CN219086350U - Connector connection assembly and cable structure - Google Patents

Abstract

The application discloses coupling assembling and cable structure for connector belongs to the connection technical field of connector. The connector comprises a male connection end and a female connection end, the connection assembly comprises a first clamping cap, a second clamping cap and a locking piece, the first clamping cap and the second clamping cap are respectively provided with a first mounting groove and a second mounting groove, and the first mounting groove and the second mounting groove can jointly form a mounting hole for the male connection end and the female connection end to extend into; the first clamping cap and the second clamping cap are detachably connected through a locking piece, the locking piece can move between a first position and a second position relative to the first clamping cap, a mounting hole is formed by the first clamping cap and the second clamping cap together, the second clamping cap is locked by the locking piece under the condition that the locking piece is positioned at the first position, and the first clamping cap and the second clamping cap are locked and connected with the male end and the female end together; under the condition that the first clamping cap and the second clamping cap jointly form a mounting hole and the locking piece is located at the second position, the locking piece unlocks the second clamping cap, and the first clamping cap and the second clamping cap can be separated from each other.

Description

Connector connection assembly and cable structure

Technical Field

The application belongs to the technical field of connection of connectors, and particularly relates to a connecting assembly for a connector and a cable structural member.

Background

The connecting clamp cap is a structural member for connecting and locking two adjacent components. In the related art, the connection clip cap is used for connecting two adjacent connectors, one of which is usually a connection male end and the other is a connection female end. The connection clamp cap is provided with a threaded hole for the cable to penetrate, after the cable penetrates through the threaded hole, a connecting piece is arranged between the connection male end and the cable, one end of the connection male end and one end of the cable are connected through the connecting piece, the connecting piece can extend into the threaded hole, the connecting piece and the connection clamp cap are in limiting fit in the axial direction of the threaded hole, the connection clamp cap is prevented from being separated from the cable and the connecting piece, then, the connection female end extends into the threaded hole and is in threaded fit with the connection clamp cap, and at the moment, the connecting piece is also limited between the connection female end and the connection clamp cap, so that connection between the connection male end and the connection female end is realized.

However, in the connection process, after the connection clamp cap is sleeved on the periphery of the cable, a connecting piece is arranged between the end part of the cable and the connector, and the connection clamp cap is prevented from being separated from the cable through the connecting piece, so that the connection clamp cap cannot be separated from the cable under the condition that the connection clamp cap is damaged, and the maintainability of the connection clamp cap is poor; moreover, the above-mentioned assembly process is limited, and the cable structure member that the connection clamping cap was used needs to install the connection clamping cap before assembling, therefore, if the delivery date of connection clamping cap is limited, can't connect the public end of connection with connect female end, can prolong the lead time of whole product, leads to the production cycle of product limited.

Disclosure of Invention

An objective of the embodiments of the present application is to provide a connection assembly for a connector and a cable structure, which can solve the problems of poor maintainability of a connection clip cap and limited production cycle of the cable structure in the related art.

In a first aspect, embodiments of the present application provide a connection assembly for a connector, the connector includes a male connection end and a female connection end, the connection assembly includes a first locking cap, a second locking cap, and a locking member, wherein:

the first clamping cap and the second clamping cap are respectively provided with a first mounting groove and a second mounting groove, and the first mounting groove and the second mounting groove can jointly form a mounting hole for the male connection end and the female connection end to extend in;

the first clamping cap and the second clamping cap are detachably connected through the locking piece, the locking piece can move between a first position and a second position relative to the first clamping cap, and the locking piece locks the second clamping cap under the condition that the first clamping cap and the second clamping cap jointly form the mounting hole and the locking piece is located at the first position, and the first clamping cap and the second clamping cap jointly lock the connecting male end and the connecting female end; under the condition that the first clamping cap and the second clamping cap jointly form the mounting hole and the locking piece is located at the second position, the locking piece unlocks the second clamping cap, and the first clamping cap and the second clamping cap can be separated from each other.

In a second aspect, embodiments of the present application further provide a cable structural member, where the cable structural member includes the connector connection assembly described above.

