CN211480398U - Connector with a locking member - Google Patents

Abstract

The utility model discloses a connector, which comprises a socket and a plug. The socket comprises a first insulating main body and a plurality of conductive terminals arranged in the first insulating main body, the first insulating main body is divided into a first installation part and a second installation part by an annular partition plate, a first sealing ring is arranged on the first installation part, and the socket is arranged in a terminal box body through the first installation part, so that the first sealing ring is positioned between the annular partition plate and the terminal box body. The plug comprises a second insulating main body, a plurality of second conductive terminals and a terminal insulating seat, wherein the second conductive terminals are arranged in the terminal insulating seat and are fixed in the second insulating main body by utilizing the terminal insulating seat, and a second sealing ring is arranged between the terminal insulating seat and the second insulating main body; the outer side of the second insulating main body is provided with an annular stop part, a third sealing ring is arranged outside the second insulating main body, and the plug is inserted into the second mounting part of the socket by using the terminal insulating seat, so that the third sealing ring is positioned between the terminal box body and the annular stop part.

Description

Connector with a locking member

Technical Field

The utility model relates to a connector, in particular to independent waterproof connector

Background

Current new energy automobile sees through high voltage connector and charges, however current high voltage connector's plug or socket can not independently be waterproof under the state of not inserting to close, and during external liquid sees through the plug of connector or the inside clearance of socket inflow terminal box easily, cause terminal electrical function to become invalid, takes place the incident even, and is very dangerous.

In addition, when the plug and the socket of the existing high-voltage connector are in a plugged state, only one waterproof sealing ring is designed from the outside to the inside of the terminal box body, and if the sealing ring is damaged or is not assembled correctly, the hidden trouble of water-proof failure still exists.

Disclosure of Invention

The utility model provides a connector, which comprises a socket and a plug. The socket comprises a first insulation main body and a plurality of first conductive terminals, the first conductive terminals are arranged in the first insulation main body, an annular partition plate is arranged in the middle section of the first insulation main body, the first insulation main body is divided into a first installation part and a second installation part by the annular partition plate, a first sealing ring is arranged on the first installation part, the socket is installed in a terminal box body through the first installation part, and the first sealing ring is located between the annular partition plate and the terminal box body. The plug comprises a second insulating main body, a plurality of second conductive terminals and a terminal insulating seat, wherein the second conductive terminals are arranged in the terminal insulating seat and are fixed in the second insulating main body by utilizing the terminal insulating seat, and a second sealing ring is arranged between the terminal insulating seat and the second insulating main body; the outer side of the second insulating main body is provided with an annular stop part, a third sealing ring is arranged outside the second insulating main body, the plug is inserted into the second mounting part of the socket by utilizing the terminal insulating seat, so that the third sealing ring is positioned between the terminal box body and the annular stop part, and one end of each of the first conductive terminals is correspondingly inserted into the second conductive terminals respectively.

In one embodiment, the annular partition plate has a first groove disposed on a surface of the annular partition plate near the first mounting portion, the first groove being used for mounting the first seal ring.

In one embodiment, the first insulating main body further has a plurality of terminal slots therein for respectively receiving the first conductive terminals.

In one embodiment, each of the first conductive terminals has a fourth sealing ring disposed between the first conductive terminal and the terminal groove and abutting against the terminal groove.

In one embodiment, each of the first conductive terminals further has a first annular groove formed at an outer side thereof, and the first annular groove is used for mounting the fourth sealing ring.

In one embodiment, each of the terminal slots has a plurality of engaging portions therein for securing the first conductive terminal in the terminal slot.

In one embodiment, each of the first terminals further has a retaining ring disposed outside the first terminal to fix the first terminal in the terminal slot.

In one embodiment, the terminal insulating base has a plurality of mounting grooves corresponding to the terminal grooves and a mounting wall located at the periphery of the mounting grooves, the mounting grooves mount the second conductive terminals respectively, and the contour of the mounting wall matches with the contour of the second mounting portion so as to be mounted on the outer side of the second mounting portion by using the mounting wall.

