CN221632895U - Integrated energy storage connector - Google Patents

Abstract

The utility model relates to the technical field of connectors, in particular to an integrated energy storage connector which comprises a plug and a socket spliced with the plug; the plug is provided with a plug shell, the socket is provided with a socket shell, and the plug shell is provided with a first group of plug positive and negative terminals and a second group of plug positive and negative terminals; the socket shell is provided with a first group of socket positive and negative terminals and a second group of socket positive and negative terminals; the first group of plug positive and negative terminals are spliced with the first group of socket positive and negative terminals, and the second group of plug positive and negative terminals are spliced with the second group of socket positive and negative terminals. Compared with the existing connector, the integrated energy storage connector has the advantages that the structure is simple, the energy storage boxes with different types can be compatible, the combination of multiple electric fields is met, meanwhile, the standardization, the generalized production and the assembly of the energy storage boxes are facilitated, and the practicability is high.

Description

Integrated energy storage connector

Technical Field

The utility model relates to the technical field of connectors, in particular to an integrated energy storage connector.

Background

The energy storage connector generally includes a plug and a socket, which are one type of electrical connector. When the energy storage box is used, the plug and the socket are respectively arranged on the two energy storage box bodies, and the adjacent two box bodies are spliced through the plug and the socket to realize electric connection.

In the energy storage connector, a positive terminal, a negative terminal, a ground terminal, a signal terminal, and the like are mounted on a housing of the connector to realize power on, signal induction, transmission, and the like. However, since the size model of the positive and negative terminals to be provided is fixed, the maximum current that the size model can pass is determined. The connector with the corresponding model is required to be selected according to the current in different electricity utilization occasions and different energy storage boxes, so that the connector is very inconvenient to use.

Based on the technical problems that the energy storage connector cannot be suitable for various electricity occasions and energy storage boxes with different models and has poor compatibility and applicability, a solution is needed to be provided.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides the integrated energy storage connector which has simple structure, strong applicability and compatibility with energy storage boxes of different types and meets the requirements of various electric field applications.

In order to solve the technical problems, the utility model adopts the following technical scheme:

The utility model provides an integrated energy storage connector, which comprises a plug and a socket spliced with the plug; the plug is provided with a plug shell, and the socket is provided with a socket shell; the plug shell is provided with a first group of plug positive and negative terminals and a second group of plug positive and negative terminals; the socket shell is provided with a first group of socket positive and negative terminals and a second group of socket positive and negative terminals; the first group of plug positive and negative terminals are spliced with the first group of socket positive and negative terminals, and the second group of plug positive and negative terminals are spliced with the second group of socket positive and negative terminals.

The plug shell is further provided with an auxiliary power supply plug terminal group, the socket shell is provided with an auxiliary power supply socket terminal group, and the auxiliary power supply plug terminal group is spliced with the auxiliary power supply socket terminal group.

Preferably, the first group of positive and negative plug terminals, the second group of positive and negative plug terminals and the auxiliary power plug terminal group are provided with two male terminals;

The first group of socket positive and negative terminals, the second group of socket positive and negative terminals and the auxiliary power socket terminal group are provided with two female terminal; the male terminal is inserted into the corresponding female terminal to realize the insertion.

The plug shell is provided with a signal male terminal group, and the socket shell is provided with a signal female terminal group which is spliced with the signal male terminal group.

The plug shell is provided with a guide post, and the socket shell is provided with a guide hole matched with the guide post;

The plug shell is provided with a butt joint shell part, and a sealing ring is arranged on the butt joint shell part; the socket shell is provided with a butt joint cavity, and the butt joint shell part and the sealing ring are inserted into the butt joint cavity.

And the plug shell and the socket shell are respectively provided with a sealing gasket, and the sealing gaskets are used for sealing the energy storage box body and the plug shell or the socket shell.

Wherein, plug casing and socket casing all are provided with a plurality of mounting holes that are used for installing plug casing or socket casing in the energy storage box.

The positive and negative terminals of the first group of sockets and the positive and negative terminals of the second group of sockets are respectively provided with a retaining ring, the hole walls of the terminal mounting holes of the socket shell are respectively provided with retaining ring buckling holes, and the retaining rings are clamped in the retaining ring buckling holes after the positive and negative terminals of the first group of sockets and the positive and negative terminals of the second group of sockets are installed in the terminal mounting holes from the rear end of the socket shell.

