CN220291257U - Direct-insertion type energy storage connector - Google Patents

Abstract

The utility model discloses a direct-insert type energy storage connector which comprises a direct-insert type female seat and a direct-insert type plug which can be mutually plugged and communicated, wherein the direct-insert type plug comprises an insulating seat, a metal guide connection cylinder arranged in the insulating seat, a metal wiring cylinder integrally connected to the rear end of the metal guide connection cylinder, a sealing sleeve and a wire fixing cylinder sleeved on the periphery of the metal wiring cylinder, and a thread sleeve spirally arranged on the periphery of the rear end of the insulating seat and covering the wire fixing cylinder, the front end of the insulating seat is provided with a butt joint groove and a butt joint cylinder arranged in the butt joint groove, the front end of the metal guide connection cylinder is inlaid in the butt joint cylinder, the outer wall of the butt joint cylinder and the inner wall of the butt joint groove form an annular butt joint space, a movable reed is arranged in the metal guide connection cylinder, the insulating seat is provided with a locking structure, the locking structure comprises a lock catch arranged in the insulating seat in a slidable mode through a spring, a pressing part at one end of the lock catch is protruded on the outer surface of the insulating seat under the elastic acting force of the spring, and a locking part at the other end of the lock catch is also arranged in the annular butt joint space under the elastic acting force of the spring.

Description

Direct-insertion type energy storage connector

Technical field:

the utility model relates to the technical field of connectors, in particular to a direct-insertion type energy storage connector.

The background technology is as follows:

in electronic devices, in order to achieve electrical connection between components that are electrically independent of each other, an electrical connector is generally required, and the electrical connector is capable of achieving electrical conduction between two independent electrical structures, wherein an energy storage connector is one of common electrical connectors. The energy storage connector plays a role in connection and conduction, and the requirements of different manufacturers on the energy storage connector are different, so that the energy storage connector is generally miniaturized and convenient to operate, and the problem of small space and convenient operation can be solved by using the elbow plug-in type connector as a representative.

The utility model discloses a novel energy storage connector, which comprises a plug body and a socket body, wherein an electric plug is arranged on the plug body, hooks are arranged on two sides of the electric plug on the plug body, the socket body comprises a cylindrical clamping sleeve, a socket disc, a mounting column and terminals which are sequentially arranged from top to bottom, through holes are formed in the socket body, the through holes penetrate through the cylindrical clamping sleeve, the socket disc and the mounting column, the terminals are inserted from the through holes at one end of the mounting column, the electric plug is inserted from the through holes at one end of the clamping sleeve, clamping columns are arranged on two sides of the outer surface of the clamping sleeve, a clamping interface corresponding to the positions of the hooks is arranged at the top of the clamping columns, a disassembling port is arranged at the position, close to the bottom, of the clamping columns, and is communicated with the clamping interface, a hooking groove for fixing the hooks is formed in the communicating position of the disassembling port and the clamping interface, step faces are arranged on two sides of the plug body, and bosses which are abutted against the step faces are arranged in the through holes. After the plug body and the socket body of the energy storage connector are inserted, the plug body and the socket body are stable in connection and firm in locking, but are very inconvenient to disassemble, namely, the plug body is difficult to dial out relative to the socket body, and the energy storage connector is inconvenient to use.

In view of this, the present inventors have proposed the following means.

The utility model comprises the following steps:

the utility model aims to overcome the defects of the prior art and provides a direct-insertion type energy storage connector.

