CN113823943A

CN113823943A - High vibration resistance energy storage wire of interior round spring formula card line is to connector

Info

Publication number: CN113823943A
Application number: CN202111411588.6A
Authority: CN
Inventors: 朱锋; 陈明林; 梁鸿毅
Original assignee: Hong Ru Connectors Co ltd
Current assignee: Guangdong Hongru Technology Co ltd
Priority date: 2021-11-25
Filing date: 2021-11-25
Publication date: 2021-12-21
Anticipated expiration: 2041-11-25
Also published as: CN113823943B

Abstract

The invention discloses an internal spring type clamp wire high-vibration-resistance energy storage wire to connector, which comprises a lock catch, wherein plug-in ports suitable for the lock catch to be inserted are formed on a male rubber shell and a female rubber shell, gaps are formed in positions, corresponding to the plug-in ports, of a first terminal and a second terminal, the lock catch is suitable for extending into the gaps when being inserted into the plug-in ports, and locking between the first terminal and the male rubber shell and between the second terminal and the female rubber shell is realized. Such design, insert interface and space through the hasp, realized between first terminal and the public gluey shell, and the locking between second terminal and the female gluey shell is fixed. Compared with the prior art, the connector has better communication stability.

Description

High vibration resistance energy storage wire of interior round spring formula card line is to connector

Technical Field

The invention relates to an electronic connector element, in particular to an inner-circle spring type clamp wire high-vibration-resistance energy storage wire to wire connector.

Background

A connector is a component that is frequently touched by electronic engineers and is used to bridge a communication between a blocked or isolated dead circuit in a circuit, thereby allowing current to flow and allowing the circuit to perform a predetermined function. Because the connector needs to be used continuously for a long time after being communicated, even the connector needs to be moved integrally, the communication stability of the connector after being communicated is more and more valued.

Generally, two terminals of the connector are respectively inserted into two plastic shells and fixed, so that the two terminals are electrically connected. In order to increase the stability of the terminal after communication, the connector in the prior art generally increases a connecting and locking device between two rubber shells, but due to the design, the stability of the terminal and the rubber shells in communication is ignored, the rubber shells are still connected frequently, but the terminal falls off, the technical purpose of long-time communication cannot be realized, normal use is influenced, and potential safety hazards exist.

Disclosure of Invention

The invention aims to provide a connector, which solves the problem that the connector in the prior art is poor in communication stability.

In order to achieve the purpose, the invention provides the following technical scheme:

an inner circle spring type clamp wire high-vibration-resistance energy storage wire connector comprises a male rubber shell and a female rubber shell which are mutually inserted, wherein a first opening for inserting a first terminal is formed in the male rubber shell, a third opening for inserting a second terminal is formed in the female rubber shell, and the positions of the first opening and the third opening are suitable for the first terminal and the second terminal to be mutually communicated when being inserted;

the connector further comprises a lock catch, a plug-in port suitable for the lock catch to insert is formed in the male rubber shell and the female rubber shell, gaps are formed in positions, corresponding to the plug-in port, of the first terminal and the second terminal, the lock catch is suitable for extending into the gaps when being inserted into the plug-in port, and locking between the first terminal and the male rubber shell and locking between the second terminal and the female rubber shell are achieved;

the first terminal, the second terminal, the first opening, the third opening and the lock catch are two, the inserting port comprises a first inserting port and a second inserting port, and the gap comprises a first gap and a second gap; the male rubber shell comprises a first shell, a first inserting port suitable for the lock catch to insert is formed in the first shell, the female rubber shell comprises a second shell, a second inserting port suitable for the lock catch to insert is formed in the second shell, and a first gap is formed in a position, corresponding to the first inserting port, of the first terminal; a second gap is formed in the position, corresponding to the second inserting port, of the second terminal; one end of each lock catch extending into the interface is provided with two insertion parts matched with the gap in shape;

a first partition plate is arranged between the two first openings, a third partition plate is arranged between the two third openings, the first partition plate is arranged on the outer surface of the first shell, and the third partition plate is arranged on the outer surface of the second shell.

In the connector, the first shell comprises a connecting part extending into the mother rubber shell and an exposed part integrally connected with the connecting part, the first inserting port is arranged on the exposed part, the first opening is arranged at one end of the exposed part far away from the connecting part, and two second openings suitable for the two second terminals to be respectively inserted are arranged at one end of the connecting part extending into the mother rubber shell;

and a fourth opening suitable for the connecting part to extend into is arranged at one end, far away from the third opening, of the masterbatch shell.

