CN214957610U - Buckle type high-current connector - Google Patents

Abstract

The utility model discloses a buckle formula heavy current connector, include board end connector module and with the supporting line end connector module who uses of board end connector module, board end connector module includes board end module main part and sets up at the inside board end module terminal of board end module main part, line end connector module includes line terminal module main part and sets up the board end module terminal inside line terminal module main part, but board end module terminal pegs graft with line terminal module terminal one-to-one electrical property, line terminal module main part lateral part is provided with the hasp seat, hasp seat lateral part is provided with the hasp pivot, it has the hasp board to articulate in the hasp pivot, hasp board free end tip has the hasp trip, board end module main part lateral part is provided with the cooperation the buckle position of hasp trip, but hasp trip chucking is in buckle position department and make board end connector module and line end connector module lock each other. The buckle type high-current connector has the advantages of convenience in use, low implementation cost, high disassembly and assembly efficiency, good use experience and the like.

Description

Buckle type high-current connector

Technical Field

The utility model relates to an electric connector, especially a buckle formula heavy current connector.

Background

An electrical connector is a widely used electrical connection component, which plays a very important role in daily life or production.

The existing connector applied to the cloud server comprises a board end and a wire end, when the connector is applied, the board end and the wire end are inserted and connected, the board end and the wire end are fixed with each other by using an additional connecting shell and an additional screw, the screw and the connecting shell need to be detached when the connector is detached, the cost is greatly increased, the assembling and the disassembling are troublesome, a large amount of time is consumed, the defects of low implementation efficiency and high implementation cost exist, and the use experience is poor.

In view of the above, the present invention provides a new technical solution to solve the existing technical drawbacks.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a buckle formula heavy current connector has solved the technical defects such as installation, dismantlement inconvenience, time with high costs, implementation inefficiency that prior art exists.

The utility model provides a technical scheme that its technical problem adopted is:

a buckle type high current connector comprises a plate end connector module and a line end connector module matched with the plate end connector module, the board end connector module comprises a board end module body and a board end module terminal arranged in the board end module body, the line end connector module comprises a line end module body and a plate end module terminal arranged in the line end module body, the board end module terminals and the line end module terminals can be electrically spliced in a one-to-one correspondence manner, the side part of the line end module main body is provided with a locking seat, the side part of the lock catch seat is provided with a lock catch rotating shaft, a lock catch plate is hinged on the lock catch rotating shaft, the free end part of the lock catch plate is provided with a lock catch clamping hook, the side part of the board end module main body is provided with a buckle position matched with the buckle hook, and the buckle hook can be clamped at the buckle position to enable the board end connector module and the line end connector module to be locked with each other.

As a further improvement of the above technical solution, the board end module terminal includes a board end module power terminal and a board end module ground terminal, and the line end module terminal includes a line end module power terminal and a line end module ground terminal, which can be plugged with the board end module power terminal and the board end module ground terminal in a one-to-one correspondence manner.

As a further improvement of the above technical solution, the board-end module main body is provided with a board-end power terminal mounting hole and a board-end ground terminal mounting hole, and the board-end module power terminal and the board-end module ground terminal are respectively mounted in the board-end power terminal mounting hole and the board-end ground terminal mounting hole;

as a further improvement of the above technical solution, the board-end power terminal mounting hole and the board-end ground terminal mounting hole are both stepped holes, the board-end module power terminal and the board-end module ground terminal side portion are both provided with a board-end terminal limiting convex ring and a board-end terminal limiting concave ring, the board-end terminal limiting concave ring is provided with a board-end terminal retainer ring, the board-end module power terminal is fixedly mounted in the board-end power terminal mounting hole through a stepped position in the board-end terminal limiting convex ring, the board-end terminal retainer ring and the board-end power terminal mounting hole, and the board-end module ground terminal is fixedly mounted in the board-end ground terminal mounting hole through a stepped position in the board-end terminal limiting convex ring, the board-end terminal retainer ring and the board-end ground terminal mounting hole.

