electrically connecting the socket 200 with the same polarity.

Further, the connection structure 300 includes a spacer 310 and a conductive member 320, the conductive member 320 is assembled to the spacer 310, and the same-polarity socket 200 can be electrically connected through the conductive member 320.

Still further, the connection structure 300 includes two conductive members 320, two L-pole bushings are electrically connected through one of the conductive members 320, and two N-pole bushings are electrically connected through the other conductive member 320. By doing so, it is ensured that the socket 200 having the same polarity is electrically and reliably connected through the conductive member 320.

To improve the stability of the assembly of the conductive member 320 to the spacer 310, the stability of the conductive member 320 to electrically connect the same-polarity socket 200 is further ensured. In this embodiment, the spacer 310 is provided with a positioning member, and the positioning member is connected to the conductive member 320, so as to prevent the conductive member 320 from being separated from the spacer 310.

Of course, in other embodiments, the conductive member 320 is connected to a positioning member, which is connected to the spacer 310 and is used to prevent the conductive member 320 from being separated from the spacer 310.

Further, the positioning member is a positioning column 330, the positioning column 330 is connected with the partition plate 310, the conductive member 320 is provided with a positioning hole 340, the positioning column 330 is inserted into the positioning hole 340, and the sidewall of the positioning column 330 is tightly attached to the hole wall of the positioning hole 340, so as to form a stable interference fit, thereby ensuring that the conductive member 320 can be stably assembled on the partition plate 310.

Of course, in other embodiments, the positioning member may be a buckle, and the buckle is connected to the spacer 310 and engaged with the conductive member 320, so as to ensure the stability of the conductive member 320 assembled to the spacer 310.

To ensure ease of handling when assembling the conductive member 320 to the spacer 310; referring to fig. 4, in the present embodiment, a guiding inclined plane 331 is disposed at an end of the positioning post 330 away from the partition 310, and the guiding inclined plane 331 is used for guiding the positioning post 330 to be inserted into the positioning hole 340. When the conductive element 320 is assembled on the partition 310, the hole wall of the positioning hole 340 can be slidably matched with the guide inclined plane 331, so that the positioning column 330 can be smoothly inserted into the positioning hole 340, and further the ease of assembling the conductive element 320 on the partition 310 is ensured.

Optionally, the positioning column 330 includes a truncated cone column head and a column body connected in sequence, one end of the column body far away from the truncated cone column body is connected with the partition plate 310, and an outer conical surface of the truncated cone column body is a guide inclined surface 331.

To ensure positional accuracy of the fitting of the conductive member 320 to the spacer 310; referring to fig. 4 and 5, the spacer 310 is provided with a limiting slot 311, and the conductive member 320 is in plug-in fit with the limiting slot 311.

Further, the partition 310 is connected with at least two limiting ribs, and a limiting groove 311 is formed between the at least two limiting ribs. In this way, the spacer 310 does not need to be thinned in part to form the stopper groove 311, and the structural strength of the spacer 310 can be ensured.

Of course, in other embodiments, a concave limiting groove 311 may be disposed in the spacer 310, so that the structure of the conductive member 320 disposed in the spacer 310 is more compact.

Still further, the spacer 310 is provided with two limiting grooves 311, the two conductive members 320 are in plug-in fit with the two limiting grooves 311 in a one-to-one correspondence, and at least one limiting rib forming the limiting groove 311 is configured to be separated between the two conductive members 320. By this arrangement, the failure of electrical insulation due to the contact between the two conductive members 320 can be avoided, and the safety is improved.

Optionally, the conductive member 320 includes a conductive strip and a conductive body connected to the conductive strip, the conductive strip is vertically distributed with the spacer 310, and the conductive body is attached to the spacer 310. So set up, utilize the conducting strip for baffle 310 vertical distribution, can reduce the space area that conducting piece 320 occupy to realize the isolation of a plurality of conducting pieces 320 in limited space, and can peg graft the conducting strip in spacing groove 311, make conducting piece 320 and spacing groove 311 cooperation, location more accurate. The conductive strips and the conductive bodies of the conductive member 320 form mutually matched limiting structures in two directions, so that multiple limiting in the horizontal direction and the vertical direction can be better realized.

Further, the conductive member 320 includes at least two conductive bodies connected by a conductive tape. It can be understood that in this embodiment, one of the conductive members 320 includes a first conductive strip 322 and a second conductive strip 323 connected at an included angle, a first conductive body 324 connected to the first conductive strip 322 and far from the second conductive strip 323, and a second conductive body 325 connected to the second conductive strip 323 and far from the first conductive strip 322, wherein the first conductive strip 322 and the second conductive point 323 are vertically distributed with the partition 310, and the first conductive body 324 and the second conductive body 325 are attached to the partition 310; the other conductive member 320 includes a third conductive strip 326 and a fourth conductive strip 327 connected at an included angle, a third conductive body 328 connected to the third conductive strip 326 and far from the fourth conductive strip 327, and a fourth conductive body 329 connected to the fourth conductive strip 327 and far from the third conductive strip 326, wherein the third conductive strip 326 and the fourth conductive strip 327 are vertically distributed with the partition 310, and the third conductive body 328 and the fourth conductive body 329 are attached with the partition 310.