In the connector, a second partition plate is arranged between the two second openings, the first partition plate is arranged on the outer surface of the exposed part, and the second partition plate penetrates through the connecting part.

In the above connector, the second partition plate extends to the outside of the connecting portion.

In the above connector, the lock catch has a partition wall formed between the two insertion portions, and the partition walls of the two lock catches, the first partition plate, the second partition plate, and the third partition plate together form an electrical space.

In the connector, the lock catch is fixedly provided with at least one protrusion, and the protrusion is of a wedge-shaped structure and is suitable for preventing the lock catch from being separated from the insertion port after the lock catch is inserted into the insertion port.

In the connector, a plurality of cavities are formed in the lock catch.

In the connector, the connecting part is formed with a first fool-proof structure, and the second shell is formed with a second fool-proof structure matched with the first fool-proof structure.

In the connector, the first terminal is an inner reed type female terminal of a bonding wire, and the second terminal is a round male terminal of the bonding wire.

Compared with the prior art, the invention has the beneficial effects that:

the connector further comprises a lock catch, a plug-in port suitable for being inserted into the lock catch is formed in the male rubber shell and the female rubber shell, gaps are formed in positions, corresponding to the plug-in ports, of the first terminal and the second terminal, the lock catch is suitable for extending into the gaps when the lock catch is inserted into the plug-in ports, and locking between the first terminal and the male rubber shell and locking between the second terminal and the female rubber shell are achieved. Such design inserts interface and space through the hasp, has realized between first terminal and the public gluey shell and the locking between second terminal and the female gluey shell is fixed, has increased mutual intercommunication steadiness.

The connector comprises two first terminals, two second terminals, two first openings, two third openings and two latches, wherein the male rubber shell comprises a first shell, a first inserting port suitable for the latches to insert is formed in the first shell, the female rubber shell comprises a second shell, a second inserting port suitable for the latches to insert is formed in the second shell, and first gaps are formed in positions, corresponding to the first inserting ports, of the first terminals; a second gap is arranged at the position of the second terminal corresponding to the second jack; one end of each lock catch extending into the inserting port is provided with two inserting parts matched with the shape of the gap. The gap between the two can be made as small as possible by inserting the gap with the form-fitting insertion part, so that the connection between them is more stable. In addition, set up the hasp respectively on public gluey shell and the female shell of gluing simultaneously, can realize simultaneously that the locking between first terminal and the public shell of gluing and between second terminal and the female shell of gluing is fixed, further ensured the intercommunication steadiness of connector.

The connector comprises a first shell and a second shell, wherein the first shell comprises a connecting part extending into a mother rubber shell and an exposed part integrally connected with the connecting part; one end of the mother rubber shell, which is far away from the third opening, is provided with a fourth opening suitable for the connection part to stretch into. Through setting up connecting portion, can increase the area of contact after public gluey shell and the female shell of gluing are connected, increased the intercommunication steadiness between public gluey shell and the female shell of gluing to a certain extent. Simultaneously, through the limiting displacement of second opening to the second terminal, can guide the second terminal insertion process to make second terminal and first terminal connect more conveniently when pegging graft, promoted the use convenience of connector.

And fourthly, in the connector, a first partition plate is arranged between the two first openings, a second partition plate is arranged between the two second openings, a third partition plate is arranged between the two third openings, the first partition plate is arranged on the outer surface of the exposed part, the third partition plate is arranged on the outer surface of the second shell, and the second partition plate penetrates through the connecting part. Through setting up first baffle, second baffle, third baffle, can increase the electric interval between two first terminals, between two second terminals, ensured the electric property of connector.

The second partition extends to the outside of the connecting part. And the lock catch is provided with a partition wall between the two insertion parts, and the partition walls of the two lock catches, the first partition plate, the second partition plate and the third partition plate form an electric space together. Due to the design, the whole-course electrical interval inside/outside the connector is basically realized, and the electrical performance of the connector is further guaranteed.

And sixthly, at least one bulge is fixedly arranged on the lock catch, is of a wedge-shaped structure and is suitable for preventing the lock catch from being separated from the inserting port after the lock catch is inserted into the inserting port. Such design for the hasp can be fixed stably inside first casing/second casing, thereby has ensured that the hasp can not lose because of droing and has lost the fixed effect of locking between first terminal and the public gluey shell/between second terminal and the female gluey shell, has further promoted the intercommunication steadiness of connector.