In order to solve the technical problems, the utility model adopts the following technical scheme: the direct-insertion type energy storage connector comprises a direct-insertion type female seat and a direct-insertion type plug which can be mutually plugged and communicated, wherein the direct-insertion type plug comprises an insulating seat, a metal guide connection cylinder arranged in the insulating seat, a metal wiring cylinder integrally connected to the rear end of the metal guide connection cylinder, a sealing sleeve sleeved on the periphery of the metal wiring cylinder, a wire fixing cylinder and a threaded sleeve spirally arranged on the periphery of the rear end of the insulating seat and covering the wire fixing cylinder, the front end of the insulating seat is provided with a butt joint groove and a butt joint cylinder arranged in the butt joint groove, the front end of the metal guide connection cylinder is inlaid in the butt joint cylinder, the outer wall of the butt joint cylinder and the inner wall of the butt joint groove are formed with annular butt joint intervals, movable reeds are arranged in the metal guide connection cylinder, the insulating seat is provided with a locking structure, the locking structure comprises a lock catch arranged in the insulating seat in a slidable mode through a spring, a pressing part at one end of the lock catch is protruded on the outer surface of the insulating seat under the elastic acting force of the spring, and a buckling part at the other end of the lock catch is also annularly arranged in the butt joint interval under the elastic acting force of the spring.

Furthermore, in the above technical solution, the fastening portion is arc-shaped; the pressing part end face is provided with a plurality of first anti-slip bulges.

In the above technical solution, the insulating seat is provided with a sliding groove penetrating the annular opposite-insertion space and a travel limiting hole communicated with the sliding groove; the lock catch is characterized in that an elastic arm is further formed on one side of the lock catch, a protruding portion is formed at the end of the elastic arm, the lock catch is arranged in the sliding groove, the spring is pressed between the lock catch and the sliding groove, and the protruding portion is pressed into the travel limiting hole and can move in the travel limiting hole.

Furthermore, in the above technical solution, the other end of the lock catch is provided with a containing groove, and one end of the spring is inserted into the containing groove; the other end of the spring is sleeved on the periphery of a positioning column arranged in the sliding groove.

Furthermore, in the above technical solution, a plurality of second anti-slip protrusions are disposed on the periphery of the insulating base.

In the above technical scheme, further, the periphery of the end part of the butt joint cylinder is formed with a ring groove, a sealing sheet is arranged in the ring groove, and a plurality of sealing bulges are formed on the outer surface of the sealing sheet.

Furthermore, in the above technical scheme, the part of the metal wiring cylinder connected with the metal guide cylinder is provided with a plurality of limiting grooves, and the positioning ring formed in the insulating seat is clamped in the limiting grooves to realize axial positioning.

Furthermore, in the above technical scheme, the direct-insertion type socket comprises an insulator and a terminal fixed in the insulator, wherein the front end of the insulator is formed with a butt-insertion barrel matched with the annular butt-insertion space, the central needle body at the front end of the terminal is arranged in the butt-insertion barrel, the guide connection part at the rear end of the terminal extends out of the rear end face of the insulator, and the periphery of the front end of the butt-insertion barrel is formed with an annular locking groove.

Furthermore, in the above technical scheme, the insulator rear end shaping has the uide bushing, the guide portion of terminal rear end passes this uide bushing and stretches out outside this insulator rear end face, and this insulator rear end still is provided with a sealing pad, and this sealing pad still overlaps in the uide bushing periphery.

Furthermore, in the above technical solution, a flat section is provided on the periphery of the guide sleeve.

By adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects: the utility model is provided with the lock catch structure in the insulating seat of the direct-insert type plug, under the normal state, the pressing part at one end of the lock catch is highlighted on the outer surface of the insulating seat under the elastic acting force of the spring, the buckling part at the other end of the lock catch is also arranged in the annular opposite-insert interval under the elastic acting force of the spring, so that the insulator which is opposite-insert with the annular opposite-insert interval is locked, in the unlocking state, the direct-insert type plug and the direct-insert type female seat cannot be relatively pulled out, the connection stability of the direct-insert type plug and the direct-insert type female seat is ensured, when the direct-insert type plug is required to be relatively pulled out, the pressing part of the lock catch is pressed to drive the buckling part of the lock catch to leave the annular opposite-insert interval, the buckling part is not locked with the insulator, the purpose of unlocking is achieved, and the direct-insert type plug can be relatively pulled out of the direct-insert type female seat at the moment, the lock catch structure is extremely simple and convenient to operate, and has extremely strong market competitiveness.

