CN220710703U - Connector and connecting wire - Google Patents

Abstract

The application relates to a connector and a connecting wire, wherein a connector base is provided with a connector male end accommodating cavity and a first connecting end electrically connected with a wire; the first end of the sliding strip component is in sliding connection with the connector base; the connector main body is rotationally connected with the second end of the sliding bar assembly; the connector male end is arranged on the connector main body and is electrically connected with the second connecting end; in the first position, the first connecting end is electrically connected with the second connecting end; in the second position, the connector male end is received in the connector male end receiving cavity. The connector male end is in a storage state and a working state along with the rotation of the connector main body, so that the connector male end can be stored only by simply rotating the connector when the connector is not used, the influence on the design life caused by long-term exposure of the connector male end is avoided, and the connector male end is convenient and quick to rotate; the first connecting end and the second connecting end are matched to be electrically connected, so that the male end of the connector can be electrically connected with the wire rod only by simply rotating, and the connector has the advantages of convenience in application and reliability and effectiveness in connection.

Description

Connector and connecting wire

Technical Field

The present application relates to the field of connectors, and in particular, to a connector and a connecting wire.

Background

The traditional data line mainly has two kinds of connector realization forms, and the connector is also called connector or connector subassembly, and the connector subassembly of one kind of data line one end is integrative, and the connector subassembly of another kind of data line one end is separated by base and connector, and two parts are in the same place through the magnetism absorption.

However, the male end of the connector at one end of the connector is exposed outside for a long time, so that a short circuit is easily caused when foreign matters enter the connector, and the connector needs to be additionally stored when the connector is not used, so that resources are occupied, and the connector is inconvenient to use.

Disclosure of Invention

Based on this, it is necessary to provide a connector and a connecting wire.

In one embodiment, a connector, comprising:

the connector base is used for accessing wires, and is provided with a connector male end accommodating cavity and a first connecting end electrically connected with the wires;

the first end of the sliding strip assembly is in sliding connection with the connector base; and

The connector body is provided with a second connecting end and a connector male end which are electrically connected, and the connector body is rotationally connected with the second end of the sliding bar assembly, so that the first connecting end is electrically connected with the second connecting end, or the connector male end is accommodated in the connector male end accommodating cavity.

The connector has the advantages that on one hand, the connector male end is skillfully designed to have a storage state and a working state along with the rotation of the connector main body, so that the connector male end can be stored only by simply rotating when the connector is not used, the influence on the design life caused by long-term exposure of the connector male end is avoided, and the connector male end is convenient and quick to rotate; on the other hand, the first connecting end and the second connecting end are matched to be electrically connected, so that the male end of the connector can be electrically connected with the wire rod only by simply rotating, and the connector has the advantages of convenience in application and reliability and effectiveness in connection.

In one embodiment, the connector body has a first position and a second position, and in the first position, the first connection end is electrically connected to the second connection end; in the second position, the connector male end is received in the connector male end receiving cavity.

In one embodiment, the connector base and the connector body are detachably connected by at least one of clamping, interference fit and magnetic attraction.

In one embodiment, the connector body has a first fixed end and a second fixed end opposite to each other, wherein a first end face of the first fixed end and a second end face of the second fixed end are both provided with a first fixing structure, the male end of the connector is close to the first end face and partially protrudes out of the first fixing structure on the first end face, and the second connecting end is arranged on the second end face or the first fixing structure on the second end face;

the connector base is provided with a second fixing structure and a connector male end accommodating cavity at the end face of the connector base far away from the wire rod, and the first connecting end is arranged on the end face of the connector base or the second fixing structure corresponding to the second connecting end;

The second fixing structure is matched with any one of the first fixing structures, so that the connector main body and the connector base are detachably connected.

In one embodiment, the first fixing structure comprises a boss and a groove, the groove is arranged on the periphery of the boss, and the second fixing structure comprises a boss accommodating cavity and a protruding part arranged on the periphery of the boss accommodating cavity; or,

the first fixing structure comprises a boss accommodating cavity and a protruding part arranged on the periphery of the boss accommodating cavity, the second fixing structure comprises a boss and a groove, and the groove is formed on the periphery of the boss; or,

the first fixing structure comprises a boss and a boss arranged on the periphery of the boss, and the second fixing structure comprises a boss accommodating cavity and a groove arranged on the periphery of the boss accommodating cavity; or,

the first fixing structure comprises a boss accommodating cavity and a groove arranged on the periphery of the boss accommodating cavity, and the second fixing structure comprises a boss and a protruding part arranged on the periphery of the boss;

the boss accommodating cavity is matched with the boss in shape, and the protruding part is matched with the groove in shape, so that the connector main body and the connector base are detachably connected in at least one mode of clamping, interference fit and magnetic attraction; or,

The second fixing structure comprises a boss and a groove, and the groove is formed in the periphery of the boss;

the first fixing structure comprises a boss accommodating cavity and a boss arranged on the periphery of the boss accommodating cavity, the boss accommodating cavity is matched with the boss in shape, and the boss is matched with the groove in shape, so that the connector main body and the connector base can be detachably connected in at least one mode of clamping, interference fit and magnetic attraction connection.

In one embodiment, the connector main body is provided with a first boss on the second end face, a first groove is formed in the periphery of the first boss, and the second connecting end is arranged on the first boss; the connector main body is provided with a second boss at the first end face, a second groove is formed in the periphery of the second boss, and the male end part of the connector protrudes out of the second boss;

the first boss and the second boss are respectively matched with the boss accommodating cavity in shape, and the first groove and the second groove are respectively matched with the boss in shape, so that the connector main body and the connector base are detachably connected in at least one mode of clamping, interference fit and magnetic attraction; or,

The connector main body is provided with a first boss accommodating cavity at the first end face, a first protruding part is arranged at the periphery of the first boss accommodating cavity, and the second connecting end is arranged on the first boss accommodating cavity; the connector main body is provided with a second boss accommodating cavity at the second end face, a second protruding part is arranged at the periphery of the second boss accommodating cavity, and the male end part of the connector protrudes out of the second boss accommodating cavity;

the first boss accommodating cavity and the second boss accommodating cavity are respectively matched with the boss in shape, and the first protruding part and the second protruding part are respectively matched with the groove in shape, so that the connector main body and the connector base are detachably connected in at least one mode of clamping, interference fit and magnetic attraction; or,

the connector main body is provided with a first boss on the second end face, a first protruding part is arranged on the periphery of the first boss, and the second connecting end is arranged on the first boss; the connector main body is provided with a second boss on the first end face, a second protruding part is arranged on the periphery of the second boss, and the male end part of the connector protrudes out of the second boss;

The first boss and the second boss are respectively matched with the boss accommodating cavity in shape, and the first boss and the second boss are respectively matched with the groove in shape, so that the connector main body and the connector base are detachably connected in at least one mode of clamping, interference fit and magnetic attraction; or,

the connector main body is provided with a first boss accommodating cavity at the first end face, a first groove is formed in the periphery of the first boss accommodating cavity, and the second connecting end is arranged on the first boss accommodating cavity; the connector main body is provided with a second boss accommodating cavity at the second end face, a second groove is formed in the periphery of the second boss accommodating cavity, and the male end part of the connector protrudes out of the second boss accommodating cavity;

the first boss holds the chamber the second boss hold the chamber respectively with boss shape matching sets up, first recess the second recess respectively with bellying shape matching sets up, so that the connector main part with connector base adopts at least one kind of mode detachable connection in block, interference fit and the magnetism to inhale the connection.