As a further improvement of the above technical solution, the line end module main body is provided with a line end power terminal mounting hole and a line end ground terminal mounting hole, and the line end module power terminal and the line end module ground terminal are respectively mounted in the line end power terminal mounting hole and the line end ground terminal mounting hole;

as a further improvement of the above technical solution, the line end power terminal mounting hole and the line end ground terminal mounting hole are stepped holes, the side portions of the line end module power terminal and the line end module ground terminal are both provided with a line end terminal limiting step and a line end terminal limiting concave ring, the line end terminal limiting concave ring is provided with a line end terminal retainer ring, the line end module power terminal is fixedly mounted in the line end power terminal mounting hole through a stepped position in the line end terminal limiting step, the line end terminal retainer ring and the line end power terminal mounting hole, and the line end module ground terminal is fixedly mounted in the line end ground terminal mounting hole through a stepped position in the line end terminal limiting step, the line end terminal retainer ring and the line end ground terminal mounting hole.

As a further improvement of the above technical solution, the inner end portions of the power terminal of the board end module and the ground terminal of the board end module are both provided with an electric shock preventing insulating plug.

As a further improvement of the above technical solution, the end module power terminal and the end module ground terminal both have an inner end with an inward mounting hole, the mounting hole is internally provided with a crown spring, the inner end of the board end module power terminal can be inserted into the crown spring at the end of the end module power terminal and electrically connect the board end module power terminal and the end module power terminal, and the inner end of the board end module ground terminal can be inserted into the crown spring at the end of the end module ground terminal and electrically connect the board end module ground terminal and the end module ground terminal.

As a further improvement of the technical scheme, the power supply terminal of the board end module is connected with a power cable, the grounding terminal of the board end module is connected with a grounding cable, and the end part of the outer end of the grounding cable is provided with a round terminal.

As a further improvement of the above technical scheme, the board end module main body and the line end module main body are plastic main bodies which are integrally injection molded;

as a further improvement of the above technical solution, the board end module power terminals and the line end module power terminals all have 12, are arranged in two rows, the board end module ground terminals and the line end module ground terminals all have 2, each board end module ground terminal forms one row with six board end module power terminals, and each line end module ground terminal forms one row with six line end module power terminals.

As a further improvement of the above technical solution, the side of the plate end module main body is provided with a mounting plate, the mounting plate is provided with a nut accommodating groove inwards from the side thereof, the nut accommodating groove is internally provided with a fixing nut for fixing the plate end connector module, the mounting plate is also provided with a through hole, the through hole penetrates through two opposite surfaces of the mounting plate, and the through hole is vertically communicated with a screw hole in the middle of the fixing nut;

as a further improvement of the technical scheme, the plate end module main body is fixedly provided with a connector fish fork through a fish fork fixing screw.

An implementation improvement as above-mentioned technical scheme, the hasp seat is the cavity seat that runs through from top to bottom, the cover is equipped with the torsional spring in the hasp pivot, the torsional spring is used for driving the hasp trip elasticity on the hasp board and compresses tightly on the buckle position on board end module main part, and torsional spring one end acts on hasp seat inside wall or line end module main part lateral wall, and the torsional spring other end acts on the hasp board, the hasp board is provided with the hasp of being convenient for to press and presses the splenium at its one end of keeping away from the hasp trip, still is provided with the torsional spring on the hasp board and holds concave position, the torsional spring can hold and hold in this torsional spring holds concave position.

As another implementation improvement of the above technical solution, the latch seat is a hollow seat that penetrates from top to bottom, the latch plate is provided with a latch pressing portion and an elastic support portion at one end of the latch plate away from the latch hook, the latch pressing portion is used for pressing the latch seat and enabling the latch seat to rotate around the latch rotating shaft, and the inner end of the elastic support portion is elastically abutted against the side wall of the line end module body and used for driving the latch hook of the latch plate to be elastically fastened on the latch position of the plate end module body.

The utility model has the advantages that: the utility model provides a buckle formula heavy current connector, this buckle formula heavy current connector is provided with the hasp board at line end module main part lateral part, be provided with the buckle position at board end module main part lateral part, but hasp buckle on the hasp board straining is on the buckle position and make board end connector module and line end connector module lock each other, it is convenient to have locking and dismantle, use the characteristics that the flexibility is high, parts such as casing and connecting screw among the prior art have been saved, the cost has not only been saved, and implementation efficiency has greatly been promoted, use and experience better.