The included angle of the first conductive strap 322 and the second conductive strap 323, and the included angle of the third conductive strap 326 and the fourth conductive strap 327 include, but are not limited to, 90 °, 88 °, 100 °.

To further improve the stability of the conductive member 320 assembled to the spacer 310, at least one of the first conductive band 322 and the second conductive band 323 is attached to the spacer.

Optionally, the partition 310 is connected with a plurality of spacing ribs, and specifically includes a first spacing rib 313 in an L-shape, a second spacing rib 314 in an L-shape, a third spacing rib 315, and a fourth spacing rib 316; the third limit ribs 315 are distributed at intervals with part of the first limit ribs 313 and form limit grooves 311 inserted into the first conductive strips 322; the fourth spacing ribs 316 and part of the second spacing ribs 314 are distributed at intervals to form spacing grooves 311 for inserting the fourth conductive strips 327; the first conductive strip 322 and the second conductive strip 323 are attached to the first L-shaped limit rib 313, and the third conductive strip 326 and the fourth conductive strip 327 are attached to the second L-shaped limit rib 314. In this way, the stability of the conductive member 320 disposed on the spacer 310 can be ensured.

Further, the first conductive belt 322 and the second conductive belt 323 are attached to the inner side wall of the first limiting rib 313 in an L shape; the third conductive band 326 and the fourth conductive band 327 are attached to the outer side wall of the second L-shaped limiting rib 314. Thus, the first spacing rib 313 can be used to isolate the two conductive members 320, thereby ensuring the safety of electrical insulation.

Optionally, among the plurality of spacing ribs connected to the spacer 310, the spacer further includes spacing ribs that are attached to and abutted against the first conductive body 324, the second conductive body 325, the third conductive body 328 and the fourth conductive body 329; and/or, the first conductive body 324 may further be attached to and abutted against the second limiting rib 314, and the third conductive body 328 may further be attached to and abutted against the first limiting rib 313.

Optionally, the first conductive body 324, the second conductive body 325, the third conductive body 328 and the fourth conductive body 329 are connected with the corresponding plug bush 200, so that the plug bushes 200 with the same polarity can be electrically connected through the corresponding conductive members 320; the conductive body is provided with a positioning hole 340 in plug-in fit with the positioning member, specifically, the first conductive body 324, the second conductive body 325, the third conductive body 328 and the fourth conductive body 329 are all provided with the positioning hole 340, so that the stability of the electrical connection between the first conductive body 324, the second conductive body 325, the third conductive body 328 and the fourth conductive body 329 and the corresponding plug bush 200 can be ensured while the assembly of the conductive member 320 on the partition plate 310 is ensured, and the stability of the electrical connection between the plug bush 200 with the same polarity and the corresponding conductive member 320 is further ensured.

Alternatively, conductive element 320 is a copper strip having a cross-sectional area greater than or equal to 1mm ² For example: 1mm of ² 、1.2mm ² 、1.5mm ² 、2mm ² And the like, are not particularly limited herein. By the arrangement, the conductive piece 320 has good heat dissipation performance, and the temperature rise is low, so that the problem that heat is transferred to the plug bush 200 due to the temperature rise of the conductive piece 320 is solved, and the temperature of the plug bush 200 is raised is solved.

The cross section of the copper strip is a cross section in the thickness direction.

It should be noted that, providing two conductive members 320 on the spacer 310 to electrically connect the L-pole plug and the N-pole plug, respectively, can also improve the problem that the conductive members 320 transfer heat to the plug 200, resulting in an increase in the temperature of the plug 200.

Referring to fig. 3, 4 and 5, in the present embodiment, the partition 310 is provided with a first hole 312, the conductive member 320 is provided with a second hole 321, the second hole 321 is communicated with the first hole 312, and the two holes are used together for plugging the plug bush 200, i.e. the conductive plate 210 of the plug bush 200 can sequentially extend out from the first hole 312 and the second hole 321 after passing through the avoiding hole provided by the bracket 130 or the base 140; by this arrangement, on the one hand, the plug bush 200 is connected with the conductive member 320 through the conductive plate 210, and further, the electrical connection through the conductive member 320 is realized, and on the other hand, the connection between the plug bush 200 and the power line is ensured not to be interfered.

Optionally, the conductive body is provided with a second hole 321; specifically, the first conductive body 324, the second conductive body 325, the third conductive body 328 and the fourth conductive body 329 are provided with the second holes 321, the partition 310 is provided with four first holes 312, and the four first holes 312 and the four second holes 321 are arranged in a one-to-one correspondence, so that the conductive plates 210 of the two L pole inserts respectively extend from the second holes 321 of the first conductive body 324 and the second conductive body 325, and the conductive plates 210 of the two N pole inserts respectively extend from the second holes 321 of the third conductive body 328 and the fourth conductive body 329. Of course, in other embodiments, the mounting locations of the L-pole insert and the N-pole insert may also be interchanged.