In one embodiment, the connector base or the base first cover portion of the connector base is provided with a first sliding structure;

the connector main body or the first main body cover part of the connector main body is provided with a first rotating structure;

the sliding bar assembly comprises a first limiting piece, a second sliding structure and a second rotating structure;

the second sliding structure is arranged at the first end of the sliding bar assembly and is in sliding fit with the first sliding structure so that the first end of the sliding bar assembly is in sliding connection with the connector base;

the first limiting piece is fixed on the connector base or the first cover part of the base and is used for preventing the second sliding structure from being separated from the connector base;

the second rotating structure is arranged at the second end of the sliding bar assembly and is in rotating fit with the first rotating structure, so that the second end of the sliding bar assembly is in rotating connection with the connector main body;

the sliding bar assembly further comprises a second limiting piece, and the second limiting piece is connected with the first rotating structure or the second rotating structure so as to limit the first rotating structure and the second rotating structure to keep a rotating connection state.

In one embodiment, the first limiting member and the second limiting member are limiting blocks, the first sliding structure and the second sliding structure are sliding grooves and sliding blocks, and the first rotating structure and the second rotating structure are rotating shaft holes and rotating shafts; and/or the number of the groups of groups,

the connector base further comprises a first fixing piece and a third fixing piece, the first PCB assembly of the connector base is fixed on a first base cover part or a second base cover part of the connector base through the first fixing piece, and the first limiting piece is fixed at one end, far away from the slide bar assembly, of the second sliding structure through the third fixing piece;

the connector main body further comprises a second fixing piece and a fourth fixing piece, the second PCB assembly of the connector main body is fixed on the first cover part or the second cover part of the connector main body through the second fixing piece, and the second limiting piece is fixed at one end, far away from the sliding strip assembly, of the second rotating structure through the fourth fixing piece.

In one embodiment, the connector base comprises a first PCB assembly, a base first cover portion and a base second cover portion which are fixed to each other, wherein the base first cover portion and the base second cover portion are enclosed to form a first installation area, the connector male end accommodating cavity, the first connecting end and the first PCB assembly are all located in the first installation area, and the first connecting end is fixed on the first PCB assembly and is electrically connected with the wire rod through the first PCB assembly;

The connector main body comprises a second PCB assembly, a main body first cover part and a main body second cover part which are fixed with each other, a second installation area is formed by enclosing the main body first cover part and the main body second cover part, the second connecting end and the second PCB assembly are both positioned in the second installation area, and the second connecting end is fixed on the second PCB assembly and is electrically connected with the male end of the connector through the second PCB assembly;

the first end of the sliding strip assembly is in sliding connection with the first cover part of the base, and the second end of the sliding strip assembly is in rotary connection with the first cover part of the main body.

In one embodiment, the connector further comprises the wire and a sheath member thereof, and the connector base is connected to the wire through the sheath member and electrically connects the first connection end with the wire.

In one embodiment, the first connection end and the second connection end are an elastic thimble male end and an elastic thimble female seat.

In one embodiment, a connecting wire includes the connector of any of the embodiments.

Drawings

In order to more clearly illustrate the technical solutions of embodiments or conventional techniques of the present application, the drawings that are required to be used in the description of the embodiments or conventional techniques will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person of ordinary skill in the art.

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

FIG. 2 is another schematic view of the embodiment of FIG. 1.

Fig. 3 is another state diagram of the embodiment shown in fig. 1.

Fig. 4 is a schematic structural view of another embodiment of the connector described in the present application.

FIG. 5 is another schematic view of the embodiment of FIG. 4.

Fig. 6 is a schematic structural diagram of another embodiment of the connector described in the present application.

Fig. 7 is another state diagram of the embodiment shown in fig. 6.

Fig. 8 is an enlarged schematic view at a of the embodiment shown in fig. 7.

Fig. 9 is another state diagram of the embodiment shown in fig. 7.

Fig. 10 is an enlarged schematic view of the embodiment of fig. 9 at B.

FIG. 11 is another state diagram of the embodiment shown in FIG. 10.

FIG. 12 is another schematic view of the embodiment of FIG. 6.

Fig. 13 is a schematic cross-sectional view of the embodiment shown in fig. 12.

FIG. 14 is another schematic view of the embodiment of FIG. 7.

Fig. 15 is a schematic cross-sectional view of the embodiment of fig. 14.

Fig. 16 is a partial schematic view of the embodiment shown in fig. 15.

Fig. 17 is a schematic view of a portion of the embodiment of fig. 15.

Fig. 18 is another schematic view of the embodiment of fig. 9.

Fig. 19 is another schematic view of the embodiment of fig. 11.

Reference numerals:

connector 100, wire 200, connector base 300, connector body 400, slider assembly 500, connector male end 600, sheath 700;

connector base end face 301, base first cover 310, first sliding structure 311, base second cover 320, first PCB assembly 330, first connection end 331, first fixture 340, boss receiving cavity 350, connector male end receiving cavity 351, boss 352, first mounting area 360, third fixture 370;

the first fixing end 401, the second fixing end 402, the first end face 403, the second end face 404, the main body first cover portion 410, the first rotating structure 411, the main body second cover portion 420, the second PCB assembly 430, the second connection end 431, the second fixing member 440, the first boss 450, the first groove 451, the second boss 460, the second groove 461, the second mounting region 470, the fourth fixing member 480;

the first stopper 510, the second stopper 520, the slider body 530, the second sliding structure 531, and the second rotating structure 532.