Description of the drawings:

FIG. 1 is an assembly view of the present utility model;

FIG. 2 is a perspective view of an in-line female socket of the present utility model;

FIG. 3 is an exploded perspective view of an in-line female socket of the present utility model;

FIG. 4 is a perspective view of an in-line female socket of the present utility model;

FIG. 5 is an exploded perspective view of an in-line female socket of the present utility model;

fig. 6 is a perspective view of an insulating base in the present utility model.

The specific embodiment is as follows:

the utility model will be further described with reference to specific examples and figures.

Referring to fig. 1-6, an in-line energy storage connector includes an in-line female socket 200 and an in-line plug 100 that are capable of being mutually plugged and connected.

The plug 100 comprises an insulating base 1, a metal guide tube 2 installed in the insulating base 1, a metal wiring tube 3 integrally connected to the rear end of the metal guide tube 2, a sealing sleeve 4 and a wire fixing tube 5 sleeved on the periphery of the metal wiring tube 3, and a threaded sleeve 6 spirally installed on the periphery of the rear end of the insulating base 1 and covering the wire fixing tube 5, wherein the front end of the insulating base 1 is provided with a butt joint groove 11 and a butt joint tube 12 arranged in the butt joint groove 11, the front end of the metal guide tube 2 is embedded in the butt joint tube 12, an annular butt joint interval 10 is formed between the outer wall of the butt joint tube 12 and the inner wall of the butt joint groove 11, the metal guide tube 2 is internally provided with a movable reed 21, and the reed 21 is used for being in butt joint/butt joint with a terminal 8 of the plug-in type female base 200. The metal guide connection cylinder 2 and the metal wiring cylinder 3 are integrally connected and are one part, which is convenient for processing, can simplify the assembly step and can reduce the cost. The sealing sleeve 4 is used for being in contact with an inserted cable, the wire fixing barrel 5 is sleeved on the periphery of the sealing sleeve 4 to force the sealing sleeve 4 to be in close contact with the cable, the sealing effect is achieved, the thread sleeve 6 is spirally arranged on the periphery of the rear end of the insulating base 1 and covers the wire fixing barrel 5 to limit the wire fixing barrel 5 and the sealing sleeve 4, and the purpose of fastening and assembling is achieved.

The insulating seat 1 is provided with a locking structure 13, the locking structure 13 comprises a lock catch 131 slidably mounted in the insulating seat 1 through a spring 132, a pressing part 101 at one end of the lock catch 131 is protruded on the outer surface of the insulating seat 1 under the elastic acting force of the spring 132, a buckling part 102 at the other end of the lock catch 131 is also arranged in the annular opposite inserting interval 10 under the elastic acting force of the spring 132, so that the insulator 7 opposite inserted with the annular opposite inserting interval 10 is locked, the direct inserting plug 100 and the direct inserting female seat 200 cannot be relatively pulled out in an unlocking state, the connection stability of the direct inserting plug 100 and the direct inserting female seat 200 is ensured, and when the direct inserting plug 100 is required to be relatively pulled out of the direct inserting female seat 200, the pressing part 101 of the lock catch 131 is pressed to drive the buckling part 102 of the lock catch 131 to leave the annular opposite inserting interval 10, the buckling part 102 is not locked with the insulator 7, and the purpose of unlocking is achieved.

The buckling part 102 is arc-shaped, and can be better pressed into the annular locking groove of the insulator 7, so that a better locking effect is achieved.

The end face of the pressing part 101 is provided with a plurality of first anti-slip protrusions 103, which have good anti-slip effect.

The insulating base 1 is provided with a sliding groove 14 penetrating the annular opposite-inserting interval 10 and a travel limit hole 15 communicated with the sliding groove 14; the latch 131 is further formed with a latch arm 104 at one side, a protrusion 105 is formed at an end of the latch arm 104, the latch 131 is installed in the sliding groove 14, a spring 132 is pressed between the latch 131 and the sliding groove 14, and the protrusion 105 is pressed into the travel limiting hole 15 and can move in the travel limiting hole 15, so that the latch 131 is limited to slide under the limitation of the travel limiting hole 15, and the latch 131 is prevented from being accidentally separated.