In this application embodiment, utilize the different motion positions of locking piece to realize the connection and the separation of first calorie of cap and second calorie of cap, and then make first calorie of cap and second calorie of cap lock joint public end and connect female end jointly, perhaps make first calorie of cap and second calorie of cap release connect public end and connect female end. The first clamping cap and the second clamping cap are detached by utilizing the movement of the locking piece under the condition that the first clamping cap or the second clamping cap is damaged, so that the first clamping cap and the second clamping cap are separated from the male end and the female end, the first clamping cap or the second clamping cap is convenient to return to a factory for maintenance, and the maintainability is improved; meanwhile, as the first clamping cap and the second clamping cap can be detached and installed at any time, even if the delivery period of the first clamping cap and the second clamping cap is limited, other assembly processes can be performed first, so that the cable structural member is not limited by the delivery period of the first clamping cap and the second clamping cap, the first clamping cap and the second clamping cap can be installed in any link of the assembly period, and the extension of the delivery period of the whole product is avoided.

Drawings

Fig. 1 is a schematic structural view of a connector connection assembly disclosed in an embodiment of the present application;

FIG. 2 is an exploded view of a connector connection assembly as disclosed in an embodiment of the present application;

FIG. 3 is an exploded cross-sectional view of a connector connection assembly as disclosed in an embodiment of the present application;

FIG. 4 is an exploded cross-sectional view of the connector coupling assembly disclosed in the embodiments of the present application after the locking member and the resilient member are installed;

FIG. 5 is a cross-sectional view of a connector connection assembly disclosed in an embodiment of the present application;

fig. 6 is a schematic structural view of a cable structure disclosed in an embodiment of the present application.

Reference numerals illustrate:

100-first clamping cap, 110-first mounting groove, 111-first threaded portion, 120-groove, 130-first opening,

200-second clamping caps, 210-second mounting grooves, 211-second threaded parts, 220-protruding blocks, 221-limit grooves, 300-mounting holes, and,

a-an arc-shaped part, b-a first edge part, c-a second edge part,

400-locking piece, 410-through hole, 420-limiting block,

500-elastic member,

600-gasket, 610-main body, 611-second opening, 620-extension,

700-limit bump,

810-connection male terminal, 820-connection female terminal.

Detailed Description

Technical solutions in the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application are within the scope of the protection of the present application.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type and not limited to the number of objects, e.g., the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The connection assembly for the connector and the cable structural member provided in the embodiments of the present application are described in detail below with reference to the accompanying drawings by means of specific embodiments and application scenarios thereof.

Referring to fig. 1 to 6, the disclosed connector connection assembly includes a first card cap 100, a second card cap 200, and a locking member 400. As shown in fig. 6, the connector includes a connection male end 810 and a connection female end 820, and the connection male end 810 may be a plug and the connection female end 820 may be a socket. The first and second caps 100 and 200 are provided with first and second mounting grooves 110 and 210, respectively, and the first and second mounting grooves 110 and 210 may together form a mounting hole 300 into which the male and female connection ends 810 and 820 extend. Specifically, in the case where the first and second caps 100 and 200 are brought close to and in contact with each other, the first and second mounting grooves 110 and 210 together form the mounting hole 300, and the structures of the first and second mounting grooves 110 and 210 and the mounting hole 300 are not limited herein.

The first and second caps 100 and 200 are detachably coupled by a locking member 400, the locking member 400 being movable relative to the first cap 100 between a first position and a second position. Alternatively, the locking piece 400 may be movably connected to the first card cap 100, and the locking piece 400 may be slidably connected or rotatably connected to the first card cap 100; the locking member 400 may be provided separately from the first locking cap 100, and in any case, the second locking cap 200 may be locked and unlocked by the movement of the locking member 400.

In the case that the first card cap 100 and the second card cap 200 together form the mounting hole 300 and the locking member 400 is at the first position, the locking member 400 locks the second card cap 200, the second card cap 200 is fixed with respect to the first card cap 100, at this time, the first card cap 100 and the second card cap 200 together lock the connection male end 810 and the connection female end 820, the connection male end 810 and the connection female end 820 are both located in the connection hole, and the first card cap 100 and the second card cap 200 together clamp the connection male end 810 and the connection female end 820; in the case that the first card cap 100 and the second card cap 200 together form the mounting hole 300 and the locking member 400 is at the second position, the locking member 400 unlocks the second card cap 200, and the second card cap 200 is movable with respect to the first card cap 100, so that the second card cap 200 can be separated from the first card cap 100, and separation of the first card cap 100 and the second card cap 200 is achieved.