The connector of the invention is characterized in that a plurality of cavities are formed inside the lock catch. The existence of cavity structure not only can be adding man-hour and practice thrift certain material, and the hasp can also have elasticity to a certain extent for it is more convenient when the hasp inserts or extracts the interface, has promoted the whole convenience of using of connector.

In the connector of the present invention, the connecting portion is formed with a first fool-proof structure, and the second housing is formed with a second fool-proof structure adapted to the first fool-proof structure. Due to the design, the male rubber shell and the female rubber shell are not easy to have reverse insertion errors during insertion, and the possibility of damage and failure of the connector and a circuit caused by human errors is reduced.

Ninthly, in the connector, the first terminal is an inner circle spring type welding wire female terminal, and the second terminal is a round welding wire male terminal. Such design can utilize the structural feature of own of first terminal and second terminal, and to a certain extent, realize when pegging graft that the connection between first terminal and the second terminal is fixed, has further promoted the holistic intercommunication steadiness of connector.

Drawings

Fig. 1 is a schematic structural view of the connector according to the preferred embodiment of the present invention after connection.

Fig. 2 is an exploded view of the connector in the preferred embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the male rubber shell in the preferred embodiment of the present invention.

Fig. 4 is a schematic structural diagram of another view angle of the male plastic shell in the preferred embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the masterbatch shell in the preferred embodiment of the invention.

Fig. 6 is a schematic structural diagram of another viewing angle of the masterbatch housing in the preferred embodiment of the invention.

Fig. 7 is a schematic structural diagram of the first terminal and the second terminal after being connected in the preferred embodiment of the present invention.

Fig. 8 is a schematic structural view of the latch according to the preferred embodiment of the present invention.

FIG. 9 is a cross-sectional view A-A' of FIG. 1.

Description of reference numerals: 1-male glue shell, 11-exposed part, 111-first interface, 112-first opening, 12-connecting part, 121-second opening, 122-first fool-proof structure, 13-second partition board, 14-first partition board, 2-female glue shell, 21-second shell, 211-second interface, 212-third opening, 213-fourth opening, 214-second fool-proof structure, 22-third partition board, 3-first terminal, 31-first clip, 32-first gap, 33-first connecting end, 4-second terminal, 41-second clip, 42-second gap, 43-second connecting end, 5-lock catch, 51-inserting part, 52-partition wall, 53-bulge, 54-cavity.

Detailed Description

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the preferred embodiment of the present invention discloses an internal spring type wire alignment connector with high vibration resistance.

Referring to fig. 1-2, the connector includes a male housing 1, a female housing 2, a first terminal 3, a second terminal 4, and a latch 5. In this embodiment, the male rubber shell 1 comprises a first shell, and the first shell comprises a connecting part 12 extending into the female rubber shell 2 and an exposed part 11 integrally connected with the connecting part 12; the masterbatch housing 2 includes a second housing 21. In this embodiment, the number of the first terminals 3, the second terminals 4, the first openings 112, the third openings 212, and the latches 5 is two. Further, the male rubber shell 1 and the female rubber shell 2 are made of insulating plastics.

The male rubber shell 1 and the female rubber shell 2 are inserted into each other, a first opening 112 for inserting the first terminal 3 is formed in the male rubber shell 1, a third opening 212 for inserting the second terminal 4 is formed in the female rubber shell 2, and the first opening 112 and the third opening 212 are suitable for the first terminal 3 and the second terminal 4 to be communicated with each other when being inserted. In this embodiment, the first opening 112 is disposed at one end of the exposed portion 11 far away from the connecting portion 12, two second openings 121 adapted to two second terminals 4 to be respectively inserted are disposed at one end of the connecting portion 12 extending into the mother rubber case 2, and a fourth opening 213 adapted to the connecting portion 12 extending into is disposed at one end of the mother rubber case 2 far away from the third opening 212.

The male rubber shell 1 and the female rubber shell 2 are provided with inserting ports suitable for inserting the lock catches 5, gaps are formed in positions, corresponding to the inserting ports, of the first terminals 3 and the second terminals 4, the lock catches 5 are suitable for extending into the gaps when being inserted into the inserting ports, and locking between the first terminals 3 and the male rubber shell 1 and locking between the second terminals 4 and the female rubber shell 2 are achieved.