To sum up, this buckle formula heavy current connector has solved the installation that prior art exists, has dismantled inconvenient, time with high costs, implementation inefficiency scheduling technical defect.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is an assembly schematic diagram of embodiment 1 of the present invention;

fig. 2 is a structural exploded view of embodiment 1 of the present invention;

fig. 3 is a schematic sectional structure diagram of embodiment 1 of the present invention;

fig. 4 is a structural exploded view of a plate-end connector module according to embodiment 1 of the present invention;

fig. 5 is a structural exploded view of a terminal connector module according to embodiment 1 of the present invention;

fig. 6 is a schematic structural diagram of a plate end module body in embodiment 1 of the present invention;

fig. 7 is a schematic structural diagram of a line end module body in embodiment 1 of the present invention;

fig. 8 is an assembly schematic diagram of embodiment 2 of the present invention;

fig. 9 is a schematic structural view of a latch plate according to embodiment 2 of the present invention.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The technical features of the present invention can be combined interactively without conflicting with each other, as shown in fig. 1 to 9.

Embodiment 1, specifically refer to 1-7, a buckle type high current connector, includes a board end connector module 1 and a line end connector module 2 used in cooperation with the board end connector module 1, where the board end connector module 1 includes a board end module body 11 and a board end module terminal disposed inside the board end module body 11, the line end connector module 2 includes a line end module body 21 and a board end module terminal disposed inside the line end module body 21, the board end module terminal and the line end module terminal can be electrically plugged in one-to-one correspondence, a buckle seat 213 is disposed on a lateral portion of the line end module body 21, a buckle rotating shaft 3 is disposed on a lateral portion of the buckle seat 213, a buckle plate 4 is hinged to the buckle rotating shaft 3, a buckle hook 41 is disposed on a free end portion of the buckle plate 4, a buckle position 113 matched with the buckle hook 41 is disposed on a lateral portion of the board end module body 11, the locking hook 41 can be locked at the locking position 113 and can lock the plate-end connector module 1 and the line-end connector module 2 with each other.

Preferably, the board end module terminal includes a board end module power terminal 12 and a board end module ground terminal 13, the line end module terminal includes a line end module power terminal 22 and a line end module ground terminal 23, and the line end module power terminal 22 and the line end module ground terminal 23 can be plugged into the board end module power terminal 12 and the board end module ground terminal 13 in a one-to-one correspondence manner.

Preferably, the board-end module body 11 is provided with a board-end power terminal mounting hole 111 and a board-end ground terminal mounting hole 112, and the board-end module power terminal 12 and the board-end module ground terminal 13 are respectively mounted in the board-end power terminal mounting hole 111 and the board-end ground terminal mounting hole 112;

board end power supply terminal mounting hole 111 and board end ground terminal mounting hole 112 are the shoulder hole, board end module power supply terminal 12 and board end module ground terminal 13 lateral part all are provided with board end terminal spacing bulge loop 121 and board end terminal spacing notch ring 122, be provided with board end terminal rand 16 in the board end terminal spacing notch ring 122, board end module power supply terminal 12 is through its board end terminal spacing bulge loop 121, board end terminal rand 16 and the ladder position fixed mounting in board end power supply terminal mounting hole 111, board end module ground terminal 13 is through the ladder position fixed mounting in its board end terminal spacing bulge loop 121, board end terminal rand 16 and board end ground terminal mounting hole 112 in board end ground terminal mounting hole 112.

Preferably, the line end module main body 21 is provided with a line end power terminal mounting hole 211 and a line end ground terminal mounting hole 212, and the line end module power terminal 22 and the line end module ground terminal 23 are mounted in the line end power terminal mounting hole 211 and the line end ground terminal mounting hole 212, respectively;

the line end power terminal mounting hole 211 and the line end ground terminal mounting hole 212 are stepped holes, the side portions of the line end module power terminal 22 and the line end module ground terminal 23 are both provided with a line end terminal limiting step 221 and a line end terminal limiting concave ring 222, the line end terminal limiting concave ring 222 is provided with a line end terminal collar 24, the line end module power terminal 22 is fixedly mounted in the line end power terminal mounting hole 211 through a stepped position in the line end terminal limiting step 221, the line end terminal collar 24 and the line end power terminal mounting hole 211, and the line end module ground terminal 23 is fixedly mounted in the line end ground terminal mounting hole 212 through a stepped position in the line end terminal limiting step 221, the line end terminal collar 24 and the line end ground terminal mounting hole 212.

Preferably, the inner end portions of the board-end module power terminal 12 and the board-end module ground terminal 13 are provided with an electric shock preventing insulating plug 17.