The other end of the lock catch 131 is provided with a containing groove 106, and one end of the spring 132 is penetrated in the containing groove 106; the other end of the spring 132 is sleeved on the periphery of the positioning column arranged in the sliding groove 14, so that the spring 132 is ensured to be stably arranged between the lock catch 131 and the sliding groove 14, and the spring 132 can better improve the elastic force.

The insulation base 1 is provided with a plurality of second anti-slip protrusions 16 at the periphery, and the second anti-slip protrusions 16 can have good anti-slip capability so that a user can insert or extract the in-line plug 100.

An annular groove 121 is formed at the periphery of the end part of the butt-joint barrel 12, a sealing sheet 122 is arranged in the annular groove 121, a plurality of sealing bulges 123 are formed on the outer surface of the sealing sheet 122, and the aim of sealing assembly is fulfilled after the butt-joint barrel 12 is inserted with the insulator 7 of the direct-insertion type female seat 200.

The metal wiring cylinder 3 is provided with a plurality of limit grooves 31 at the connection part of the metal guide connection cylinder 2, and the positioning ring formed in the insulating seat 1 is clamped in the limit grooves 31 to realize axial positioning.

The direct insertion type female socket 200 comprises an insulator 7 and a terminal 8 fixed in the insulator 7, wherein an opposite insertion cylinder 71 matched with the annular opposite insertion space 10 is formed at the front end of the insulator 7, a central needle 81 at the front end of the terminal 8 is arranged in the opposite insertion cylinder 71, the central needle 81 is used for being inserted into the metal guide cylinder 2 and is connected with the reed 21 in a guide way, a guide connection part 82 at the rear end of the terminal 8 extends out of the rear end face of the insulator 7, and an annular locking groove 711 is formed at the periphery of the front end of the opposite insertion cylinder 71.

The rear end of the insulator 7 is provided with a guide sleeve 72, a guide connection part 82 at the rear end of the terminal 8 passes through the guide sleeve 72 and extends out of the rear end face of the insulator 7, the rear end of the insulator 7 is also provided with a sealing gasket 73, and the sealing gasket 73 is also sleeved on the periphery of the guide sleeve 72. The rear end of the insulator 7 passes through the shell or the box body, the guide connection part 82 at the rear end of the terminal 8 stretches into the shell or the box body, the guide sleeve 72 can protect the part of the terminal 8 passing through the shell or the box body, and the sealing gasket 73 is arranged between the insulator 7 and the shell or the box body, so that the sealing purpose is achieved.

The periphery of the guide sleeve 72 is provided with a flat cut surface 721 which achieves a foolproof effect and at the same time enables the guide sleeve 72 to rotate.

In summary, in the present utility model, the latch structure 13 is disposed in the insulating seat of the in-line plug 100, in a conventional state, the pressing portion 101 at one end of the latch 131 protrudes from the outer surface of the insulating seat 1 under the elastic force of the spring 132, and the latch 102 at the other end of the latch 131 is also disposed in the annular opposite-plug space 10 under the elastic force of the spring 132, so as to lock the insulator 7 opposite-plug space 10, in an unlocked state, the in-line plug 100 and the in-line socket 200 cannot be pulled out relatively, so as to ensure that the in-line plug 100 and the in-line socket 200 are connected stably, and when the in-line plug 100 needs to be pulled out relatively to the in-line socket 200, the pressing portion 101 of the latch 131 is pressed to drive the latch 102 to leave the annular opposite-plug space 10, so that the latch 102 does not lock the insulator 7 any more, and the plug 100 can be pulled out relatively to the in-line socket 200 at this time, which is easy and convenient to operate, so that the present utility model has very strong market competitiveness.

It is understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, but rather is to be accorded the full scope of all such modifications and equivalent structures, features and principles as set forth herein.

