CN220066256U - Straight-head type energy storage electric connector and electric connector assembly - Google Patents

Abstract

The utility model discloses a straight-head type energy storage electric connector and an electric connector assembly, wherein the straight-head type energy storage electric connector comprises a socket and a straight-head type energy storage electric connector, and the straight-head type energy storage electric connector comprises a plug and a locking mechanism arranged on the plug; the locking mechanism comprises a locking piece rotatably arranged on the plug and used for locking the plug, and a locking piece rotatably arranged on the plug and used for limiting or releasing the rotation of the locking piece; the locking piece comprises a limiting part which can be covered on the locking piece; when the locking piece rotates to the limit part to cover the locking piece, the straight-head type energy storage electric connector is in a locking state; when the locking piece rotates until the limiting part is separated from the locking piece, the straight-head type energy storage electric connector is in an unlocking state. The socket is spliced with the plug, and the locking mechanism is used for locking the plug and the socket. The locking piece can be limited or released by rotating the locking piece, so that the locking or unlocking between the plug and the socket is realized, the disassembly and assembly are convenient, and great convenience is brought to users.

Description

Straight-head type energy storage electric connector and electric connector assembly

Technical Field

The utility model relates to the technical field of electric connectors, in particular to a straight-head type energy storage electric connector and an electric connector assembly.

Background

As a product widely used in many industries, the requirements for the use of the connector are increasing with the rapid development of industry. The energy storage connector is applied to the emerging high-voltage application field of energy sources, and has a plurality of special new requirements for realizing mechanical locking after the plug is inserted into the socket; the positive and negative electrode plug and socket have the functions of misplug prevention, touch prevention, misplacement prevention, 360-degree free rotation and the like.

In the prior art, in order to enhance the locking force of a plug inserted into a socket, for example, CN114824944a, a special buckle locking connector is disclosed, the plug is inserted into the socket, a clamping part is formed on the socket, a clamping device is configured on the plug, the clamping device is rotatably mounted on the plug, and the clamping device is detachably clamped on the clamping part; the plug is also provided with a locking device which is arranged at the lower part of the clamping device in a pluggable manner, and the locking device is pulled to limit or release the rotation of the clamping device. However, the above structure solves the problem of short circuit or open circuit easily caused by the unsmooth locking, but when the locking member cannot rotate due to the fact that the locking member is not pulled out, the plug cannot be well inserted into the socket, even the locking member is damaged, and product damage easily occurs due to improper operation.

Disclosure of Invention

First, the technical problem to be solved

The utility model aims to solve the technical problem of providing a straight-head type energy storage electric connector and an electric connector assembly, which can limit or release a locking piece by rotating the locking piece, so that locking or unlocking between a plug and a socket is realized, the stability and the safety of connection between the plug and the socket can be effectively ensured, the disassembly and the assembly are convenient, and great convenience is brought to users.

(II) technical scheme

The utility model solves the technical problems by adopting a scheme that the straight-head type energy storage electric connector comprises a plug and a locking mechanism arranged on the plug; the locking mechanism comprises a locking piece rotatably mounted on the plug and used for locking the plug, and a locking piece rotatably mounted on the plug and used for limiting or releasing the rotation of the locking piece; wherein the locking member comprises a limiting part which can cover the locking member; when the locking piece rotates until the limiting part covers the locking piece, the straight-head type energy storage electric connector is in a locking state; when the locking piece rotates until the limiting part is separated from the locking piece, the straight-head type energy storage electric connector is in an unlocking state.

Specifically, when the locking member is rotated until the restricting portion thereof at least partially covers over the locking member, the rotational movement of the locking member is restricted; when the locking piece rotates until the limiting part completely covers the locking piece, the limiting force acting on the locking piece is more stable, so that the locking piece and the plug are firmly locked, and the stability is high; because the locking piece is arranged, the locking piece is arranged on the locking piece, the locking piece can be well protected, the operation is convenient, and the product safety is high.