The first group of positive and negative plug terminals and the second group of positive and negative plug terminals are respectively provided with a radial clamping groove; the plug comprises a plug shell, wherein a terminal mounting groove is formed in the plug shell, an inverted claw is arranged in the terminal mounting groove, and after the positive and negative terminals of the first group of plugs and the positive and negative terminals of the second group of plugs are arranged in the terminal mounting groove from the rear end of the plug shell, the inverted claw is clamped into a radial clamping groove.

The reverse claw comprises a plurality of elastic clamping blocks arranged in the terminal installation groove, each elastic clamping block comprises an axial elastic part and a radial clamping part arranged on the axial elastic part, and the radial clamping parts are used for clamping the radial clamping grooves.

The utility model has the beneficial effects that:

The utility model provides an integrated energy storage connector, when in use, one group of terminals can be selected to be electrified and overcurrent or two groups of terminals can be connected in parallel to be electrified and overcurrent according to the type of the energy storage box body to be used, so that the energy storage box bodies with different types can be compatible, various electricity utilization occasions can be met, and the energy storage box bodies with various types only need to be provided with a mounting groove corresponding to the plug and the socket, thereby being beneficial to unified processing and assembly and further improving the consistency and the universality of products. When the energy storage box body needs to output two circuits, the first group of positive and negative terminals of the plug, the second group of positive and negative terminals of the plug, the first group of positive and negative terminals of the socket and the second group of positive and negative terminals of the socket can be divided into two paths of power supply output and output, so that a connector is not required to be additionally increased, and the installation space and the use cost are saved.

Drawings

Fig. 1 is a schematic exploded view of the present utility model.

Fig. 2 is an exploded view of another view of the present utility model.

Fig. 3 is a schematic perspective view of a plug according to the present utility model.

Fig. 4 is a schematic perspective view of a socket according to the present utility model.

Fig. 5 is an exploded view of the socket according to the present utility model.

Fig. 6 is an exploded view of the plug according to the present utility model.

Fig. 7 is a schematic perspective view of a plug housing according to the present utility model.

Fig. 8 is a schematic cross-sectional view of a plug housing according to the present utility model

Fig. 9 is an enlarged schematic view of the structure at a in fig. 8.

Detailed Description

The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model. The present utility model will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 9, an integrated energy storage connector includes a plug 1, a socket 2 plugged with the plug 1; the plug 1 is provided with a plug housing 3, and the socket 2 is provided with a socket housing 4; the plug housing 3 is provided with a first group of plug positive and negative terminals 5 and a second group of plug positive and negative terminals 6; the socket housing 4 is provided with a first group of socket positive and negative terminals 7 and a second group of socket positive and negative terminals 8; the first group of plug positive and negative terminals 5 are spliced with the first group of socket positive and negative terminals 7, and the second group of plug positive and negative terminals 6 are spliced with the second group of socket positive and negative terminals 8.

In practical application, the plug 1 and the socket 2 are respectively arranged on the two energy storage boxes, and when the two energy storage boxes are required to be electrically connected, the plug 1 and the socket 2 are spliced to realize connection of adjacent energy storage boxes. The plug 1 is provided with a first group of plug positive and negative terminals 5 and a second group of plug positive and negative terminals 6 which are respectively spliced with the second group of plug positive and negative terminals 6 of the socket 2 and the second group of socket positive and negative terminals 8. When the energy storage box is used, one group of terminals can be selected to be electrified and overcurrent or two groups of terminals can be connected in parallel and electrified and overcurrent according to the types of the energy storage boxes used, so that the energy storage boxes with different types are compatible, various electricity utilization occasions are met, and the energy storage boxes with various types only need to be provided with one type of mounting groove corresponding to the plug 1 and the socket 2, thereby being beneficial to unified processing and assembly and further improving the consistency and the universality of products.

When the energy storage box body needs to output two circuits, the first group of positive and negative plug terminals 5, the second group of positive and negative plug terminals 6, the first group of positive and negative socket terminals 7 and the second group of positive and negative socket terminals 8 can be divided into two paths of power supply output, so that a connector is not required to be additionally increased, and the installation space and the use cost are saved.

Compared with the existing connector, the integrated energy storage connector has the advantages that the structure is simple, the energy storage boxes with different types can be compatible, the combination of multiple electric fields is met, meanwhile, the standardization, the generalized production and the assembly of the energy storage boxes are facilitated, and the practicability is high.

In this embodiment, the plug housing 3 is further provided with an auxiliary power plug terminal set 9, the socket housing 4 is provided with an auxiliary power socket terminal set 10, and the auxiliary power plug terminal set 9 is plugged with the auxiliary power socket terminal set 10, so that one path of auxiliary power can be connected from the energy storage box body, and multiple power utilization fields can be further satisfied.