Detailed Description

In order to make the above objects, features and advantages of the present application more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is, however, susceptible of embodiment in many other forms than those described herein and similar modifications can be made by those skilled in the art without departing from the spirit of the application, and therefore the application is not to be limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are used in the description of the present application for purposes of illustration only and do not represent the only embodiment.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" is at least two, such as two, three, etc., unless explicitly defined otherwise.

In this application, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be a direct contact of the first feature with the second feature, or an indirect contact of the first feature with the second feature via an intervening medium. Moreover, a first feature "above," "over" and "on" a second feature may be a first feature directly above or obliquely above the second feature, or simply indicate that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely under the second feature, or simply indicating that the first feature is less level than the second feature.

Unless defined otherwise, all technical and scientific terms used in the specification of this application have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the present application. The term "and/or" as used in the specification of this application includes any and all combinations of one or more of the associated listed items.

The application discloses a connector and a connecting wire, which comprise part of structures or all structures of the following embodiments; that is, the connector or the connecting line includes some or all of the following technical features. In one embodiment of the present application, a connector includes: the connector base is used for accessing wires, and is provided with a connector male end accommodating cavity and a first connecting end electrically connected with the wires; the first end of the sliding strip assembly is in sliding connection with the connector base; and the connector main body is provided with a second connecting end and a connector male end which are electrically connected, and the connector main body is rotationally connected with the second end of the sliding bar assembly, so that the first connecting end is electrically connected with the second connecting end, or the connector male end is accommodated in the connector male end accommodating cavity. The connector has the advantages that on one hand, the connector male end is skillfully designed to have a storage state and a working state along with the rotation of the connector main body, so that the connector male end can be stored only by simply rotating when the connector is not used, the influence on the design life caused by long-term exposure of the connector male end is avoided, and the connector male end is convenient and quick to rotate; on the other hand, the first connecting end and the second connecting end are matched to be electrically connected, so that the male end of the connector can be electrically connected with the wire rod only by simply rotating, and the connector has the advantages of convenience in application and reliability and effectiveness in connection. The connection head will be described in detail with reference to fig. 1 to 19.

In one embodiment, as shown in fig. 1 and 2, the connector 100 includes a connector base 300, a slider assembly 500, and a connector body 400, wherein the connector base 300 is used for accessing the wires 200, and the connector body 400 is provided with a connector male end 600 for being inserted into a corresponding connector female seat. In practical application, the male connector 600 may be a Type-C plug or a Lightning plug, and the corresponding female connector socket may be a corresponding Type-C interface or a Lightning interface on the mobile phone, and it is understood that the male connector 600 may also be a male connector of other specifications.

The slider assembly 500 is slidably connected with the connector base 300 and rotatably connected with the connector body 400, and the connector male end 600 is disposed on the connector body 400, and by rotating the connector body 400, as shown in fig. 3, when the connector 100 is not in use, the connector male end 600 is accommodated in the connector base 300, thereby avoiding that the design life of the connector male end 600 is affected due to long-term exposure of the connector male end 600.

In one embodiment, as shown in fig. 4 and 5, the connector 100 further includes a sheath member 700, and the sheath member 700 is fixed on the connector base 300, for protecting the wire 200 penetrating into the connector base 300. This allows direct marketing of the connector 100 without the wire 200.

In one embodiment, as shown in fig. 6, the connector 100 further includes the wire 200 and a sheath member 700 thereof, and the connector base 300 is connected to the wire 200 through the sheath member 700, and electrically connects the first connection end 331 to the wire 200. This allows direct sales of the connection head 100 with the wire 200.

The connector body 400 is provided with a second connection end 431 and a connector male end 600 which are electrically connected, and the connector body 400 is rotatably connected with the second end of the slider assembly 500, so that the first connection end 331 is electrically connected with the second connection end 431, or the connector male end 600 is accommodated in the connector male end accommodating cavity 351. In one embodiment, the connector body 400 has a first position and a second position, and it is also understood that the connector body 400 has a first position and a second position with respect to the connector base 300 or the slider assembly 500. The first position may also be referred to as a working position or a usable position of the male connector 600, and the connector body 400 is in the first position as shown in fig. 4 to 6, in this embodiment, the male connector 600 is exposed outside the connector 100 and can be inserted into a corresponding female connector socket. The connector base 300 is provided with a first connection end 331, and the connector body 400 is provided with a second connection end 431 and a connector male end 600 which are electrically connected; the first connection end 331 is adapted to be electrically connected to the second connection end 431. In use, the connector body 400 is rotatably connected to the second end of the slider assembly 500, and rotated to a specific position, so that the first connection end 331 is electrically connected to the second connection end 431, and rotated to another specific position, so that the connector male end 600 is received in the connector male end receiving cavity 351.

The second position may also be referred to as a storage position or an unavailable position of the male connector end 600, and the connector body 400 is in the second position as shown in fig. 9 to 11, and in this embodiment, the male connector end 600 is received in the male connector end receiving cavity 351 of the connector base 300. In the second position, in order to avoid damage caused by the rigid contact of the male connector 600 with the first connection end 331, the male connector 600 is disposed in a non-contact manner with the first connection end 331, that is, the male connector 600 is disposed in a non-contact manner with the first connection end 331, and the male connector 600 is not in contact with the first connection end 331; further, in one embodiment, the male connector 600 is spaced apart from the first connector 331, i.e., isolated. By means of the structural design, the connector main body 400 is simply rotated when the connector 100 is not in use, the connector male end 600 can be stored, the problem that the design life is influenced due to the fact that the connector male end 600 is exposed outside for a long time is avoided, and the connector main body is convenient and fast to rotate.

In one embodiment, as shown in fig. 7 and 8, the first end of the slider assembly 500 is slidably connected to the connector base 300, and the connector body 400 carries the connector male end 600 integrally with the connector base 300 and is slidable along with the slider assembly 500 to adjust the relative distance between the connector male end 600 and the connector base 300.

When the relative distance satisfies the rotation radius of the connector body 400 and the connector male end 600, referring to fig. 9 and 10, the connector male end 600 is rotated from a position away from the connector base 300 to a position adjacent to the connector base 300, and then slides with the slider assembly 500, so that the connector male end 600 is completely accommodated in the connector base 300, as shown in fig. 11. The design is beneficial for the connector male end 600 to have a storage state and a working state along with the rotation of the connector main body 400, and further cooperates with the first connection end 331 to be electrically connected with the second connection end 431, so that the connector male end 600 is electrically connected with the wire 200.