In the embodiment of the present application, the connection and separation of the first card cap 100 and the second card cap 200 are achieved by using different movement positions of the locking member 400, so that the first card cap 100 and the second card cap 200 are locked together to connect the male end 810 and the female end 820, or the first card cap 100 and the second card cap 200 are released to connect the male end 810 and the female end 820. In this way, in case that the first card cap 100 or the second card cap 200 is damaged, the first card cap 100 and the second card cap 200 can be disassembled by using the movement of the locking member 400, so that the first card cap 100 and the second card cap 200 are separated from the male connection end 810 and the female connection end 820, thereby facilitating the repair of the first card cap 100 or the second card cap 200 for returning to the factory and improving the maintainability; meanwhile, since the first and second caps 100 and 200 can be detached and installed at any time, even though the delivery period of the first and second caps 100 and 200 is limited, other assembly processes can be performed first, and thus the cable structural member is not limited by the delivery period of the first and second caps 100 and 200, the first and second caps 100 and 200 can be installed at any link of the assembly period, and the extension of the delivery period of the whole product can be avoided.

In an alternative embodiment, the surface of the second locking cap 200 is provided with a locking hole into which the locking member 400 extends, and in the case that the first locking cap 100 and the second locking cap 200 together form the mounting hole 300, the locking member 400 is opposite to the locking hole, the locking member 400 may extend into the locking hole, and in the case that the locking member 400 extends into the locking hole, the locking member 400 locks the second locking cap 200; in the case where the locking piece 400 is disengaged from the locking hole, the locking piece 400 unlocks the second cartridge 200. Alternatively, the locking element 400 may be a fastener provided with external threads, and the locking hole is provided with internal threads that mate with the external threads.

In another embodiment, the first card cap 100 is provided with the groove 120, the second card cap 200 is provided with the bump 220, one of the bump 220 and the locking piece 400 is provided with the limit groove 221, the other is provided with the limit block 420, and in the condition that the first card cap 100 and the second card cap 200 jointly form the mounting hole 300 and the locking piece 400 is located at the first position, the bump 220 stretches into the groove 120, the limit block 420 stretches into the limit groove 221, the limit block 420 is in limit fit with the limit groove 221, and optionally, the limit block 420 contacts with the limit groove 221. Specifically, in the case that the first clip cap 100 and the second clip cap 200 together form the mounting hole 300, the protrusion 220 extends into the groove 120, and at this time, the stopper 420 is opposite to the stopper groove 221, and the stopper 420 may extend into the stopper groove 221 by the movement of the locking member 400, so as to lock the second clip cap 200; in the case that the first clip cap 100 and the second clip cap 200 are separated from each other, the protrusion 220 does not extend into the groove 120, and the stopper 420 is staggered from the limiting groove 221, so that even if the locking member 400 moves, the stopper 420 cannot extend into the limiting groove 221, and the second clip cap 200 cannot be locked. Thus, the locking piece 400 indirectly realizes the locking of the second clamping cap 200 through the locking projection 220, so that the inconvenience caused by directly locking the second clamping cap 200 by the locking piece 400 is avoided; also, the first and second caps 100 and 200 are guided to accurately form the mounting hole 300 by means of the fitting structure of the protrusion 220 and the groove 120.

Optionally, the wall surface of the groove 120 mates with the surface of the bump 220. In this way, the first card cap 100 further limits the protruding block 220 through the groove 120, so as to avoid the movement of the second card cap 200 and the protruding block 220 relative to the first card cap 100, and ensure the stability of the second card cap 200 in the locking state.

In an alternative embodiment, the locking member 400 contacts the tab 220 only through the cooperating stop slot 221 and stop 420. In another embodiment, the locking member 400 is provided with a through hole 410, the limiting block 420 or the limiting groove 221 is disposed on the wall of the through hole 410, the through hole 410 is communicated with the groove 120, the bump 220 can penetrate through the through hole 410, and the bump 220 is in limiting fit with the wall surface of the through hole 410, optionally, the surface of the bump 220 is in contact with the wall surface of the through hole 410. Specifically, in the case that the locking member 400 is in the first position or the second position, the through hole 410 is in communication with the groove 120, and in the case that the locking member 400 is in the second position, the protrusion 220 may penetrate through the through hole 410 to extend into the groove 120, and after the protrusion 220 extends into the groove 120, that is, after the first clip cap 100 and the second clip cap 200 form the mounting hole 300, the locking member 400 returns to the first position, so that the stopper 420 extends into the stopper groove 221, thereby locking the second clip cap 200. In this way, the locking piece 400 surrounds the bump 220, and besides the cooperation of the limiting groove 221 and the limiting block 420, the locking piece 400 further limits the bump 220 through the hole wall of the through hole 410, so that the bump 220 and the second clamping cap 200 are prevented from moving relative to the first clamping cap 100 in the locking state, and stability in the locking state is ensured.