Further, the locking member is rotatably connected to the plug through a pin shaft, a pressing portion is disposed on one side of the pin shaft, and the limiting portion can cover the pressing portion to limit rotation of the locking member.

Preferably, the locking piece rotates around the shaft pin, one end of the locking piece is a clamping part which is matched and locked with the plug, and the pressing part is oppositely arranged at one end of the shaft pin away from the clamping part; when the locking piece rotates to the position that the clamping part is lifted to be separated from the plug, the plug and the socket are in an unlocking state, and the plug and the socket can be easily removed; when the locking piece rotates to the position that the clamping part moves downwards to be locked with the plug, the plug and the socket are in a locking state, so that the socket and the plug are firmly locked and cannot be easily removed, and the stability and the safety of connection between the plug and the socket are effectively ensured.

Specifically, when the locking piece rotates until the limiting part of the locking piece at least partially covers the pressing part, the locking piece is limited and cannot rotate, so that the clamping part of the locking piece and the plug can be firmly locked; when the locking piece rotates until the limiting part is separated from the pressing part, the locking piece can rotate freely, and the clamping part can rotate to be separated from the plug so as to realize unlocking.

Further, the locking member includes a rotary ring fitted on the plug and rotatable along a central axis of the plug, and the restricting portion formed by axial extension of the rotary ring portion; the plug is provided with a stop groove for adapting to the stop part, and a first limit part and a second limit part for limiting the stop part are arranged at two ends of the stop groove; when the stop part is matched with the first limiting part, the locking piece is in a state of being separated from the locking piece; when the stop portion is engaged with the second limiting portion, the locking member is in a state of completely covering the locking member.

Preferably, the stop part is formed by protruding an inner wall part of the rotating ring, a rotating groove for adapting to the rotating ring is formed on the plug, and the stop groove is formed by recessed a part of the rotating groove.

Optionally, the first limiting portion and the second limiting portion may be stop end surfaces at two ends of the stop groove.

Further, a first stop block and a second stop block are respectively arranged at the positions, close to the two ends, of the stop groove; the first stop block is matched with the end face of the stop groove to form a first limit part, and the second stop block is matched with the other end face of the stop groove to form a second limit part; and when the stop part rotates along the stop groove towards the first limit part until the stop part just breaks away from the first stop block, the locking piece just breaks away from the locking piece.

Optionally, two stopping parts are arranged in the rotating ring, and two stopping grooves are correspondingly arranged in the rotating groove; and one of the stop slots is provided with a first stop block, and the other stop slot is provided with a second stop block.

By adopting the scheme, the first stop block and the second stop block are used for limiting the rotation of the locking piece, so that the locking piece is in a state of being separated from the locking piece, the clamping part of the locking piece is conveniently limited to be in a state of being separated from the plug when the plug and the socket are installed, and the smooth installation of the plug and the socket is ensured; and the locking piece is in a state of being completely covered on the locking piece, so that the locking degree of the plug and the socket after being installed is ensured, and the stability of the plug and the socket after being installed is ensured.

Further, at least one guide groove is further formed in the plug, and the stop portion can be along the guide groove.

Preferably, each of the stop grooves is concavely formed near the end surface thereof to limit the installation direction of the locking piece and facilitate the stop part of the locking piece to smoothly enter the stop groove; and one stop slot is provided with the guide slot near the first stop block, and the other stop slot is provided with the guide slot far away from the second stop block.

Further, the locking mechanism also includes a reset member connected between the locking member and the plug and providing a tendency for the locking member to always rotate away from the plug.

Preferably, the reset piece comprises a torsion spring assembled on the shaft pin, one end of the torsion spring is propped against the pressing part, the other end of the torsion spring is propped against the plug, and the torsion spring always pushes the pressing part outwards; the pressing part is pressed, the locking piece rotates until the clamping part is lifted to be separated from the plug, and then the plug and the socket are unlocked; when the pressing force on the pressing part is removed, the reset piece pushes the pressing part, and the locking piece rotates until the clamping part moves downwards to lock the plug, so that the plug and the socket are locked.