In the present embodiment, the socket includes a first socket 111 and a second socket 211, and the gap includes a first gap 32 and a second gap 42. A first insertion port 111 suitable for the insertion of the lock catch 5 is formed in the first housing, a second insertion port 211 suitable for the insertion of the lock catch 5 is formed in the second housing 21, and a first gap 32 is formed at a position of the first terminal 3 corresponding to the first insertion port 111; a second gap 42 is provided at a position of the second terminal 4 corresponding to the second socket 211. Further, the first socket 111 is disposed on the exposed portion 11.

The connecting portion 12 has a smaller cross section than the second housing 21, and the connecting portion 12 is adapted to enter the fourth opening 213 and be received by the second housing. As shown in fig. 3-6, in the present embodiment, the connecting portion 12 is formed with a first fool-proof structure 122, and the second housing 21 is formed with a second fool-proof structure 214 adapted to the first fool-proof structure 122. Further, the first fool-proof structure 122 is a first inclined plane formed on the outer surface of the connecting portion 12, the second fool-proof structure 214 is a second inclined plane formed on the inner surface of the second housing 21, and the size and the position of the second inclined plane are both adapted to the first inclined plane. Further, the number of the first inclined planes and the number of the second inclined planes are two, and the two first inclined planes are located on the same side of the center line of the section of the connecting portion 12.

In this embodiment, a first partition 14 is disposed between the two first openings 112, a second partition 13 is disposed between the two second openings 121, a third partition 22 is disposed between the two third openings 212, the first partition 14 is disposed on the outer surface of the exposed portion 11, the third partition 22 is disposed on the outer surface of the second housing 21, and the second partition 13 penetrates through the connecting portion 12. Further, the second partition 13 extends to the outside of the connection portion 12.

As shown in fig. 7, the first terminal 3 is an internal circlip type female terminal of a bonding wire, and the second terminal 4 is a round male terminal of a bonding wire.

The first terminal 3 comprises a first protruding end, a first detent 31, the first gap 32 and a first connection end 33, the first protruding end protrudes out of the first opening 112 in the connector connection state; the first detent 31 is shaped to fit into the first opening 112 and is located at the position of the first opening 112 when the connector is in the communication state, and the first gap 32 is located between the first detent 31 and the first connection end 33; when the connector is in a connected state, one end of the first connection end 33 away from the first gap 32 abuts against the inner edge of the second opening 121.

The second terminal 4 includes a second protruding end, a second detent 41, the second gap 42 and a second connecting end 43, the second protruding end protrudes out of the third opening 212 when the connector is in the connector connection state; the second detent 41 is shaped to fit into the third opening 212 and is located at the position of the third opening 212 when the connector is in the connected state, and the second gap 42 is located between the second detent 41 and the second connecting end 43; in the connector connection state, the second connection end 43 passes through the second opening 121 and extends into the first connection end 33, so as to electrically connect the first terminal 3 and the second terminal 4, and at this time, since the first terminal 3 is an internal spring type female wire terminal, the first connection end 33 applies a clamping force to the second connection end 43.

As shown in fig. 8, two insertion portions 51 adapted to the shape of the gap are formed at one end of each lock catch 5 extending into the socket, a partition wall 52 is formed between the two insertion portions 51 of the lock catch 5, and the partition wall 52, the first partition 14, the second partition 13, and the third partition 22 of the two lock catches 5 form an electrical partition together. In this embodiment, a plurality of cavities 54 are formed inside the lock catch 5, and at least one protrusion 53 is fixedly disposed on the lock catch 5, where the protrusion 53 is a wedge-shaped structure and is adapted to prevent the lock catch 5 from being disengaged from the socket after the lock catch 5 is inserted into the socket. Further, the number of the protrusions 53 is two, and the two protrusions 53 are symmetrically arranged with respect to the partition wall 52. Further, the two latches 5 are oppositely disposed, that is, the protrusion 53 of the latch 5 disposed on the male rubber casing 1 faces the first opening 112, and the protrusion 53 of the latch 5 disposed on the female rubber casing 2 faces the third opening 212.

As shown in fig. 9, when the connector needs to be assembled, the first terminals 3 are first inserted into the male housing 1 to a designated position, and the second terminals 4 are simultaneously inserted into the female housing 2 to a designated position.

Secondly, the two latches 5 are inserted along the first insertion port 111 and the second insertion port 211 respectively until the protrusion 53 completely enters the first casing or the second casing 21 and is clamped on the inner surface of the outer shell of the exposed part 11 or the second casing 21, so as to lock the first terminal 3 and the male plastic shell 1 and the second terminal 4 and the female plastic shell 2.