In an alternative embodiment, the first card cap 100 and the second card cap 200 each include an arc portion a, a first edge portion b and a second edge portion c, where the first edge portion b and the second edge portion c are disposed at opposite ends of the arc portion a, the arc portion a is provided with a first mounting groove 110 or a second mounting groove 210, the first edge portion b or the second edge portion c of the first card cap 100 is provided with a groove 120, and the first edge portion b or the second edge portion c of the second card cap 200 is provided with a bump 220. In this way, the locking member 400 can only lock one end of the arc-shaped portion a of the second locking cap 200, and the other end can be positioned by a positioning pin or the like, so that the whole structure of the second locking cap 200 cannot be locked. Therefore, in another embodiment, the first edge portion b and the second edge portion c of the first card cap 100 are provided with the grooves 120, and the first edge portion b and the second edge portion c of the second card cap 200 are provided with the protrusions 220, and the protrusions 220, the grooves 120 and the locking members 400 are respectively in one-to-one correspondence. In this way, the two ends of the arc-shaped portion a of the first card cap 100 and the second card cap 200 are respectively locked by the locking piece 400, so that the overall structure of the second card cap 200 is fixed relative to the first card cap 100 in the locked state, and the stability of the second card cap 200 in the locked state is improved.

In an alternative embodiment, the protrusion 220, the groove 120 and the locking member 400 are respectively provided as one in the axial direction of the mounting hole 300, or, as shown in fig. 2, the protrusion 220, the groove 120 and the locking member 400 are respectively provided at intervals of at least two in the axial direction of the mounting hole 300, and the protrusion 220, the groove 120 and the locking member 400 are respectively in one-to-one correspondence. In the latter embodiment, different locking pieces 400 are used to lock different protrusions 220 in the axial direction of the mounting hole 300, so as to lock different positions of the second locking cap 200, thereby further improving the stability of the second locking cap 200 in the locked state.

In this embodiment, at least two grooves 120 are respectively disposed on the first edge b and the second edge c of the first clip cap 100 in the axial direction of the mounting hole 300, at least two protrusions 220 are respectively disposed on the first edge b and the second edge c of the second clip cap 200, and the protrusions 220, the grooves 120 and the locking members 400 are respectively in one-to-one correspondence.

In the scheme of the present application, the locking member 400 may be driven to switch between the first position and the second position by manual action, so that locking and unlocking of the second cartridge cap 200 are achieved, however, in this way, in the installation process and the disassembly process of the first cartridge cap 100 and the second cartridge cap 200, the movement of the locking member 400 is frequently controlled by manpower, resulting in low installation efficiency and disassembly efficiency.

In order to solve the above problem, the connector assembly further includes an elastic member 500, wherein one end of the elastic member 500 abuts against the first locking cap 100, and the other end of the elastic member 500 abuts against the locking member 400, and the elastic member 500 can drive the locking member 400 to move from the second position to the first position. Wherein the elastic member 500 may be, but is not limited to, a spring. Optionally, the first card cap 100 is provided with a receiving groove, the receiving groove is communicated with the groove 120, and the elastic member 500 is disposed in the receiving groove. When the locking member 400 is located at the first position or the second position, the locking member 400 acts on the elastic member 500, the elastic member 500 is elastically deformed, and the deformation amount of the elastic member 500 when the locking member 400 is located at the second position is greater than the deformation amount of the elastic member 500 when the locking member 400 is located at the first position. Therefore, the elastic member 500 directly drives the locking member 400 to move from the second position to the first position, so that only manual action is needed to be applied to the locking member 400 in the process of mounting and dismounting, so that the locking member 400 can move from the first position to the second position, the frequency of the movement of the locking member 400 is reduced by manpower control, and the mounting efficiency and the dismounting efficiency are improved. Meanwhile, when the first clip cap 100 is provided with the groove 120, the second clip cap 200 is provided with the protruding block 220, one of the protruding block 220 and the locking piece 400 is provided with the limit groove 221, and the other is provided with the limit block 420, the elastic piece 500 applies a force to the locking piece 400, so that the limit block 420 and the limit groove 221 are more reliably in limit fit, and the locking effect is improved.