In one embodiment, the mounting wall has a plurality of positioning grooves, and the outer side of the second mounting portion of the first insulating main body has a plurality of positioning ribs, and when the plug and the socket are connected, the positioning ribs are respectively located in the positioning grooves.

In one embodiment, the plug further includes a rear cover disposed in the terminal insulating base and fixing the second conductive terminals to the terminal insulating base, the rear cover having a plurality of auxiliary slots respectively corresponding to and communicating with the mounting slot, the auxiliary slots allowing the second conductive terminals to pass through.

In one embodiment, the rear cover has at least two oblique protrusions, and the terminal insulating base has at least two openings, and the rear cover is fixed in the terminal insulating base by being respectively clamped in the at least two openings by the at least two oblique protrusions.

In one embodiment, a fifth sealing ring is disposed around each of the second conductive terminals, and the fifth sealing ring is disposed between the second conductive terminal and the mounting groove and tightly abuts against the mounting groove.

In one embodiment, each of the second conductive terminals further has a second annular groove formed at an outer side thereof, and the second annular groove is used for mounting the fifth sealing ring.

In one embodiment, a flange is further annularly arranged on the inner side wall of the second insulating main body, so that the second sealing ring is located between the terminal insulating seat and the flange.

In one embodiment, each of the second conductive terminals further has a positioning spring therein, and one end of the first conductive terminal is fixed in the second conductive terminal by the positioning spring.

In one embodiment, the plug further comprises a plurality of locking members for fixing the terminal insulating base in the second insulating body.

In one embodiment, the plug further includes a cable having one end located in the second insulating body of the plug and connected to the second conductive terminals.

In one embodiment, the plug further includes a tail cap disposed around the cable and mounted to the second insulating body, and a sixth sealing ring fixed to the second insulating body by the tail cap such that the sixth sealing ring is located between the cable and the second insulating body.

In one embodiment, the tail of the second insulating body further has a plurality of protrusions, and the tail cap has a plurality of locking portions, which are respectively fastened to the protrusions.

In one embodiment, the first conductive terminals further include a plurality of first power terminals and a plurality of first signal terminals, and the second conductive terminals further include a plurality of second power terminals and a plurality of second signal terminals, such that one ends of the first power terminals are respectively inserted into the second power terminals, and one ends of the first signal terminals are respectively inserted into the second signal terminals.

In one embodiment, the annular stop portion has a second groove disposed on a surface of the annular stop portion near the second insulating body, the second groove being used for mounting the third seal ring.

In an embodiment, the outer side of the third seal ring is provided with a plurality of positioning portions, the annular blocking portion is provided with a plurality of positioning holes, and the positioning portions are respectively clamped in the positioning holes when the third seal ring is installed on the annular blocking portion.

In one embodiment, the terminal box has a receiving cavity for receiving the socket, when the plug is plugged into the socket, a portion of the second insulating body is located in the receiving cavity, and the annular stop portion of the plug abuts against the terminal box.

In summary, in order to overcome the defects of the prior art, the utility model provides a connector capable of being waterproof independently, when the plug and the socket of the connector are in the non-plugging state, the plug or the socket of the external liquid passing through the connector can be effectively prevented from flowing into the terminal box body. When the plug and the socket of the connector are in a plugging state, external liquid can have two sealing lines to the terminal box body, and the waterproof reliability of the terminal box body can be improved.

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Drawings

Fig. 1 is a perspective view of a connector according to an embodiment of the present invention.

Fig. 2 is an exploded view of a connector according to an embodiment of the present invention.

Fig. 3 is an exploded perspective view of a connector according to an embodiment of the present invention.

Fig. 4 is a sectional view of a connector according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of a first conductive terminal according to an embodiment of the present invention

Fig. 6 is a sectional view of a socket according to an embodiment of the present invention.