In this embodiment, preferably, the first set of positive and negative plug terminals 5, the second set of positive and negative plug terminals 6 and the auxiliary power plug terminal set 9 are provided with two male terminals; the first group of socket positive and negative terminals 7, the second group of socket positive and negative terminals 8 and the auxiliary power socket terminal group 10 are provided with two female terminal; the male terminal is inserted into the corresponding female terminal to realize the insertion.

In this embodiment, the plug housing 3 is provided with a signal male terminal group 01, and the socket housing 4 is provided with a signal female terminal group 02 plugged with the signal male terminal group 01. The signal male terminal group 01 and the signal female terminal group 02 can be provided with one terminal and a plurality of sections according to the requirement for signal transmission.

In this embodiment, the plug housing 3 is provided with a guide post 31, and the socket housing 4 is provided with a guide hole 41 matched with the guide post 31, which guides and positions the plug 1 and the socket 2 for plugging and unplugging conveniently; the plug housing 3 is provided with a butt-joint housing part 32, and a sealing ring 33 is arranged on the butt-joint housing part 32; the socket housing 4 is provided with a docking cavity 42, and the docking housing part 32 and the sealing ring 33 are inserted into the docking cavity 42, so that the plug 1 and the socket 2 are reliably connected, and the waterproof performance is good.

In this embodiment, the plug housing 3 and the socket housing 4 are both provided with a sealing gasket 03, and the sealing gasket 03 is used for sealing the energy storage box body and the plug housing 3 or the socket housing 4. When the plug 1 or the socket 2 is installed on the installation groove of the energy storage box body, the sealing gasket 03 abuts against the wall of the energy storage box body, so that the plug 1 or the socket 2 is installed in a waterproof mode, and the waterproof performance of a product is improved.

In this embodiment, the plug housing 3 and the socket housing 4 are provided with a plurality of mounting holes 04 for mounting the plug housing 3 or the socket housing 4 in the energy storage box, so that the plug housing 3 or the socket housing 4 is conveniently mounted in the energy storage box by screwing screws into the mounting holes 04, and the plug housing 3 or the socket housing 4 is convenient to mount and dismount and reliable in connection.

In this embodiment, the positive and negative terminals 7 of the first group of sockets and the positive and negative terminals 8 of the second group of sockets are respectively provided with a retaining ring 05, the hole walls of the terminal mounting holes of the socket housing 4 are provided with retaining ring buckling holes 06, and after the positive and negative terminals 7 of the first group of sockets and the positive and negative terminals 8 of the second group of sockets are installed in the terminal mounting holes from the rear end of the socket housing 4, the retaining rings 05 are clamped in the retaining ring buckling holes 06.

In this embodiment, radial clamping grooves 07 are formed on the first group of positive and negative plug terminals 5 and the second group of positive and negative plug terminals 6; the reverse claw 08 is arranged in the terminal mounting groove of the plug housing 3, and after the first group of positive and negative plug terminals 5 and the second group of positive and negative plug terminals 6 are mounted in the terminal mounting groove from the rear end of the plug housing 3, the reverse claw 08 is clamped into the radial clamping groove 07.

When the socket 2 or the plug 1 is mounted with the energy storage box body, the socket shell 4 or the plug shell 3 can be mounted on the energy storage box body, then the first group of positive and negative terminals 7 and the second group of positive and negative terminals 8 with the retaining rings 05 are inserted into the terminal mounting holes from the rear end, and the first group of positive and negative terminals 5 and the second group of positive and negative terminals 6 with radial clamping grooves 07 are inserted into the terminal mounting grooves from the rear end, so that the installation is very convenient; meanwhile, compared with the prior connector, the integrated energy storage connector adopts the structure that the rear cover is used for fixing the terminal, and the structure is simpler, reduces the production cost and simplifies the installation process. In this embodiment, other terminals may be mounted by adopting a structure provided with the retaining ring 05 or the radial clamping groove 07, so that the description thereof will not be repeated.

In this embodiment, the pawl 08 includes a plurality of elastic clamping blocks 081 disposed in the terminal mounting groove, the elastic clamping blocks 081 include an axial elastic portion 082 and a radial clamping portion 083 disposed in the axial elastic portion 082, and the radial clamping portion 083 is configured to be clamped in the radial clamping groove 07. Specifically, the pawl 08 and the plug housing 3 are integrally formed. This pawl 08 design benefit adopts axial elasticity portion 082 to set up along the axial, and it possesses elasticity for radial joint portion 083 card is gone into radial draw-in groove 07 easily, makes simple to operate, fixed reliable.