In one embodiment, as shown in fig. 8 and 10, the first connection end 331 and the second connection end 431 are an elastic thimble male end and an elastic thimble female seat, for example, the first connection end 331 is an elastic thimble male end, and the second connection end 431 is an elastic thimble female seat; alternatively, the first connection end 331 is an elastic thimble female seat, and the second connection end 431 is an elastic thimble male end. The rest of the embodiments are analogized and will not be described in detail. In one embodiment, the first connection end 331 is a male pogon end, and the second connection end 431 is a female pogon socket. The design is favorable for realizing stable and quick electric connection, ensures that the male end 600 of the connector is reliably electrically connected with the wire 200, is convenient to apply and has more selectable products, thereby being favorable for reducing the material cost.

Further, in one of the embodiments, as shown in fig. 12 and 13, in the first position, the connector body 400 is in close contact with the connector base 300, so that the first connection end 331 is electrically connected to the second connection end 431. Similarly, the connector base 300 is connected to the wire 200, and the connector base 300 is provided with a connector male end accommodating cavity 351 and a first connecting end 331 electrically connected with the wire 200; the connector body 400 is provided with a second connection end 431; the male connector 600 is disposed on the connector body 400 and electrically connected to the second connection end 431; in the first position, the first connection end 331 is electrically connected to the second connection end 431; in the second position, the connector male end 600 is received in the connector male end receiving cavity 351. The rest of the embodiments are analogized and will not be described in detail.

Referring to fig. 14 and 15, the slider assembly 500 is slidably connected to the connector base 300, so as to form a space for the connector body 400 and the connector male end 600 to rotate.

In one embodiment, the connector base 300 includes a first PCB assembly 330, and a base first cover 310 and a base second cover 320 that are fixed, wherein the base first cover 310 and the base second cover 320 enclose to form a first mounting area 360, the connector male end accommodating cavity 351, the first connection end 331 and the first PCB assembly 330 are all located in the first mounting area 360, and the first connection end 331 is fixed on the first PCB assembly 330 and electrically connected with the wire 200 through the first PCB assembly 330; the connector main body 400 includes a second PCB assembly 430, and a main body first cover 410 and a main body second cover 420 that are fixed, wherein the main body first cover 410 and the main body second cover 420 enclose to form a second mounting area 470, the second connection end 431 and the second PCB assembly 430 are both located in the second mounting area 470, and the second connection end 431 is fixed on the second PCB assembly 430 and electrically connected with the connector male end 600 through the second PCB assembly 430; the first end of the sliding bar assembly 500 is slidably connected to the base first cover 310, and the second end of the sliding bar assembly 500 is rotatably connected to the main body first cover 410.

In one embodiment, the connector base 300 is detachably connected to the connector body 400 by at least one of a snap fit, an interference fit, and a magnetic connection, so as to facilitate the installation or removal of the connector body 400, thereby facilitating the adjustment of the position of the connector body 400, and enabling the connector body 400 to be in the first position and the second position. In one embodiment, the connector body 400 has two opposite ends, both ends are provided with first fixing structures, the second connection end 431 is disposed on one of the first fixing structures, and the male connector end 600 protrudes partially from the other first fixing structure; the connector base 300 is provided with a second fixing structure and a male connector accommodating cavity 351 at one end thereof far away from the wire 200, and the first connecting end 331 is arranged on the second fixing structure; the second fixing structure is matched with any one of the first fixing structures, so that the connector body 400 and the connector base 300 can be detachably connected. In this embodiment, the connector body 400 has a first fixed end 401 and a second fixed end 402 opposite to each other, the first end face 403 of the first fixed end 401 and the second end face 404 of the second fixed end 402 are provided with first fixing structures, the male connector 600 is close to the first end face 403 and partially protrudes from the first fixing structures on the first end face 403, and the second connecting end 431 is disposed on the second end face 404 or the first fixing structures on the second end face 404; the connector base 300 is provided with a second fixing structure and the connector male end accommodating cavity 351 at the connector base end surface 301 far away from the wire 200, and the first connecting end 331 is disposed on the connector base end surface 301 or the second fixing structure corresponding to the second connecting end 431; the second fixing structure is matched with any one of the first fixing structures, so that the connector main body 400 and the connector base 300 can be detachably connected, and the second connection end 431 arranged on the second end face 404 is electrically connected with the first connection end 331 arranged on the connector base end face 301, or the second connection end 431 arranged on the first fixing structure is electrically connected with the first connection end 331 arranged on the second fixing structure.

In one embodiment, the connector base end surface 301 of the end of the connector base 300 far away from the wire 200 is provided with the second fixing structure and the connector male end accommodating cavity 351, correspondingly, the end surfaces of the two ends of the connector body 400 are provided with the first fixing structures, and the second fixing structure is matched with any one of the first fixing structures, so that the connector body 400 and the connector base 300 are detachably connected. In this embodiment, the first connection end 331 is disposed on the second fixing structure of the connector base end face 301.

In one embodiment, the first fixing structure includes a boss and a groove, and the groove is opened on the periphery of the boss; the second fixing structure comprises a boss accommodating cavity 350 and a boss 352 arranged on the periphery of the boss accommodating cavity 350, the boss accommodating cavity 350 is matched with the boss in shape, and the boss 352 is matched with the groove in shape, so that the connector body 400 and the connector base 300 can be detachably connected in at least one mode of clamping, interference fit and magnetic attraction connection, namely, the connector body 400 and the connector base 300 are fixed in clamping, interference fit or magnetic attraction connection, or two or three of clamping, interference fit and magnetic attraction connection can be simultaneously adopted for fixation, so that the connector body 400 and the connector base 300 can be detachably connected. In specific implementation, the fixing manner of the connector base 300 and the connector main body 400 may be interference fit of a protrusion and a groove in the above scheme, or magnetic connection, or combination of interference fit of a protrusion and a groove and magnetic connection.

Conversely, in one embodiment, the second fixing structure includes a boss and a groove, where the groove is opened on the periphery of the boss; the first fixing structure includes a boss accommodating cavity 350 and a boss 352 disposed on a periphery of the boss accommodating cavity 350, the boss accommodating cavity 350 is configured to match the boss, and the boss 352 is configured to match the groove, so that the connector body 400 and the connector base 300 are detachably connected in at least one of a clamping manner, an interference fit manner, and a magnetic connection manner; the rest of the embodiments are analogized and will not be described in detail.