Fig. 7 is a structural sectional view of another perspective of a socket according to an embodiment of the present invention.

Fig. 8 is a schematic perspective view of a second conductive terminal according to an embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a plug according to an embodiment of the present invention.

Wherein the reference numerals

10: connector with a locking member

12: socket with improved structure

14: plug with a locking mechanism

16: cable with a protective layer

18: a first insulating body

20: first conductive terminal

22: annular partition plate

221: the first groove

24: first mounting part

26: second mounting part

261: positioning rib

28: first seal ring

30: second insulating body

301: flange

32: second conductive terminal

34: terminal insulating base

36: back cover

38: tail cover

381: fastening part

40: second seal ring

42: annular stop part

421: second groove

422: locating hole

44: third seal ring

441: positioning part

46: sixth sealing ring

48: tail part

50: convex part

52: terminal groove

54: first power supply terminal

541: a first annular groove

56: first signal terminal

561: a first annular groove

58: fastening part

60: fourth seal ring

62: clip ring

64: fourth seal ring

66: mounting groove

68: mounting wall

681: locating slot

70: auxiliary groove

72: oblique lug

74: opening part

76: second power supply terminal

761: second annular groove

78: second signal terminal

781: second annular groove

80: fifth sealing ring

82: positioning spring

84: fifth sealing ring

86: positioning spring

88: locking assembly

90: locking hole

92: terminal box

94: containing groove

96: opening holes

Detailed Description

The following detailed description of the embodiments of the present invention with reference to the drawings and specific examples is provided for further understanding the objects, aspects and effects of the present invention, but not for limiting the scope of the appended claims.

Fig. 1 is a schematic perspective view of a connector according to an embodiment of the present invention, fig. 2 is a schematic structural exploded view of a connector according to an embodiment of the present invention, fig. 3 is an exploded perspective view of a connector according to an embodiment of the present invention, and fig. 4 is a cross-sectional structural view of a connector according to an embodiment of the present invention, please refer to fig. 1, fig. 2, fig. 3, and fig. 4, and a connector 10 includes a socket 12, a plug 14, and a cable 16. A socket 12 includes a first insulating body 18 and a plurality of first conductive terminals 20, the first conductive terminals 20 are disposed in the first insulating body 18, an annular partition 22 is disposed at a middle section of the first insulating body 18 to divide the first insulating body 18 into a first mounting portion 24 and a second mounting portion 26 by the annular partition 22, a first sealing ring 28 is disposed on the first mounting portion 24, the annular partition 22 has a first groove 221, the first groove 221 is disposed on a surface of the annular partition 22 close to the first mounting portion 24, and the first groove 221 is used for mounting the first sealing ring 28. The socket 12 is mounted on a terminal box 92 through the first mounting portion 24, the terminal box 92 has a receiving groove 94, the receiving groove 94 has an opening 96, the receiving groove 94 receives the socket 12, and the first mounting portion 24 of the socket 12 protrudes from the opening 96 to the outside of the receiving groove 94, so that the first conductive terminal 20 can be electrically connected to an electrical device (not shown) in the terminal box 92, at this time, the first sealing ring 28 is located between the annular partition plate 22 and the terminal box 92, and the first sealing ring 28 tightly abuts against the inner wall of the receiving groove 94. In one embodiment, the terminal box 92 may be used as a point-based charging station or as part of a portable power source.