While the utility model has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that the present utility model is not limited thereto, and that the utility model is not limited thereto, but is intended to be limited thereto, when the technical content disclosed above is utilized to make a little change or modification into equivalent embodiments of equivalent changes, but the technical content of the utility model is not deviated from, any simple modification, equivalent changes and modification of the above embodiments are all within the scope of the technical solution of the utility model.

Claims (10)

1. An integrated energy storage connector comprises a plug (1) and a socket (2) which is spliced with the plug (1); the plug (1) is provided with a plug housing (3), and the socket (2) is provided with a socket housing (4), and is characterized in that:

The plug shell (3) is provided with a first group of plug positive and negative terminals (5) and a second group of plug positive and negative terminals (6); the socket shell (4) is provided with a first group of socket positive and negative terminals (7) and a second group of socket positive and negative terminals (8);

The first group of plug positive and negative terminals (5) are spliced with the first group of socket positive and negative terminals (7), and the second group of plug positive and negative terminals (6) are spliced with the second group of socket positive and negative terminals (8).

2. An integrated energy storage connector as in claim 1, wherein: the plug housing (3) is also provided with an auxiliary power plug terminal group (9), the socket housing (4) is provided with an auxiliary power socket terminal group (10), and the auxiliary power plug terminal group (9) is spliced with the auxiliary power socket terminal group (10).

3. An integrated energy storage connector as in claim 2, wherein: the first group of positive and negative plug terminals (5), the second group of positive and negative plug terminals (6) and the auxiliary power plug terminal group (9) are respectively provided with two male end terminals;

The first group of socket positive and negative terminals (7), the second group of socket positive and negative terminals (8) and the auxiliary power socket terminal group (10) are provided with two female terminal; the male terminal is inserted into the corresponding female terminal to realize the insertion.

4. An integrated energy storage connector as in claim 1, wherein: the plug housing (3) is provided with a signal male terminal group (01), and the socket housing (4) is provided with a signal female terminal group (02) which is spliced with the signal male terminal group (01).

5. An integrated energy storage connector as in claim 1, wherein: the plug housing (3) is provided with a guide post (31), and the socket housing (4) is provided with a guide hole (41) matched with the guide post (31);

The plug housing (3) is provided with a butt-joint housing part (32), and a sealing ring (33) is arranged on the butt-joint housing part (32); the socket housing (4) is provided with a docking cavity (42), and the docking housing part (32) and the sealing ring (33) are inserted into the docking cavity (42).

6. An integrated energy storage connector as in claim 1, wherein: the plug housing (3) and the socket housing (4) are provided with sealing gaskets (03), and the sealing gaskets (03) are used for sealing the energy storage box body and the plug housing (3) or the socket housing (4).

7. An integrated energy storage connector as in claim 1, wherein: the plug housing (3) and the socket housing (4) are respectively provided with a plurality of mounting holes (04) for mounting the plug housing (3) or the socket housing (4) on the energy storage box body.

8. An integrated energy storage connector as in claim 1, wherein: the socket comprises a socket shell body (4), wherein a first group of socket positive and negative terminals (7) and a second group of socket positive and negative terminals (8) are respectively provided with a retaining ring (05), retaining ring buckling holes (06) are formed in the hole walls of terminal installation holes of the socket shell body (4), and the first group of socket positive and negative terminals (7) and the second group of socket positive and negative terminals (8) are clamped in the retaining ring buckling holes (06) after the terminal installation holes are formed in the rear ends of the socket shell body (4).

9. An integrated energy storage connector as in claim 1, wherein: radial clamping grooves (07) are formed in the first group of positive and negative plug terminals (5) and the second group of positive and negative plug terminals (6); the plug comprises a plug shell (3), wherein an inverted claw (08) is arranged in a terminal mounting groove of the plug shell (3), and after a first group of positive and negative plug terminals (5) and a second group of positive and negative plug terminals (6) are arranged in the terminal mounting groove from the rear end of the plug shell (3), the inverted claw (08) is clamped into a radial clamping groove (07).

10. The integrated energy storage connector of claim 9, wherein: the reverse claw (08) comprises a plurality of elastic clamping blocks (081) arranged in the terminal installation groove, each elastic clamping block (081) comprises an axial elastic portion (082) and a radial clamping portion (083) arranged on the axial elastic portion (082), and the radial clamping portions (083) are used for being clamped in the radial clamping grooves (07).