In an alternative embodiment, the elastic members 500 are provided in one in the axial direction of the mounting hole 300, or at least two elastic members 500 are provided at intervals in the axial direction of the mounting hole 300, and at least two elastic members 500 are abutted against the same locking member 400. In the latter embodiment, the same locking member 400 is driven to move by at least two elastic members 500, so that the driving force to the locking member 400 is increased, the speed of the locking member 400 in the moving process from the second position to the first position is increased, the moving time is shortened, and the installation efficiency and the disassembly efficiency are further improved. In the present embodiment, each locking member 400 is driven by at least two elastic members 500, respectively.

In this embodiment, the locking member 400 is separately disposed with the first locking cap 100, as shown in fig. 2-5, the surface of the first locking cap 100 is provided with a first opening 130, the first opening 130 is communicated with the groove 120, and the locking member 400 can extend into the groove 120 through the first opening 130. In actual installation, the locking piece 400 is first stretched into the groove 120 from the first opening 130 by manual action and moved to the second position, so that the protruding block 220 can penetrate through the through hole 410 of the locking piece 400 to stretch into the groove 120, after the protruding block 220 stretches into the groove 120, the locking piece 400 is released, under the action of the elastic piece 500, the locking piece 400 directly moves to the first position, the limiting block 420 stretches into the limiting groove 221, and the locking of the second clamping cap 200 is realized; similarly, when the locking member 400 is required to be detached, the locking member 400 is pushed by manual action to move to the second position, and at this time, the stopper 420 is separated from the stopper groove 221, the protrusion 220 loses the restriction of the locking member 400, and the protrusion 220 can directly extend out of the groove 120 from the through hole 410 of the locking member 400, so that the second clip cap 200 is separated from the first clip cap 100.

In the aspect of the present application, the connection assembly for a connector further includes a gasket 600, the gasket 600 being disposed between the first card cap 100 and the second card cap 200, the gasket 600 sealing a gap between the first card cap 100 and the second card cap 200. Alternatively, the gasket 600 may be a rubber gasket. In this way, the sealing gasket 600 seals the gap between the first card cap 100 and the second card cap 200, so that external dust, liquid and other objects are prevented from entering the mounting hole 300 through the gap between the first card cap 100 and the second card cap 200, the working environment of the connection assembly is ensured, the service life of the connection assembly is prolonged, and meanwhile, the influence on the male connection end 810 and the female connection end 820 is avoided. Further, since the gasket 600 generally has a certain elasticity, the gasket 600 can be sufficiently contacted with the first card cap 100 and the second card cap 200, and the situation that the first card cap 100 and the second card cap 200 cannot be sufficiently contacted directly is avoided.

In an alternative embodiment, as shown in fig. 1 and 2, an inner wall surface of at least one of the first and second mounting grooves 110 and 210 is provided with a limit protrusion 700, and the connection male end 810 or the connection female end 820 may be in limit fit with the limit protrusion 700 in the axial direction of the mounting hole 300. Optionally, in the axial direction of the mounting hole 300, the first clip cap 100 and the second clip cap 200 are provided with a first end and a second end, the limiting protrusion 700 is provided at the second end, and the male connection end 810 or the female connection end 820 is in limiting contact with the limiting protrusion 700 in the direction from the first end to the second end. In this way, the male connection end 810 or the female connection end 820 is limited in the mounting hole 300 through the limiting protrusion 700, so that the male connection end 810 or the female connection end 820 is prevented from being separated from the mounting hole 300, and the connection stability of the male connection end 810 and the female connection end 820 by the connection assembly is ensured.

In this embodiment, the groove wall surfaces of the first mounting groove 110 and the second mounting groove 210 are provided with a limiting protrusion 700, the limiting protrusion 700 of the first clip cap 100 and the limiting protrusion 700 of the second clip cap 200 together form an annular protrusion, and the connection male end 810 or the connection female end 820 is provided with a cable, which runs through the center of the annular protrusion.