Preferably, the inner ends of the line end module power terminal 22 and the line end module ground terminal 23 are both provided with mounting holes with inward end portions, the mounting holes are internally provided with crown springs 25, the inner end of the board end module power terminal 12 can be inserted into the crown springs 25 at the end portions of the line end module power terminal 22 and electrically connect the board end module power terminal 12 with the line end module power terminal 22, and the inner end of the board end module ground terminal 13 can be inserted into the crown springs 25 at the end portions of the line end module ground terminal 23 and electrically connect the board end module ground terminal 23 with the line end module ground terminal 23.

Preferably, the board-end module power terminal 12 is connected with a power cable 14, the board-end module grounding terminal 13 is connected with a grounding cable 15, and the outer end of the grounding cable 15 is provided with a round terminal 151.

Preferably, the board end module body 11 and the line end module body 21 are both integrally injection-molded plastic bodies;

board end module power supply terminal 12 and line end module power supply terminal 22 all have 12, are two and arrange, board end module ground terminal 13 and line end module ground terminal 23 all have 2, and each board end module ground terminal 13 forms one row with six board end module power supply terminals 12, and each line end module ground terminal 23 forms one row with six line end module power supply terminals 22.

Preferably, the side of the plate end module body 11 is provided with a mounting plate 114, the mounting plate 114 is provided with a nut receiving groove 115 from the side thereof inward, the nut receiving groove 115 is provided with a fixing nut 6 for fixing the plate end connector module 1 therein, the mounting plate 114 is further provided with a through hole 116, the through hole 116 penetrates from two opposite faces of the mounting plate 114, and the through hole 116 is vertically communicated with a screw hole in the middle of the fixing nut 6;

the board end module body 11 is fixedly provided with a connector harpoon 7 through a harpoon fixing screw 71.

Preferably, the hasp seat 213 is the upper and lower hollow seat that runs through, the cover is equipped with torsional spring 5 on the hasp pivot 3, torsional spring 5 is used for driving hasp trip 41 elasticity on the hasp board 4 to compress tightly on buckle position 113 on board end module main part 11, and 5 one end of torsional spring acts on 3 inside walls of hasp seat or line end module main part 21 lateral walls, and the 5 other end of torsional spring acts on hasp board 4, hasp board 4 is provided with the hasp of being convenient for to press and presses the portion 42 in its one end of keeping away from hasp trip 41, still is provided with the torsional spring on the hasp board 4 and holds concave position 43, torsional spring 5 can hold and hold in this torsional spring holds concave position 43.

In particular implementation the utility model discloses the time, when needs are connected board end connector module 1 and line end connector module 2, after board end module main part 11 pegs graft each other with line end module main part 21, board end module power supply terminal 12 pegs graft with the mutual electrical property of line end module power supply terminal 22, board end module ground terminal 13 pegs graft with the mutual electrical property of line end module ground terminal 23.

In the above-mentioned grafting process, in the hasp trip 41 on the hasp board 4 progressively slides in the buckle position 113 on the board end module main part 11, after the hasp trip 41 slides in buckle position 113, because torsional spring 5's elastic force effect, hasp trip 41 can lock in buckle position 113 and can not follow the roll-off in buckle position 113, and then make board end connector module 1 and terminal connector module 2 lock each other, the parts such as the connection casing or connecting screw that need adopt among the prior art have been removed from, the cost has both been saved, the efficiency of implementation has also been improved simultaneously, it is more convenient to use.

In order to facilitate the lock hook 41 of the lock plate 4 to slide into the lock position 113 of the plate-end module body 11, a guiding slope may be provided on the inner side of the upper end of the lock hook 41 and the outer side of the lock position 113.

When the plate-end connector module 1 and the line-end connector module 2 need to be detached from each other, the pressing portion 42 of the locking plate 4 is pressed down by hand, and after the locking plate 4 overcomes the elastic force of the torsion spring 5, the locking hook 41 at the end of the locking plate is separated from the locking position 113 on the plate-end module body 11, so that the line-end connector module 2 can be pulled out from the plate-end connector module 1.

In addition, set up fixation nut 7 on board end module main part 11, cooperation set screw or fixing bolt can install board end connector module 1 on the cloud server organism fast, and it is more convenient, nimble to use.