In other embodiments, the grooves may also be provided on the periphery of the boss receiving cavity 350, with the corresponding bosses 352 provided on the periphery of the boss. In one embodiment, the first fixing structure includes a boss and a boss 352 disposed on a periphery of the boss, and the second fixing structure includes a boss accommodating cavity 350 and a groove disposed on a periphery of the boss accommodating cavity 350; the boss accommodating cavity 350 is matched with the boss in shape, and the protruding portion 352 is matched with the groove in shape, so that the connector body 400 and the connector base 300 can be detachably connected in at least one of a clamping mode, an interference fit mode and a magnetic attraction mode. Alternatively, the first fixing structure includes a boss accommodating cavity 350 and a groove disposed on the periphery of the boss accommodating cavity 350, and the second fixing structure includes a boss and a protrusion 352 disposed on the periphery of the boss; the boss accommodating cavity 350 is matched with the boss in shape, and the protruding portion 352 is matched with the groove in shape, so that the connector body 400 and the connector base 300 can be detachably connected in at least one of a clamping mode, an interference fit mode and a magnetic attraction mode.

In one embodiment, the boss comprises a first boss 450 and a second boss 460, and the groove comprises a first groove 451 formed at the periphery of the first boss 450, and a second groove 461 formed at the periphery of the second boss 460; the first boss 450 and the second boss 460 are respectively configured with the boss accommodating cavity 350 in a shape matching manner, and the first groove 451 and the second groove 461 are respectively configured with the protruding portion 352 in a shape matching manner, so that the connector main body 400 and the connector base 300 can be detachably connected in at least one of a clamping manner, an interference fit manner and a magnetic attraction manner. Alternatively, the boss accommodating cavity 350 includes a first boss accommodating cavity and a second boss accommodating cavity, and the boss 352 includes a first boss disposed at a periphery of the first boss accommodating cavity and a second boss disposed at a periphery of the second boss accommodating cavity; the first boss holds the chamber the second boss hold the chamber respectively with boss shape matching sets up, first bellying the second bellying respectively with recess shape matching sets up, so that connector main part 400 with connector base 300 adopts block, interference fit and magnetism to inhale the connection at least one mode detachable connection.

Referring to fig. 16 and 17, in one embodiment, the connector body 400 is provided with a first boss 450 on the second end face 404, and a first groove 451 is formed on the periphery of the first boss 450, that is, the first groove 451 is located on the outer peripheral surface of the first boss 450; the second connection end 431 is disposed on the first boss 450; the connector body 400 is provided with a second boss 460 at the first end surface 403, and a second groove 461 is formed at the periphery of the second boss 460, i.e. the second groove 461 is located on the outer peripheral surface of the second boss 460; the male connector end 600 partially protrudes from the second boss 460; the first boss 450 and the second boss 460 are respectively configured with the boss accommodating cavity 350 in a shape matching manner, and the first groove 451 and the second groove 461 are respectively configured with the protruding portion 352 in a shape matching manner, so that the connector main body 400 and the connector base 300 can be detachably connected in at least one of a clamping manner, an interference fit manner and a magnetic attraction manner. In other embodiments, the connector body 400 is provided with a first boss accommodating cavity at the first end face 403, a first protrusion is provided at a periphery of the first boss accommodating cavity, and the second connection end 431 is disposed on the first boss accommodating cavity; the connector main body 400 is provided with a second boss accommodating cavity at the second end face 404, a second protruding portion is provided at the periphery of the second boss accommodating cavity, and the male connector end 600 protrudes from the second boss accommodating cavity; the first boss holds the chamber the second boss hold the chamber respectively with boss shape matching sets up, first bellying the second bellying respectively with recess shape matching sets up, so that connector main part 400 with connector base 300 adopts block, interference fit and magnetism to inhale the connection at least one mode detachable connection. The structural design is beneficial to simply rotating the connector 100 when not in use to store the male connector 600, and prevents the male connector 600 from being exposed outside for a long time to affect the design life.

In one embodiment, the connector body 400 is provided with a first boss 450 on the second end face 404, a first protrusion is provided on the periphery of the first boss 450, and the second connection end 431 is disposed on the first boss 450; the connector main body 400 is provided with a second boss 460 at the first end surface 403, a second protruding portion is provided at a periphery of the second boss 460, and the male connector 600 protrudes from the second boss 460; the first boss 450 and the second boss 460 are respectively configured in a shape matching manner with the boss accommodating cavity 350, and the first boss and the second boss are respectively configured in a shape matching manner with the groove, so that the connector body 400 and the connector base 300 can be detachably connected in at least one of a clamping manner, an interference fit manner and a magnetic attraction manner. In one embodiment, the connector body 400 is provided with a first boss accommodating cavity at the first end face 403, a first groove 451 is provided at the periphery of the first boss accommodating cavity, and the second connection end 431 is disposed on the first boss accommodating cavity; the connector main body 400 is provided with a second boss accommodating cavity at the second end face 404, a second groove 461 is arranged at the periphery of the second boss accommodating cavity, and the male connector 600 is partially protruded from the second boss accommodating cavity; the first boss holding cavity and the second boss holding cavity are respectively matched with the boss in shape, and the first groove 451 and the second groove 461 are respectively matched with the boss 352 in shape, so that the connector main body 400 and the connector base 300 can be detachably connected in at least one mode of clamping, interference fit and magnetic attraction.

In this embodiment, referring to fig. 18 and 19, when the connector body 400 rotates to the middle position, the connector male end 600 rotates to the position facing the connector base 300, at this time, the second boss 460 and the second groove 461 thereof are adjacent to the connector base 300, the first boss 450 and the first groove 451 thereof are away from the connector base 300, and then the slider assembly 500 is pushed to face the wire 200, and slides on the connector base 300, so as to drive the connector body 400 and the connector male end 600 to approach the connector base 300 until the connector body 400 is in the second position, the second boss 460 is accommodated in the boss accommodating cavity 350, and the second groove 461 and the boss 352 are detachably connected in at least one of a snap-fit, an interference-fit and a magnetic connection, so that the connector body 400 and the connector base 300 are detachably connected in at least one of a snap-fit, an interference-fit and a magnetic connection. Such a structural design is advantageous for fast and effectively mounting and dismounting the connector body 400 and the connector base 300, so that the male connector 600 is rotated and then fixed with the connector body 400, thereby being in a storage state and a working state.