Further, the plug comprises a clamping interface, and the locking piece comprises a clamping part correspondingly; when the locking piece rotates to the state that the clamping part is matched in the clamping interface, the straight-head type energy storage electric connector is in a locking state; when the locking piece rotates to the position that the clamping part is separated from the clamping interface, the straight-head type energy storage electric connector is in an unlocking state.

Further, the plug comprises an adapting groove for adapting to the locking piece, and the bottom of one end of the adapting groove, which is far away from the locking piece, is provided with the clamping interface.

Preferably, the locking piece is rotatably connected in the adapting groove through a shaft pin.

The utility model solves the technical problems and adopts a scheme that an electric connector assembly is characterized in that: the straight-head type energy storage electric connector comprises a socket and the straight-head type energy storage electric connector, wherein the socket is spliced with the plug, and the locking mechanism is used for locking the plug and the socket.

Further, the plug comprises a plug body and a sleeve which is coated outside part of the plug body, a matching cavity for matching with the socket is formed between the sleeve and the plug body, and the locking piece penetrates through the sleeve to lock the plug and the socket.

Specifically, the socket is provided with a clamping matching part matched and locked with the clamping part of the locking piece, when the socket is assembled on the plug, the clamping part stretches into the clamping interface and then is locked on the clamping matching part, so that the locking between the plug and the socket is realized.

(III) beneficial effects

Compared with the prior art, the straight-head type energy storage electric connector and the electric connector assembly are designed, and the locking piece can be limited or released by rotating the locking piece, so that locking or unlocking between the plug and the socket is realized, the stability and the safety of connection between the plug and the socket can be effectively ensured, the disassembly and the assembly are convenient, and great convenience is brought to users.

Drawings

Fig. 1 is a schematic diagram of a straight-head energy storage electrical connector according to the present embodiment;

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

fig. 3 is a cross-sectional view of a straight-head energy storage electrical connector (embodying a locking mechanism) according to the present embodiment;

FIG. 4 is an enlarged schematic view of FIG. 3B;

FIG. 5 is another cross-sectional view of a straight-ended energy storage electrical connector (embodying a detent groove) according to the present embodiment;

fig. 6 is a schematic cross-sectional view of a straight-head energy storage connector (unlocked state) according to the present embodiment;

FIG. 7 is an enlarged schematic view of FIG. 6 at C;

fig. 8 is a cross-sectional view of a straight-head energy storage electrical connector (a stop slot embodying an unlocked state) according to the present embodiment;

FIG. 9 is a schematic view of the locking member of the present embodiment;

FIG. 10 is a schematic view of a retaining member according to the present embodiment;

fig. 11 is a schematic view of a plug of the present embodiment;

fig. 12 is another schematic view of the plug according to the present embodiment.

Reference numerals illustrate: 1. a straight-head energy storage electrical connector; 11. a plug; 111. a stop groove; 111-1, a first limiting part; 111-2, a second limiting part; 111-3, a first stop; 111-4, a second stop; 112. a guide groove; 113. a card interface; 114. an adaptation groove; 115. a plug body; 116. a sleeve; 117. a mating cavity; 118. a rotary groove; 12. a locking mechanism; 121. a locking member; 121-1, a pressing portion; 121-2, a clamping part; 122. a locking member; 122-1, a restriction portion; 122-2, a rotating ring; 122-2a, a stop; 123. a pin shaft; 124. and a reset piece.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