Finally, the connecting part 12 of the male rubber shell 1 is inserted into the fourth opening 213 of the female rubber shell 2 to a designated position, so that the electrical communication of the connector is realized.

In other embodiments, the latch 5 can be inserted after the male and

female housings

1 and 2 are connected, and such sequence adjustment does not affect the overall communication stability of the connector.

When the connector needs to be disassembled, the lock catch 5 needs to be pulled out in advance, and at this time, the first terminal 3 and the male plastic shell 1, the second terminal 4 and the female plastic shell 2, and the male plastic shell 1 and the female plastic shell 2 can be freely disassembled.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. An inner circle spring type clamp wire high-vibration-resistance energy storage wire connector comprises a male rubber shell (1) and a female rubber shell (2) which are mutually inserted, wherein a first opening (112) for inserting a first terminal (3) is formed in the male rubber shell (1), a third opening (212) for inserting a second terminal (4) is formed in the female rubber shell (2), and the positions of the first opening (112) and the third opening (212) are suitable for the first terminal (3) and the second terminal (4) to be mutually communicated when being inserted;

the connector is characterized by further comprising a lock catch (5), a plug-in port suitable for the lock catch (5) to be inserted is formed in the male rubber shell (1) and the female rubber shell (2), a gap is formed in the positions, corresponding to the plug-in port, of the first terminal (3) and the second terminal (4), the lock catch (5) is suitable for extending into the gap when being inserted into the plug-in port, and locking between the first terminal (3) and the male rubber shell (1) and locking between the second terminal (4) and the female rubber shell (2) are achieved;

the number of the first terminals (3), the number of the second terminals (4), the number of the first openings (112), the number of the third openings (212) and the number of the latches (5) are two, the insertion ports comprise first insertion ports (111) and second insertion ports (211), and the gaps comprise first gaps (32) and second gaps (42); the male rubber shell (1) comprises a first shell, a first inserting port (111) suitable for inserting the lock catch (5) is formed in the first shell, the female rubber shell comprises a second shell (21), a second inserting port (211) suitable for inserting the lock catch (5) is formed in the second shell (21), and a first gap (32) is formed in a position, corresponding to the first inserting port (111), of the first terminal (3); a second gap (42) is arranged at the position of the second terminal (4) corresponding to the second inserting port (211); one end of each lock catch (5) extending into the inserting port is provided with two inserting parts (51) matched with the gaps in shape;

a first partition plate (14) is arranged between the two first openings (112), a third partition plate (22) is arranged between the two third openings (212), the first partition plate (14) is arranged on the outer surface of the first shell, and the third partition plate (22) is arranged on the outer surface of the second shell (21).

2. The connector according to claim 1, wherein the first housing comprises a connecting portion (12) extending into the mother rubber housing (2) and an exposed portion (11) integrally connected with the connecting portion (12), the first socket (111) is disposed on the exposed portion (11), the first opening (112) is disposed at an end of the exposed portion (11) away from the connecting portion (12), and two second openings (121) adapted to be inserted by the two second terminals (4) are disposed at an end of the connecting portion (12) extending into the mother rubber housing (2);

one end, far away from the third opening (212), of the mother rubber shell (2) is provided with a fourth opening (213) suitable for the connection part (12) to stretch into.

3. A connector according to claim 2, wherein a second partition (13) is provided between the two second openings (121), the first partition (14) being provided on the outer surface of the exposed portion (11), the second partition (13) penetrating the connecting portion (12).

4. A connector according to claim 3, wherein the second bulkhead (13) extends outside the connection portion (12).

5. Connector according to claim 4, characterized in that the latch (5) is formed with a partition (52) between the two insertion portions (51), the partition (52), the first partition (14), the second partition (13) and the third partition (22) of the two latches (5) together forming an electrical separation.

6. A connector according to claim 5, wherein the latch (5) is fixedly provided with at least one protrusion (53), and the protrusion (53) is wedge-shaped and adapted to prevent the latch (5) from being disengaged from the socket after the latch (5) is inserted into the socket.

7. Connector according to claim 6, characterized in that the latch (5) is internally formed with cavities (54).

8. Connector according to claim 7, characterized in that the connecting portion (12) is shaped with a first fool-proofing structure (122) and the second housing (21) is shaped with a second fool-proofing structure (214) adapted to the first fool-proofing structure (122).

9. Connector according to any of claims 1 to 8, characterized in that said first terminal (3) is an internal circlip wire female terminal and said second terminal (4) is a round wire male terminal.