Referring to fig. 3 and 5, in the present embodiment, the spacer 310 is connected to a connecting member 350, and the connecting member 350 is connected to the bracket 130 equipped with the plug bush 200. The partition plate 310 is connected with the bracket 130 through the connecting piece 350, so that the stability of the partition plate 310 arranged on the bracket 130 can be improved, the stability of the conductive piece 320 arranged on the bracket 130 through the partition plate 310 is further improved, the stability of the same-polarity plug bush 200 electrically connected through the conductive piece 320 is ensured, and the assembly line operation of the production and assembly of the socket 010 is conveniently realized.

Further, the partition 310 is connected with two connectors 350, the two connectors 350 are opposite and distributed at intervals, and an inserting space 351 is formed between the two connectors 350, and the inserting space 351 is used for inserting the bracket 130; specifically, the two brackets 130 are simultaneously inserted into the insertion space 351. In this way, ease of assembly and structural stability after assembly can be ensured.

Still further, the side of one connector 350 facing the other connector 350 is configured to be capable of abutting the bracket 130 to form an interference fit, improving the structural stability after assembly.

Optionally, a holding rib 352 is connected to a side of one connecting member 350 facing the other connecting member 350, and the holding rib 352 can be held against the brackets 130, so that the spacer 310 and the two brackets 130 form an interference fit, and the assembly stability is improved.

Alternatively, the connector 350 and the spacing rib are located on either side of the spacer 310.

Optionally, the end of the connecting member 350 away from the partition 310 is provided with a guiding slope, so that the ends of the two connecting members 350 away from the partition 310 form a flare, so that the two interconnected brackets 130 are plugged into the plugging space 351 through the flare.

Of course, in other embodiments, the connection member 350 is engaged with the bracket 130 or connected by a fastener such as a bolt, which is not particularly limited herein.

The assembly process of the socket 010 of the present embodiment includes: assembling the plug bush assembly to the base 140, and assembling the base 140 to the bracket 130; connecting the two brackets 130; fitting the conductive member 320 to the spacer 310; assembling the spacer 310 with the bracket 130 and inserting the conductive plate 210 of the socket 200 with the spacer 310 and the conductive member 320; connecting the conductive plate 210 with a power line; the connection structure 300, the plug bush assembly, the bracket 130, the base 140, and the like are assembled together to the housing 100.

In summary, the connection structure 300 of the present utility model can be used for the socket 010, and the conductive member 320 of the connection structure 300 can be stably assembled on the partition 310, so as to ensure that the conductive member 320 stably electrically connects the socket 200 with the same polarity.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A connection structure, characterized by comprising:

a partition plate (310); the method comprises the steps of,

a conductive member (320), the conductive member (320) being disposed on the separator (310), and the conductive member (320) being configured to electrically connect at least two sockets (200); wherein,

one of the spacer (310) and the conductive member (320) is provided with a positioning member that is connected to the other of the spacer (310) and the conductive member (320) to prevent the conductive member (320) from being separated from the spacer (310).

2. The connecting structure according to claim 1, wherein the positioning member is a positioning column (330), the positioning column (330) is connected with the partition board (310), the conductive member (320) is provided with a positioning hole (340), the positioning column (330) is inserted into the positioning hole (340), and a side wall of the positioning column (330) is tightly attached to a hole wall of the positioning hole (340).

3. The connection structure according to claim 1, wherein the conductive member (320) includes a conductive strip and a conductive body connected to the conductive strip, the conductive strip being vertically distributed with the separator (310), the conductive body being fitted with the separator (310).

4. A connection according to claim 3, wherein the conductive element (320) comprises at least two of said conductive bodies, at least two of said conductive bodies being connected by said conductive strip; the partition plate (310) is provided with a first hole (312), the conductive body is provided with a second hole (321), the second hole (321) is communicated with the first hole (312), and the second hole and the first hole are jointly used for being inserted into the plug bush (200).

5. A connection according to claim 3 or 4, characterized in that the conductive body is provided with a positioning hole (340) for a plug-in fit with the positioning element.

6. The connecting structure according to claim 1, wherein the partition plate (310) is provided with a limit groove (311), and the conductive member (320) is in plug-in fit with the limit groove (311).

7. The connecting structure according to claim 6, wherein the partition plate (310) is connected with at least two limit ribs, and the limit groove (311) is formed between at least two limit ribs.

8. The connection structure according to claim 1, wherein a connection member (350) is connected to the partition (310), and the connection member (350) is connected to a bracket (130) equipped with the plug bush (200).

9. The connecting structure according to claim 8, wherein the partition board (310) is connected with two connecting pieces (350), the two connecting pieces (350) are opposite and spaced, a plugging space (351) is formed between the two connecting pieces (350), and the plugging space (351) is used for plugging the bracket (130); and/or the number of the groups of groups,

one side of one of the connecting pieces (350) facing the other connecting piece (350) is configured to be capable of being held against the bracket (130); and/or the number of the groups of groups,

the connecting piece (350) is clamped with the bracket (130).

10. A socket comprising a housing (100), a connection structure according to any one of claims 1-9 and at least two inserts (200); the connecting structure and at least two plug bushes (200) are arranged in the shell (100); at least two of the sockets (200) are electrically connected by the conductive member (320).