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

This embodiment:

as shown in fig. 1-4 and fig. 6-7, a straight-head type energy storage electric connector of the present embodiment includes a plug 11 and a locking mechanism 12 provided on the plug 11; the locking mechanism 12 includes a locking member 121 rotatably mounted on the plug 11 for locking the plug 11, and a locking member 122 rotatably mounted on the plug 11 for restricting or releasing the rotation of the locking member 121; wherein the locking member 122 includes a restriction portion 122-1 that can cover the locking member 121; when the locking piece 122 rotates until the limiting part 122-1 covers the locking piece 121, the straight-head type energy storage electric connector 1 is in a locking state; when the locking member 121 rotates until the limiting portion 122-1 is disengaged from the locking member 121, the straight-head type energy storage connector 1 is in an unlocked state. Specifically, when the locking member 122 is rotated until the restriction portion 122-1 thereof at least partially covers over the locking member 121, the rotational movement of the locking member 121 can be restricted; when the locking member 121 rotates until the limiting portion 122-1 completely covers the locking member 121, the limiting force acting on the locking member 121 is more stable, so that the locking member 121 and the plug 11 are firmly locked, and the stability is high; because the locking piece is arranged and is arranged above the locking piece 121, the locking piece 121 can be well protected, the operation is convenient, and the product safety is high.

As shown in fig. 1-4, 6-7 and 10, further, the locking member 121 is rotatably connected to the plug 11 through a pin 123, a pressing portion 121-1 is disposed on one side of the pin 123 of the locking member 121, and the limiting portion 122-1 may cover the pressing portion 121-1 to limit rotation of the locking member 121. Preferably, the locking member 121 rotates around the shaft pin, one end of the locking member 121 is a clamping portion 121-2 which is matched and locked with the plug 11, and the pressing portion 121-1 is relatively arranged at one end of the shaft pin away from the clamping portion 121-2; when the locking member 121 rotates until the clamping portion 121-2 is lifted to be separated from the plug 11, the plug 11 and the socket are in an unlocking state, and the plug 11 and the socket can be easily removed; when the locking member 121 rotates to the locking position of the locking portion 121-2, the locking portion is locked with the plug 11, so that the plug 11 and the socket are locked, the socket and the plug 11 are firmly locked, and the locking member cannot be easily removed, so that stability and safety of connection between the plug 11 and the socket are effectively ensured. Specifically, when the locking member 122 rotates until the limiting portion 122-1 at least partially covers the pressing portion 121-1, the locking member 121 is limited to be unable to rotate, so that the clamping portion 121-2 of the locking member 121 can be firmly locked with the plug 11; when the locking member 121 rotates until the limiting portion 122-1 is separated from the pressing portion 121-1, the locking member 121 can rotate freely, and the locking portion 121-2 can be rotated to be separated from the plug 11, so that unlocking is achieved. Further, the locking mechanism 12 further includes a reset member 124 connected between the locking member 121 and the plug 11 and providing a tendency for the locking member 121 to always rotate away from the plug 11. Preferably, the restoring member 124 includes a torsion spring assembled on the axle pin, and one end of the torsion spring abuts against the pressing portion 121-1, and the other end abuts against the plug 11, so that the torsion spring always pushes the pressing portion 121-1 outwards; pressing the pressing part 121-1, the locking piece 122 rotates until the clamping part 121-2 is lifted to be separated from the plug 11, and then the plug 11 and the socket are unlocked; when the pressing force on the pressing portion 121-1 is removed, the reset member 124 pushes the pressing portion 121-1, and the locking member 122 rotates to the locking portion 121-2 to move down to lock the plug 11, thereby locking the plug 11 and the socket. Further, the plug 11 includes a card interface 113, and the locking member 122 includes a card connection portion 121-2; when the locking piece 122 rotates to the state that the clamping part 121-2 is matched in the clamping interface 113, the straight-head type energy storage electric connector 1 is in a locking state; when the locking member 122 rotates to the point that the clamping portion 121-2 is disengaged from the clamping interface 113, the straight-head energy storage electric connector 1 is in an unlocked state. Further, the plug 11 includes an adapting groove 114 for adapting to the locking member 121, and the bottom of one end of the adapting groove 114 away from the locking member 122 is provided with the card interface 113. Preferably, the locking member 121 is pivotally coupled to the fitting groove 114 by a pin.