Embodiment 2, specifically referring to fig. 8 and 9, this embodiment is basically the same as embodiment 1, and is different in that: the latch seat 213 is a hollow seat penetrating from top to bottom, the latch plate 4 is provided with a latch pressing portion 42 and an elastic support portion 44 at one end of the latch plate far away from the latch hook 41, the latch pressing portion 42 is used for pressing the latch seat 4 and enabling the latch seat 4 to rotate around the latch rotating shaft 3, and the inner end of the elastic support portion 44 is elastically abutted against the side wall of the line end module body 21 and used for driving the latch hook 41 of the latch plate 4 to be elastically fastened on the fastening position 113 of the plate end module body 11.

In this embodiment, under the action of no external force, the latch hooks 41 at the end portions of the latch plate 4 are kept in the state of elastic internal pressure under the elastic support of the elastic support portion 44, so that the latch hooks 41 can be elastically clamped in the latch positions 113 on the plate end module body 11 to achieve mutual locking, the function of the elastic support portion 44 is substantially the same as that of the torsion spring 5 in embodiment 1, and therefore, the torsion spring 5 is eliminated, and the latch rotating shaft 3 and the latch plate 4 can be set as an integrated piece.

In addition, in the present embodiment, the board end module main body 11 is no longer provided with the nut receiving groove 115 extending inward from the side portion, and the fixing nut 6 is received in the through hole 16 in the vertical direction.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (10)

1. The utility model provides a buckle formula heavy current connector which characterized in that: the cable connector comprises a board end connector module (1) and a cable end connector module (2) matched with the board end connector module (1) for use, wherein the board end connector module (1) comprises a board end module body (11) and board end module terminals arranged inside the board end module body (11), the cable end connector module (2) comprises a cable end module body (21) and board end module terminals arranged inside the cable end module body (21), the board end module terminals and the cable end module terminals can be electrically connected in a one-to-one correspondence mode, the lateral part of the cable end module body (21) is provided with a lock catch seat (213), the lateral part of the lock catch seat (213) is provided with a lock catch rotating shaft (3), the lock catch rotating shaft (3) is hinged with a lock catch plate (4), the free end part of the lock catch plate (4) is provided with a lock catch hook (41), the lateral part of the board end module body (11) is provided with a buckle position (113) matched with the lock catch hook (41), the locking buckle clamping hook (41) can be clamped at the locking buckle position (113) and enables the plate end connector module (1) and the line end connector module (2) to be locked with each other.

2. A snap-on high current connector as claimed in claim 1, wherein: the board end module terminal comprises a board end module power terminal (12) and a board end module ground terminal (13), the line end module terminal comprises a line end module power terminal (22) and a line end module ground terminal (23), and the line end module power terminal (22) and the line end module ground terminal (23) can be correspondingly plugged with the board end module power terminal (12) and the board end module ground terminal (13) one to one.

3. A snap-on high current connector as claimed in claim 2, wherein: the board end module main body (11) is provided with a board end power terminal mounting hole (111) and a board end grounding terminal mounting hole (112), and the board end module power terminal (12) and the board end module grounding terminal (13) are respectively mounted in the board end power terminal mounting hole (111) and the board end grounding terminal mounting hole (112);

the plate end power supply terminal mounting hole (111) and the plate end grounding terminal mounting hole (112) are both stepped holes, the side parts of the plate end module power supply terminal (12) and the plate end module grounding terminal (13) are respectively provided with a plate end terminal limiting convex ring (121) and a plate end terminal limiting concave ring (122), a plate end terminal clamping ring (16) is arranged in the plate end terminal limiting concave ring (122), the board end module power terminal (12) is fixedly arranged in the board end power terminal mounting hole (111) through a board end terminal limiting convex ring (121), a board end terminal retainer ring (16) and a step position in the board end power terminal mounting hole (111), the plate-end module grounding terminal (13) is fixedly installed in the plate-end grounding terminal installation hole (112) through a plate-end terminal limiting convex ring (121), a plate-end terminal clamping ring (16) and a step position in the plate-end grounding terminal installation hole (112).