Claims (10)

1. The utility model provides a cut straightly type energy storage connector, it includes can cut straightly female seat (200) and cut straightly type plug (100) that switch on each other, cut straightly type plug (100) including insulating seat (1), install in metal guide tube (2) in insulating seat (1), an organic whole is connected in metal wiring tube (3) of this metal guide tube (2) rear end, cover is located this metal wiring tube (3) outlying seal cover (4) and solidus section of thick bamboo (5) and spiral install in this insulating seat (1) rear end periphery and cover thread bush (6) of solidus section of thick bamboo (5), this insulating seat (1) front end has butt joint groove (11) and places butt joint section of thick bamboo (12) in butt joint groove (11), metal guide tube (2) front end inlay install in this butt joint section of thick bamboo (12), butt joint section of thick bamboo (12) outer wall and butt joint groove (11) inner wall are formed with annular butt joint interval (10), be provided with movable reed (21) in this metal guide tube (2), its characterized in that:

the insulating seat (1) is provided with a locking structure (13), the locking structure (13) comprises a lock catch (131) which is installed in the insulating seat (1) in a sliding mode through a spring (132), a pressing part (101) at one end of the lock catch (131) is protruded on the outer surface of the insulating seat (1) under the elastic acting force of the spring (132), and a buckling part (102) at the other end of the lock catch (131) is also arranged in the annular opposite-inserting interval (10) under the elastic acting force of the spring (132).

2. The in-line energy storage connector of claim 1, wherein: the buckling part (102) is arc-shaped; the end face of the pressing part (101) is provided with a plurality of first anti-slip bulges (103).

3. The in-line energy storage connector of claim 1, wherein: the insulating seat (1) is provided with a sliding groove (14) penetrating through the annular opposite-inserting interval (10) and a travel limit hole (15) communicated with the sliding groove (14); one side of the lock catch (131) is also provided with a spring arm (104), the end part of the spring arm (104) is provided with a convex part (105), the lock catch (131) is arranged in the sliding groove (14), the spring (132) is pressed between the lock catch (131) and the sliding groove (14), and the convex part (105) is pressed into the stroke limiting hole (15) and can move in the stroke limiting hole (15).

4. An in-line energy storage connector as defined in claim 3, wherein: the other end of the lock catch (131) is provided with a containing groove (106), and one end of the spring (132) is penetrated in the containing groove (106); the other end of the spring (132) is sleeved on the periphery of a positioning column arranged in the sliding groove (14).

5. The in-line energy storage connector of claim 4, wherein: the periphery of the insulating seat (1) is provided with a plurality of second anti-slip bulges (16).

6. The in-line energy storage connector of claim 4, wherein: an annular groove (121) is formed in the periphery of the end part of the butt joint barrel (12), a sealing sheet (122) is arranged in the annular groove (121), and a plurality of sealing bulges (123) are formed on the outer surface of the sealing sheet (122).

7. The in-line energy storage connector of claim 4, wherein: the metal wiring cylinder (3) is provided with a plurality of limit grooves (31) at the connection part of the metal wiring cylinder (2), and the positioning ring formed in the insulating seat (1) is clamped in the limit grooves (31) to realize axial positioning.

8. An in-line energy storage connector as defined in any one of claims 1-7, wherein: the direct-insertion female seat (200) comprises an insulator (7) and a terminal (8) fixed in the insulator (7), wherein an opposite insertion cylinder (71) matched with the annular opposite insertion space (10) is formed at the front end of the insulator (7), a central needle body (81) at the front end of the terminal (8) is arranged in the opposite insertion cylinder (71), a guide connection part (82) at the rear end of the terminal (8) extends out of the rear end face of the insulator (7), and an annular locking groove (711) is formed at the periphery of the front end of the opposite insertion cylinder (71).

9. The in-line energy storage connector of claim 8, wherein: the rear end of the insulator (7) is provided with a guide sleeve (72), a guide connection part (82) at the rear end of the terminal (8) penetrates through the guide sleeve (72) and extends out of the rear end face of the insulator (7), the rear end of the insulator (7) is further provided with a sealing gasket (73), and the sealing gasket (73) is further sleeved on the periphery of the guide sleeve (72).

10. The in-line energy storage connector of claim 9, wherein: a plane section (721) is arranged on the periphery of the guide sleeve (72).