In one embodiment, the connector base 300 or the base first cover 310 of the connector base 300 is provided with a first sliding structure 311; the connector body 400 or the body first cover portion 410 of the connector body 400 is provided with a first rotating structure 411; the sliding bar assembly 500 includes a first limiting member 510, a second sliding structure 531 and a second rotating structure 532; the second sliding structure 531 is disposed at the first end of the slider assembly 500, and the second sliding structure 531 is slidably matched with the first sliding structure 311, so that the first end of the slider assembly 500 is slidably connected with the connector base 300; the first limiting member 510 is fixed to the connector base 300 or the base first cover 310, and is used for preventing the second sliding structure 531 from being separated from the connector base 300, for example, by limiting the first end of the sliding bar assembly 500 to a limit position of sliding of the connector base 300, so as to prevent the second sliding structure 531 from being separated from the connector base 300; the second rotating structure 532 is disposed at the second end of the slider assembly 500, and the second rotating structure 532 is rotationally matched with the first rotating structure 411, so that the second end of the slider assembly 500 is rotationally connected with the connector body 400; the sliding bar assembly 500 further includes a second limiting member 520, where the second limiting member 520 is connected to the first rotating structure 411 or the second rotating structure 532, so as to limit the first rotating structure 411 and the second rotating structure 532 to maintain a rotating connection state. In this embodiment, the second limiting member 520 may be a limiting block. In other embodiments, the shaft may be fixed by gluing or fastening to prevent the shaft from falling out. By means of the structural design, the connector main body 400, the sliding bar assembly 500 and the connector base 300 are in running fit and sliding fit, the connector has the advantage of convenience and quickness in running, and the male connector 600 is easy to control to be in a storage state and a working state.

In this embodiment, the first limiting member 510 is a limiting block, the first sliding structure 311 and the second sliding structure 531 are a sliding groove and a sliding block, and the first rotating structure 411 and the second rotating structure 532 are a rotating shaft hole and a rotating shaft. By means of the structural design, the connector main body 400 is simply rotated to be matched with the sliding strip assembly 500 to slide on the connector base 300, and the male connector 600 and the wire 200 can be electrically connected, so that the connector has the advantages of convenience in application and reliability and effectiveness in connection.

In one embodiment, the connector base 300 further includes a first fixing member 340 and a third fixing member 370, the first PCB assembly 330 of the connector base 300 is fixed to the base first cover 310 or the base second cover 320 of the connector base 300 by the first fixing member 340, and the first limiting member 510 is fixed to an end of the second sliding structure 531 away from the slider assembly 500 by the third fixing member 370; the connector main body 400 further includes a second fixing member 440 and a fourth fixing member 480, the second PCB assembly 430 of the connector main body 400 is fixed on the main body first cover portion 410 or the main body second cover portion 420 of the connector main body 400 by the second fixing member 440, and the second limiting member 520 is fixed on one end of the second rotating structure 532 far away from the slider assembly 500 or the slider main body 530 thereof by the fourth fixing member 480.

In one embodiment, a connecting wire includes the connector 100 of any of the embodiments. For the embodiment where the connector 100 has a wire 200, it is understood that the connection wire has a longer wire 200 and other structural members such as a USB connection terminal electrically connected to the wire 200, etc. For the embodiment where the connector 100 does not have the wire 200, it is understood that the connection line includes the connector 100 and the wire 200. In one embodiment, the connection line is a data line or a power supply line, such as a USB data line or a USB charging line.

The connector head 100 or the connection line with the connector head 100 is in use, when the connector male end 600 is required to be used, as shown in fig. 6 and 12, the connector head body 400 is in the second position.

When the male connector 600 is not needed, the connector body 400 or the slider assembly 500 is first forced in a direction away from the connector base 300, so that the connector body 400 slides relative to the connector base 300 through the slider assembly 500 to form a certain distance, as shown in fig. 7 and 14.

When the connector body 400 slides to a certain distance, for example, the maximum distance that the slider assembly 500 can slide, the connector body 400 rotates 180 degrees, and the connector male end 600 faces the connector base 300, as shown in fig. 9 and 18.

The connector body 400 or the slider assembly 500 is forced in a direction towards the connector base 300, so that the connector body 400 slides relative to the connector base 300 through the slider assembly 500, and finally the connector body 400 contacts the connector base 300 and is fixed with the connector base 300, as shown in fig. 11 and 19, and the connector body 400 is at the first position.

An example of a specific application is given below with continued reference to fig. 1 to 19.

The slider assembly 500 of the connector 100 has one end slidably connected to the connector base 300, the other end rotatably connected to the connector body 400, the two ends of the connector body 400 are respectively provided with a boss, the whole body of the boss is provided with a groove, the connector base 300 is provided with a boss accommodating cavity 350 and a connector male end accommodating cavity 351, the inner wall of the boss accommodating cavity 350 is provided with a circle of protruding parts 352, so that when the data line is used, the boss of the connector body 400 at one end far away from the connector male end 600 is accommodated in the boss accommodating cavity 350 through the interference fit of the protruding parts 352 and the groove, such as the first groove 451 or the second groove 461, and when the connector 100 is not used, such as the data line with the connector 100, the connector body 400 can be slidably connected and rotatably connected relative to the connector base 300, so that when the data line is not used, the boss of the connector body 400 near one end of the connector body 400 is accommodated in the boss accommodating cavity 350 through the interference fit of the protruding parts and the groove, and meanwhile the connector male end 600 is accommodated in the connector male end 600 accommodating groove, thereby playing a role of protecting the connector male end 600.

The connecting wire or the connector 100 thereof comprises a wire 200, a connector base 300, a connector body 400 and a slider assembly 500.

The connector base 300 includes a base first cover 310, a base second cover 320, a first PCB assembly 330, a first fixing member 340, and the like, and a first connection end 331 is provided on the first PCB assembly 330.

The connector body 400 includes a body first cover part 410, a body second cover part 420, a second PCB assembly 430, a second fixing member 440, and the like, and a second connection end 431 is provided on the second PCB assembly 430.

The slider assembly 500 includes a slider main body 530, a first limiting member 510, a second limiting member 520, and the like, wherein one end of the slider main body 530 is provided with a second sliding structure 531, a first sliding structure 311 is provided on the first cover portion 310 of the base, the second sliding structure 531 on the slider main body 530 passes through the first sliding structure 311 on the first cover portion 310 of the base, the first limiting member 510 is fixed at one end of the second sliding structure 531 far away from the slider main body 530 through a first fixing member 340, the function of the first limiting member 510 ensures that the second sliding structure 531 cannot be separated from the first cover portion 310 of the base, so that the second sliding structure 531 can slide normally in the first sliding structure 311, and in other schemes, the limiting block and the second sliding structure 531 can be fixed together through gluing or fastening connection or other modes.