4. A snap-on high current connector as claimed in claim 2, wherein: the line end module main body (21) is provided with a line end power terminal mounting hole (211) and a line end grounding terminal mounting hole (212), and the line end module power terminal (22) and the line end module grounding terminal (23) are respectively mounted in the line end power terminal mounting hole (211) and the line end grounding terminal mounting hole (212);

the wire end power terminal mounting hole (211) and the wire end grounding terminal mounting hole (212) are both stepped holes, the side parts of the line end module power terminal (22) and the line end module grounding terminal (23) are respectively provided with a line end terminal limiting step (221) and a line end terminal limiting concave ring (222), a wire end terminal clamping ring (24) is arranged in the wire end terminal limiting concave ring (222), the wire end module power terminal (22) is fixedly installed in the wire end power terminal installation hole (211) through a wire end terminal limiting step (221), a wire end terminal clamping ring (24) and a step position in the wire end power terminal installation hole (211), the line end module grounding terminal (23) is fixedly installed in the line end grounding terminal installation hole (212) through a line end terminal limiting step (221), a line end terminal clamping ring (24) and a step position in the line end grounding terminal installation hole (212).

5. A snap-on high current connector as claimed in claim 2, wherein: and the inner end parts of the board end module power supply terminal (12) and the board end module grounding terminal (13) are provided with electric shock prevention insulating plugs (17).

6. A snap-on high current connector as claimed in claim 2, wherein: the terminal module power supply terminal (22) and the terminal module ground terminal (23) are both provided with mounting holes inwards from the ends, the mounting holes are internally provided with crown springs (25), the inner end of the plate terminal module power supply terminal (12) can be inserted into the crown springs (25) at the ends of the terminal module power supply terminal (22) and electrically connected with the plate terminal module power supply terminal (12) and the terminal module power supply terminal (22), and the inner end of the plate terminal module ground terminal (13) can be inserted into the crown springs (25) at the ends of the terminal module ground terminal (23) and electrically connected with the plate terminal module ground terminal (13) and the terminal module ground terminal (23).

7. A snap-on high current connector as claimed in claim 2, wherein: the plate end module power supply terminal (12) is connected with a power supply cable (14), the plate end module grounding terminal (13) is connected with a grounding cable (15), and the end part of the outer end of the grounding cable (15) is provided with a circular terminal (151);

the board end module main body (11) and the line end module main body (21) are plastic main bodies which are integrally formed by injection molding;

board end module power supply terminal (12) and line end module power supply terminal (22) all have 12, are two and arrange, board end module ground terminal (13) and line end module ground terminal (23) all have 2, and each board end module ground terminal (13) forms one row with six board end module power supply terminals (12), and each line end module ground terminal (23) forms one row with six line end module power supply terminals (22).

8. A snap-on high current connector as claimed in claim 2, wherein: the side part of the plate end module main body (11) is provided with a mounting plate (114), the mounting plate (114) is internally provided with a nut accommodating groove (115) from the side part, a fixing nut (6) used for fixing the plate end connector module (1) is arranged in the nut accommodating groove (115), the mounting plate (114) is also provided with a through hole (116), the through hole (116) is communicated from two opposite surfaces of the mounting plate (114), and the through hole (116) is vertically communicated with a screw hole in the middle of the fixing nut (6);

and a connector harpoon (7) is fixedly arranged on the plate end module main body (11) through a harpoon fixing screw (71).

9. A snap-on high current connector according to any of claims 1 to 8, wherein: the utility model discloses a hasp, including hasp pivot (3), hasp seat (213), hasp pivot (3) are gone up the cover and are equipped with torsional spring (5), torsional spring (5) are used for driving hasp trip (41) on hasp board (4) the elasticity compress tightly on buckle position (113) on board end module main part (11), and torsional spring (5) one end acts on hasp seat (213) inside wall or line end module main part (21) lateral wall, and the torsional spring (5) other end acts on hasp board (4), hasp board (4) are provided with the hasp of being convenient for to press and press splenium (42) at its one end of keeping away from hasp trip (41), still are provided with the torsional spring on hasp board (4) and hold concave position (43), torsional spring (5) can hold and hold in this torsional spring holds concave position (43).

10. A snap-on high current connector according to any of claims 1 to 8, wherein: the utility model discloses a hasp, including hasp end module main part (11), hasp seat (213) are the upper and lower hollow seat that runs through, hasp board (4) are provided with the hasp of being convenient for to press and press splenium (42) and elastic support portion (44) at its one end of keeping away from hasp trip (41), hasp press splenium (42) are used for pressing hasp board (4) and make hasp board (4) rotate round hasp pivot (3), elastic support portion (44) inner elasticity supports to lean on to line terminal module main part (21) lateral wall and is used for driving hasp trip (41) elastic fastening of hasp board (4) on buckle position (113) of board end module main part (11).

Images