As shown in fig. 3 to 9 and 11 to 12, further, the locking member 122 includes a rotary ring 122-2 fitted on the plug 11 and rotatable along a central axis of the plug 11, and the restriction portion 122-1 formed by partially axially extending the rotary ring 122-2; the inner wall of the rotating ring 122-2 is provided with a stop portion 122-2a, correspondingly, the plug 11 is provided with a stop groove 111 for adapting to the stop portion 122-2a, and the stop groove 111 is provided with a first limit portion 111-1 and a second limit portion 111-2 near two ends thereof for limiting the stop portion 122-2 a; when the stop portion 122-2a is engaged with the first limiting portion 111-1, the locking member 122 is in a state of being disengaged from the locking member 121; when the stopper 122-2a is engaged with the second stopper 111-2, the locking member 122 is in a state of completely covering the locking member 121. Preferably, the stop portion 122-2a is formed by protruding an inner wall portion of the rotary ring 122-2, the plug 11 is provided with a rotary groove 118 for fitting the rotary ring 122-2, and the stop groove 111 is formed by partially recessing the rotary groove 118. Further, two stop portions 122-2a are disposed in the rotating ring 122-2, and two stop grooves 111 are disposed in the corresponding rotating groove 118; one of the stop slots 111 is provided with a first stop block 111-3, and the other stop slot 111 is provided with a second stop block 111-4; the first stop block 111-3 is matched with the end surface of the stop groove 111 to form a first limit part 111-1, and the second stop block 111-4 is matched with the other end surface of the stop groove 111 to form a second limit part 111-2; and when the stopper 122-2a rotates along the stopper groove 111 toward the first stopper 111-1 until it just gets out of the first stopper 111-3, the locking piece 122 just gets out of the locking piece 121. By adopting the above scheme, the first stop block 111-3 and the second stop block 111-4 are configured to limit the rotation of the locking member 122, so that the locking member 122 is in a state of being separated from the locking member 121, thereby facilitating the clamping portion 121-2 of the locking member 121 when the plug 11 and the socket are installed to be limited to be in a state of being separated from the plug 11, and ensuring the smoothness of the installation of the plug 11 and the socket; and the locking member 122 is in a state of being completely covered on the locking member 121, thereby ensuring the locking degree of the plug 11 and the socket after installation and ensuring the stability of the plug and the socket after installation. Further, at least one guiding groove 112 is provided on the plug 11, and the stop portion 122-2a may be along the guiding groove 112. Preferably, each of the stop grooves 111 is concavely formed near an end surface thereof with the guide groove 112 to limit the installation direction of the locking piece 122 and facilitate the smooth entry of the stop portion 122-2a of the locking piece 122 into the stop groove 111; and, one of the stopping grooves 111 is provided with the guiding groove 112 near the first stop block 111-3, and the other stopping groove 111 is provided with the guiding groove 112 far away from the second stop block 111-4.

As shown in fig. 3-4, an electrical connector assembly of the present embodiment includes a socket (not shown in the drawings) and the straight-head type energy storage electrical connector 1 as described above, wherein the socket is plugged into the plug 11, and the locking mechanism 12 is used for locking the plug 11 and the socket. Further, the plug 11 includes a plug body 115, and a sleeve 116 that covers a portion of the plug body 115, a mating cavity 117 for mating with the socket is formed between the sleeve 116 and the plug body 115, and the locking member 121 passes through the sleeve 116 to lock the plug 11 and the socket. Specifically, the socket is provided with a clamping matching portion (not shown in the figure) that is matched and locked with the clamping portion 121-2 of the locking member 121, and when the socket is assembled to the plug 11, the clamping portion 121-2 extends into the clamping interface 113 and is locked on the clamping matching portion, so as to achieve locking between the plug 11 and the socket.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (10)

1. A straight-head energy storage electrical connector, characterized in that: comprises a plug (11) and a locking mechanism (12) arranged on the plug (11); the locking mechanism (12) comprises a locking member (121) rotatably mounted on the plug (11) for locking the plug (11), and a locking member (122) rotatably mounted on the plug (11) for restricting or releasing the rotation of the locking member (121); wherein the locking member (122) includes a restricting portion (122-1) that can be covered on the locking member (121); when the locking piece (122) rotates until the limiting part (122-1) covers the locking piece (121), the straight-head type energy storage electric connector (1) is in a locking state; when the locking piece (121) rotates until the limiting part (122-1) is separated from the locking piece (121), the straight-head type energy storage electric connector (1) is in an unlocking state.