The other end of the slide main body 530 is provided with a second rotating structure 532, the first cover part 410 of the main body is provided with a first rotating structure 411, the second rotating structure 532 on the slide main body 530 penetrates through the first rotating structure 411 on the first cover part 310 of the base, the second limiting piece 520 is fixed at one end, far away from the slide main body 530, of the second rotating structure 532 through a second fixing piece 440, the second limiting piece 520 ensures that the second rotating structure 532 cannot be separated from the first cover part 410 of the main body, so that the second rotating structure 532 can rotate normally in the first rotating structure 411, and in other schemes, the second limiting piece 520 or the second rotating structure 532 and the first rotating structure 411 can be fixed together through gluing or buckling connection and other modes.

In this embodiment, the first limiting member 510 and the second limiting member 520 are limiting blocks, the first sliding structure 311 is a sliding chute, the second sliding structure 531 is a sliding block, the first rotating structure 411 is a rotating shaft hole, the second rotating structure 532 is a rotating shaft, the first fixing member 340, the second fixing member 440, the third fixing member 370 and the fourth fixing member 480 are screws, and the specifications of the screws are the same or different.

The connector base 300 is provided with a boss accommodating cavity 350 on the connector base end face 301 far away from the wire 200, one end of the boss accommodating cavity 350 far away from the connector base end face 301 is provided with a connector male end accommodating cavity 351, and the inner wall of the boss accommodating cavity 350 is provided with a circle of protruding parts 352; the connector body 400 is provided with the first boss 450 far away from the connector male end 600 one end, and first boss 450 is provided with first recess 451 on the whole, and connector body 400 is provided with the second boss 460 near the connector male end 600 one end, and the second boss 460 is provided with the second recess 461 on the whole, and when first boss 450 is acceptd in boss accommodation chamber 350, first link 331 and second link 431 cooperation realization electricity are connected to fix connector base 300 and connector body 400 together through the interference fit of first recess 451 and bellying 352, as shown in fig. 12 and 13.

When the second boss 460 is received in the boss receiving cavity 350 and the connector male end 600 is received in the connector male end receiving cavity 351, the connector base 300 and the connector body 400 are fixed together by the interference fit of the second groove 461 and the boss 352, as shown in fig. 11 and 19.

When the connecting wire or the connector 100 is used, the first boss 450 is received in the boss receiving cavity 350 as shown in fig. 13.

When the connection wire or the connector 100 is not needed, the first boss 450 is pulled out of the boss accommodating cavity 350, and at this time, the second sliding structure 531 of the slider assembly 500 slides in the first sliding structure 311, and the connector base 300 is separated from the connector body 400, as shown in fig. 14 and 15.

When the second sliding structure 531 of the slider assembly 500 slides to the rightmost position, the connector body 400 may be engaged with the second rotating structure 532 of the slider assembly 500 by the first rotating structure 411, and the connector body 400 may be rotated 180 degrees with respect to the connector base 300, so that the connector male end 600 is aligned with the connector male end receiving cavity 351, as shown in fig. 18.

When it is desired to protect the connector male terminal 600, the connector male terminal 600 may be received in the connector male terminal receiving cavity 351 and the second boss 460 may be received in the boss receiving cavity 350, as shown in fig. 19. When the connecting wire or the connector 100 is not used, the connector male end 600 can be accommodated in the connector base 300, so as to protect the connector male end 600 and prevent the connector male end 600 from being exposed outside for a long time, so that foreign matters enter the connector male end 600 and cause short circuit.

It should be noted that, other embodiments of the present application further include a connector and a connecting line, which are formed by combining technical features of the above embodiments.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples only represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the claims. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of the present application is to be determined by the following claims.

Claims (10)

1. A connector (100), characterized by comprising:

the connector base (300) is used for being connected with the wire (200), and the connector base (300) is provided with a connector male end accommodating cavity (351) and a first connecting end (331) electrically connected with the wire (200);

The first end of the sliding strip assembly (500) is in sliding connection with the connector base (300); and

The connector body (400) is provided with a second connecting end (431) and a connector male end (600) which are electrically connected, and the connector body (400) is rotationally connected with the second end of the sliding bar assembly (500), so that the first connecting end (331) is electrically connected with the second connecting end (431), or the connector male end (600) is accommodated in the connector male end accommodating cavity (351).

2. The connector (100) of claim 1, wherein the connector body (400) has a first position in which the first connection end (331) is electrically connected to the second connection end (431) and a second position; in the second position, the connector male end (600) is received in the connector male end receiving cavity (351).

3. The connector (100) of claim 2, wherein the connector base (300) is detachably connected to the connector body (400) by at least one of a snap fit, an interference fit, and a magnetic connection.

4. A connector (100) according to claim 3, wherein the connector body (400) has a first fixed end (401) and a second fixed end (402) opposite to each other, a first end face (403) of the first fixed end (401) and a second end face (404) of the second fixed end (402) are each provided with a first fixing structure, the connector male end (600) is close to the first end face (403) and partially protrudes from the first fixing structure on the first end face (403), and the second connecting end (431) is provided on the second end face (404) or the first fixing structure on the second end face (404);

The connector base (300) is provided with a second fixing structure and a connector male end accommodating cavity (351) at the end face (301) of the connector base far away from the wire rod (200), and the first connecting end (331) is arranged on the end face (301) of the connector base or the second fixing structure corresponding to the second connecting end (431);

the second fixing structure is matched with any first fixing structure, so that the connector main body (400) and the connector base (300) are detachably connected.

5. The connector (100) of claim 4, wherein the first fixing structure comprises a boss and a groove, the groove is formed on the periphery of the boss, and the second fixing structure comprises a boss accommodating cavity (350) and a boss (352) arranged on the periphery of the boss accommodating cavity (350); or,

the first fixing structure comprises a boss accommodating cavity (350) and a protruding part (352) arranged on the periphery of the boss accommodating cavity (350), the second fixing structure comprises a boss and a groove, and the groove is formed on the periphery of the boss; or,

the first fixing structure comprises a boss and a boss (352) arranged on the periphery of the boss, and the second fixing structure comprises a boss accommodating cavity (350) and a groove arranged on the periphery of the boss accommodating cavity (350); or,

The first fixing structure comprises a boss accommodating cavity (350) and a groove arranged on the periphery of the boss accommodating cavity (350), and the second fixing structure comprises a boss and a protruding part (352) arranged on the periphery of the boss;

and, boss holds chamber (350) with boss shape matching sets up, just protruding portion (352) with recess shape matching sets up, so that connector main part (400) with connector base (300) adopts at least one kind mode detachable connection in block, interference fit and the magnetic attraction connection.