In an alternative embodiment, the first card cap 100 and the second card cap 200 each include an arc-shaped portion a, a first edge portion b and a second edge portion c, the first edge portion b and the second edge portion c are disposed at opposite ends of the arc-shaped portion a, respectively, the arc-shaped portion a forms the first mounting groove 110 or the second mounting groove 210, the gasket 600 is disposed between the first edge portion b of the first card cap 100 and the first edge portion b of the second card cap 200, or the gasket 600 is disposed between the second edge portion c of the first card cap 100 and the second edge portion c of the second card cap 200. In this way, the gasket 600 can seal only a partial gap between the first and second caps 100 and 200, and has limited sealability.

Thus, in another embodiment, the gasket 600 includes a body portion 610 and an extension portion 620 that are connected, the extension portion 620 is disposed between the limit protrusion 700 of the first card cap 100 and the limit protrusion 700 of the second card cap 200, the body portion 610 is disposed between the first edge portion b of the first card cap 100 and the first edge portion b of the second card cap 200, and/or the body portion 610 is disposed between the second edge portion c of the first card cap 100 and the second edge portion c of the second card cap 200. Alternatively, the main body 610 and the extension 620 may be integrally formed or may be separately formed. In this way, the sealing gasket 600 not only can seal the gap between the edge portion of the first card cap 100 and the edge portion of the second card cap 200, but also can seal the gap between the limit protrusion 700 of the first card cap 100 and the limit protrusion 700 of the second card cap 200, and the sealing area is increased, which is beneficial to improving the sealing performance. In this embodiment, the main body 610 of the gasket 600 is provided with a second opening 611 for the protrusion 220 to pass through.

In an alternative embodiment, the groove wall surface of the first mounting groove 110 is provided with a first threaded portion 111, the groove wall surface of the second mounting groove 210 is provided with a second threaded portion 211, and in the case that the first mounting groove 110 and the second mounting groove 210 form the mounting hole 300, the first threaded portion 111 and the second threaded portion 211 together form a threaded hole through which the connection assembly for a connector can be screwed with the connection male end 810 or the connection female end 820. In practical application, as shown in fig. 6, the first card cap 100 and the second card cap 200 are sleeved on the cable connected to the male end 810, and the male end 810 is in limit fit with the limit protrusion 700 of the first card cap 100 and the second card cap 200; the female connection end 820 is provided with external threads, and after the female connection end 820 is in threaded fit with the threaded hole, the male connection end 810 is limited between the limiting protrusion 700 and the female connection end 820, so that the male connection end 810 and the female connection end 820 are connected.

In an alternative embodiment, the surface of the first card cap 100 facing away from the first mounting groove 110 and the surface of the second card cap 200 facing away from the second mounting groove 210 are smooth surfaces, and are free of uneven structures. In this way, the cleaning process is facilitated for the first and second caps 100 and 200.

Based on the connector connection assembly disclosed in the application, the embodiment of the application also discloses a cable structural member, and the disclosed cable structural member comprises the connector connection assembly in the embodiment.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are also within the protection of the present application.

Claims (12)

1. A connection assembly for a connector, the connector comprising a connection male end (810) and a connection female end (820), characterized in that the connection assembly comprises a first snap cap (100), a second snap cap (200) and a locking member (400), wherein:

the first clamping cap (100) and the second clamping cap (200) are respectively provided with a first mounting groove (110) and a second mounting groove (210), and the first mounting groove (110) and the second mounting groove (210) can jointly form a mounting hole (300) for the male connecting end (810) and the female connecting end (820) to extend in;

the first clamping cap (100) and the second clamping cap (200) are detachably connected through the locking piece (400), the locking piece (400) can move between a first position and a second position relative to the first clamping cap (100), the first clamping cap (100) and the second clamping cap (200) jointly form the mounting hole (300), the locking piece (400) locks the second clamping cap (200) when the locking piece (400) is in the first position, and the first clamping cap (100) and the second clamping cap (200) jointly lock the connecting male end (810) and the connecting female end (820); the first clamping cap (100) and the second clamping cap (200) jointly form the mounting hole (300), and the locking piece (400) is in the second position, the locking piece (400) unlocks the second clamping cap (200), and the first clamping cap (100) and the second clamping cap (200) can be separated from each other.