2. The straight-head energy storage electrical connector of claim 1, wherein: the locking piece (121) is rotatably connected to the plug (11) through a pin shaft (123), a pressing part (121-1) is arranged on one side of the pin shaft (123) of the locking piece (121), and the limiting part (122-1) can cover the pressing part (121-1) so as to limit the rotation of the locking piece (121).

3. The straight-head energy storage electrical connector of claim 1, wherein: the locking piece (122) comprises a rotary ring (122-2) which is fitted on the plug (11) and can rotate along the central axis of the plug (11), and a limiting part (122-1) formed by the axial extension of the rotary ring (122-2); wherein, the inner wall of the rotary ring (122-2) is provided with at least one stop part (122-2 a), the plug (11) is correspondingly provided with a stop groove (111) for adapting to the stop part (122-2 a), and the stop groove (111) is provided with a first limit part (111-1) and a second limit part (111-2) which are used for limiting the stop part (122-2 a) near two ends of the stop groove; when the stop part (122-2 a) is matched with the first limit part (111-1), the locking piece (122) is in a state of being separated from the locking piece (121); when the stopper portion (122-2 a) is engaged with the second stopper portion (111-2), the locking member (122) is in a state of completely covering the locking member (121).

4. The straight-head energy storage electrical connector of claim 3, wherein: the two ends of the stop groove (111) close to the stop groove are respectively provided with a first stop block (111-3) and a second stop block (111-4); the first stop block (111-3) is matched with the end face of the stop groove (111) to form a first limit part (111-1), and the second stop block (111-4) is matched with the other end face of the stop groove (111) to form a second limit part (111-2); and when the stop part (122-2 a) rotates along the stop groove (111) towards the first limit part (111-1) until the stop part just breaks away from the first stop block (111-3), the locking piece (122) just breaks away from the locking piece (121).

5. The straight-head energy storage electrical connector of claim 3, wherein: at least one guide groove (112) is also arranged on the plug (11), and the stop part (122-2 a) can be along the guide groove (112).

6. The straight-head energy storage electrical connector of claim 1, wherein: the locking mechanism (12) further comprises a reset member (124) connected between the locking member (121) and the plug (11) and giving the locking member (121) a tendency to always rotate away from the plug (11).

7. The straight-head energy storage electrical connector of claim 1, wherein: the plug (11) comprises a clamping interface (113), and the locking piece (122) comprises a clamping part (121-2); when the locking piece (122) rotates to the clamping part (121-2) to be matched in the clamping interface (113), the straight-head type energy storage electric connector (1) is in a locking state; when the locking piece (122) rotates to the state that the clamping part (121-2) is separated from the clamping interface (113), the straight-head type energy storage electric connector (1) is in an unlocking state.

8. The straight-head energy storage electrical connector of claim 7, wherein: the plug (11) comprises an adapting groove (114) for adapting the locking piece (121), and the bottom of one end of the adapting groove (114) far away from the locking piece (122) is provided with the clamping interface (113).

9. An electrical connector assembly, characterized by: comprising a socket and a straight-head energy-storing electrical connector (1) according to any of the preceding claims 1-8, wherein the socket is plugged with the plug (11), and the locking mechanism (12) is used for locking the plug (11) and the socket.

10. The electrical connector assembly as recited in claim 9, wherein: the plug (11) comprises a plug body (115) and a sleeve (116) which is coated outside part of the plug body (115), a matching cavity (117) for matching with the socket is formed between the sleeve (116) and the plug body (115), and the locking piece (121) penetrates through the sleeve (116) to lock the plug (11) and the socket.