6. The connector (100) of claim 5, wherein the connector body (400) is provided with a first boss (450) on the second end surface (404), and a first groove (451) is formed on a periphery of the first boss (450), and the second connection end (431) is disposed on the first boss (450); the connector main body (400) is provided with a second boss (460) at the first end face (403), a second groove (461) is formed in the periphery of the second boss (460), and the male end (600) of the connector partially protrudes out of the second boss (460);

the first boss (450) and the second boss (460) are respectively matched with the boss accommodating cavity (350) in shape, and the first groove (451) and the second groove (461) are respectively matched with the protruding part (352) in shape, so that the connector main body (400) and the connector base (300) are detachably connected in at least one mode of clamping, interference fit and magnetic connection; or,

The connector main body (400) is provided with a first boss accommodating cavity at the first end face (403), a first protruding part is arranged at the periphery of the first boss accommodating cavity, and the second connecting end (431) is arranged on the first boss accommodating cavity; the connector main body (400) is provided with a second boss accommodating cavity at the second end face (404), a second protruding part is arranged at the periphery of the second boss accommodating cavity, and the male end (600) of the connector partially protrudes out of the second boss accommodating cavity;

the first boss accommodating cavity and the second boss accommodating cavity are respectively matched with the boss in shape, and the first protruding part and the second protruding part are respectively matched with the groove in shape, so that the connector main body (400) and the connector base (300) are detachably connected in at least one mode of clamping, interference fit and magnetic attraction; or,

the connector main body (400) is provided with a first boss (450) on the second end face (404), a first protruding part is arranged on the periphery of the first boss (450), and the second connecting end (431) is arranged on the first boss (450); the connector main body (400) is provided with a second boss (460) on the first end face (403), a second protruding part is arranged on the periphery of the second boss (460), and the male end (600) of the connector protrudes out of the second boss (460);

The first boss (450) and the second boss (460) are respectively matched with the boss accommodating cavity (350) in shape, and the first boss and the second boss are respectively matched with the groove in shape, so that the connector main body (400) and the connector base (300) are detachably connected in at least one mode of clamping, interference fit and magnetic attraction; or,

the connector main body (400) is provided with a first boss accommodating cavity at the first end face (403), a first groove (451) is formed in the periphery of the first boss accommodating cavity, and the second connecting end (431) is arranged on the first boss accommodating cavity; the connector main body (400) is provided with a second boss accommodating cavity at the second end face (404), a second groove (461) is arranged at the periphery of the second boss accommodating cavity, and the male end (600) of the connector partially protrudes out of the second boss accommodating cavity;

the first boss holds the chamber the second boss hold the chamber respectively with boss shape matching sets up, first recess (451) second recess (461) respectively with bellying (352) shape matching sets up, so that connector main part (400) with connector base (300) adopts at least one kind of mode detachable connection in block, interference fit and the magnetism to inhale the connection.

7. The connector (100) according to claim 1, wherein the connector base (300) or a base first cover part (310) of the connector base (300) is provided with a first sliding structure (311);

the connector body (400) or a first cover part (410) of the connector body (400) is provided with a first rotating structure (411);

the sliding bar assembly (500) comprises a first limiting piece (510), a second sliding structure (531) and a second rotating structure (532);

the second sliding structure (531) is arranged at the first end of the sliding strip assembly (500), and the second sliding structure (531) is in sliding fit with the first sliding structure (311) so that the first end of the sliding strip assembly (500) is in sliding connection with the connector base (300);

the first limiting piece (510) is fixed on the connector base (300) or the base first cover part (310) and is used for preventing the second sliding structure (531) from being separated from the connector base (300);

the second rotating structure (532) is arranged at the second end of the sliding bar assembly (500), and the second rotating structure (532) is in rotating fit with the first rotating structure (411) so as to enable the second end of the sliding bar assembly (500) to be in rotating connection with the connector main body (400);

The sliding bar assembly (500) further comprises a second limiting piece (520), and the second limiting piece (520) is connected with the first rotating structure (411) or the second rotating structure (532) so as to limit the first rotating structure (411) and the second rotating structure (532) to keep a rotating connection state.

8. The connector (100) of claim 7, wherein the first limiting member (510) and the second limiting member (520) are limiting blocks, the first sliding structure (311) and the second sliding structure (531) are sliding grooves and sliding blocks, and the first rotating structure (411) and the second rotating structure (532) are rotating shaft holes and rotating shafts; and/or the number of the groups of groups,

the connector base (300) further comprises a first fixing piece (340) and a third fixing piece (370), the first PCB assembly (330) of the connector base (300) is fixed on the base first cover part (310) or the base second cover part (320) of the connector base (300) through the first fixing piece (340), and the first limiting piece (510) is fixed on one end, far away from the slide bar assembly (500), of the second sliding structure (531) through the third fixing piece (370);

the connector main body (400) further comprises a second fixing piece (440) and a fourth fixing piece (480), the second PCB assembly (430) of the connector main body (400) is fixed on the first cover part (410) or the second cover part (420) of the connector main body (400) through the second fixing piece (440), and the second limiting piece (520) is fixed at one end, far away from the sliding bar assembly (500), of the second rotating structure (532) through the fourth fixing piece (480); and/or the number of the groups of groups,

The connector base (300) comprises a first PCB assembly (330), a base first cover part (310) and a base second cover part (320) which are fixed with each other, wherein the base first cover part (310) and the base second cover part (320) are enclosed to form a first installation area (360), the male end accommodating cavity (351), the first connecting end (331) and the first PCB assembly (330) of the connector are all positioned in the first installation area (360), and the first connecting end (331) is fixed on the first PCB assembly (330) and is electrically connected with the wire (200) through the first PCB assembly (330);

the connector main body (400) comprises a second PCB assembly (430), a main body first cover part (410) and a main body second cover part (420) which are fixed, wherein the main body first cover part (410) and the main body second cover part (420) are enclosed to form a second installation area (470), the second connecting end (431) and the second PCB assembly (430) are both positioned in the second installation area (470), and the second connecting end (431) is fixed on the second PCB assembly (430) and is electrically connected with the connector male end (600) through the second PCB assembly (430);

the first end of the sliding bar assembly (500) is in sliding connection with the first cover part (310) of the base, and the second end of the sliding bar assembly (500) is in rotary connection with the first cover part (410) of the main body; and/or the number of the groups of groups,

The connector (100) further comprises the wire (200) and a sheath (700) thereof, the connector base (300) is connected into the wire (200) through the sheath (700), and the first connecting end (331) is electrically connected with the wire (200).

9. The connector (100) of any one of claims 1 to 8, wherein the first connection end (331) and the second connection end (431) are a male end of an elastic thimble and a female seat of an elastic thimble.

10. A connecting line, characterized in that it comprises a connecting head (100) according to any one of claims 1 to 9.