2. The connector connection assembly according to claim 1, wherein the first clip cap (100) is provided with a groove (120), the second clip cap (200) is provided with a projection (220), one of the projection (220) and the locking member (400) is provided with a limit groove (221), the other is provided with a limit block (420), the first clip cap (100) and the second clip cap (200) together form the mounting hole (300), and the locking member (400) is located at the first position, the projection (220) extends into the groove (120), and the limit block (420) extends into the limit groove (221), and the limit block (420) is in limit fit with the limit groove (221).

3. The connector connecting assembly according to claim 2, wherein the locking member (400) is provided with a through hole (410), the stopper (420) or the stopper groove (221) is disposed on a wall of the through hole (410), the through hole (410) is communicated with the groove (120), the bump (220) can penetrate through the through hole (410), and the bump (220) is in a stopper fit with a wall surface of the through hole (410).

4. The connector connection assembly according to claim 2, wherein the first and second clip caps (100, 200) each include an arc-shaped portion (a), a first edge portion (b), and a second edge portion (c), the first edge portion (b) and the second edge portion (c) are respectively disposed at opposite ends of the arc-shaped portion (a), the arc-shaped portion (a) is provided with the first mounting groove (110) or the second mounting groove (210), the first edge portion (b) and the second edge portion (c) of the first clip cap (100) are respectively provided with the groove (120), and the first edge portion (b) and the second edge portion (c) of the second clip cap (200) are respectively provided with the projection (220), and the projection (220), the groove (120), and the locking member (400) are respectively in one-to-one correspondence.

5. The connection assembly for a connector according to claim 2, wherein the projection (220), the groove (120), and the locking member (400) are provided at intervals of at least two, respectively, in the axial direction of the mounting hole (300), and the projection (220), the groove (120), and the locking member (400) are in one-to-one correspondence, respectively.

6. The connector connection assembly according to claim 1, further comprising an elastic member (500), wherein one end of the elastic member (500) abuts against the first locking cap (100), and the other end of the elastic member (500) abuts against the locking member (400), and the elastic member (500) can drive the locking member (400) to move from the second position to the first position.

7. The connector connection assembly according to claim 6, wherein at least two elastic members (500) are provided at intervals in the axial direction of the mounting hole (300), and at least two elastic members (500) abut against the same locking member (400).

8. The connector-use connection assembly according to claim 1, further comprising a gasket (600), the gasket (600) being provided between the first card cap (100) and the second card cap (200), the gasket (600) sealing a gap between the first card cap (100) and the second card cap (200).

9. The connection assembly for a connector according to claim 8, wherein an inner wall surface of at least one of the first mounting groove (110) and the second mounting groove (210) is provided with a limit projection (700), and the male connection end (810) or the female connection end (820) is limit-fittable with the limit projection (700) in an axial direction of the mounting hole (300).

10. The connector connection assembly according to claim 9, wherein the first and second caps (100, 200) each include an arc-shaped portion (a), a first edge portion (b), and a second edge portion (c), the first and second edge portions (b, c) being disposed at opposite ends of the arc-shaped portion (a), respectively, the arc-shaped portion (a) forming the first or second mounting groove (110, 210),

the sealing gasket (600) comprises a main body part (610) and an extension part (620) which are connected, wherein the extension part (620) is arranged between a limiting protrusion (700) of the first clamping cap (100) and a limiting protrusion (700) of the second clamping cap (200), the main body part (610) is arranged between a first edge part (b) of the first clamping cap (100) and a first edge part (b) of the second clamping cap (200), and/or the main body part (610) is arranged between a second edge part (c) of the first clamping cap (100) and a second edge part (c) of the second clamping cap (200).

11. The connection assembly for a connector according to claim 1, wherein a groove wall surface of the first mounting groove (110) is provided with a first screw thread portion (111), a groove wall surface of the second mounting groove (210) is provided with a second screw thread portion (211), and the first screw thread portion (111) and the second screw thread portion (211) together form a screw thread hole through which the connection assembly for a connector can be screw-fitted with the connection male end (810) or the connection female end (820) in a case that the first mounting groove (110) and the second mounting groove (210) form the mounting hole (300).

12. A cable structure comprising a connector connection assembly according to any one of claims 1-11.

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