The plug 14 includes a second insulating body 30, a plurality of second conductive terminals 32, a terminal insulating base 34, a rear cover 36 and a tail cover 38, wherein the second conductive terminals 32 are disposed in the terminal insulating base 34 and fixed in the second insulating body 30 by the terminal insulating base 34, and a second sealing ring 40 is disposed between the terminal insulating base 34 and the second insulating body 30, i.e., a flange 301 is further annularly disposed on the inner sidewall of the second insulating body 30, so that the second sealing ring 40 is located between the terminal insulating base 34 and the flange 301. The rear cover 36 is disposed in the terminal insulating base 34 and fixes the second conductive terminals 32 to the terminal insulating base 34. One end of the cable 16 is positioned within the second insulative body 30 of the plug 14 and is connected to the second conductive terminals 32. An annular stop portion 42 is disposed outside the second insulating main body 30, and a third sealing ring 44 is disposed outside the second insulating main body 30, the annular stop portion 42 has a second groove 421, the second groove 421 is disposed on a surface of the annular stop portion 42 close to the second insulating main body 30, and the second groove 421 is used for installing the third sealing ring 44. The plug 14 is inserted into the second mounting portion 26 of the socket 12 by the terminal insulating base 34, such that the third sealing ring 44 is located between the terminal box 92 and the annular stop portion 42, and one end of each of the first conductive terminals 20 is inserted into the corresponding second conductive terminals 32. The outer side edge of the third seal ring 44 is provided with a plurality of positioning portions 441, and the annular stopping portion 42 is provided with a plurality of positioning holes 422, when the third seal ring 44 is installed on the annular stopping portion 42, the positioning portions 441 are respectively clamped in the positioning holes 422, so as to fix the third seal ring 44 on the annular stopping portion 42. The tail portion 48 of the second insulating main body 30 further has a plurality of protrusions 50, and the tail cap 38 has a plurality of locking portions 381, the locking portions 381 are respectively locked with the protrusions 50, so that the tail cap 38 is disposed on the periphery of the cable 16 and is fixed on the tail portion 48 of the second insulating main body 30, and a sixth sealing ring 46 is disposed between the tail cap 38 and the second insulating main body 30, so that the sixth sealing ring 46 is fixed on the second insulating main body 30 by the tail cap 38, and the sixth sealing ring 46 is located between the cable 16 and the second insulating main body 30. When the plug 14 is plugged into the receptacle 12, a portion of the second insulating body 30 is located in the receiving groove 94 of the terminal box 92, and at this time, the annular stop portion 42 of the plug 14 abuts against the terminal box 92.

In an embodiment, the first insulating main body 18 further has a plurality of terminal slots 52 for respectively accommodating the first conductive terminals 20, and as shown in fig. 5 to 7, the first conductive terminals 20 further include a plurality of first power terminals 54 and a plurality of first signal terminals 56, and each terminal slot 52 accommodating the first power terminal 54 has a plurality of engaging portions 58 for fixing the first power terminal 54 of the first conductive terminal 20 in the terminal slot 52; a fourth sealing ring 60 is disposed on the periphery of each first power terminal 54, and a first annular groove 541 is disposed on the outer side of each first power terminal 54, the first annular groove 541 is used for installing the fourth sealing ring 60, so that the fourth sealing ring 60 is disposed between the first power terminal 54 and the terminal groove 52 and tightly abuts against the inner wall of the terminal groove 52. Each first signal terminal 56 further has a locking ring 62, the locking ring 62 is disposed outside the first signal terminal 56 to fix the first signal terminal 56 in the terminal slot 52; the periphery of each first signal terminal 56 is provided with a fourth sealing ring 64, and the outer side of each first signal terminal 56 is further provided with a first annular groove 561, the first annular groove 561 is used for installing the fourth sealing ring 64, so that the fourth sealing ring 64 is disposed between the first signal terminal 56 and the terminal groove 52 and tightly abuts against the inner wall of the terminal groove 52.

In one embodiment, referring to fig. 1 to 4, the terminal insulating base 34 has a plurality of mounting slots 66 corresponding to the terminal slots 52 and a mounting wall 68 located at the periphery of the mounting slots 66, the mounting slots 66 are respectively mounted with the second conductive terminals 32, and the contour of the mounting wall 68 matches with the second mounting portion 26 of the first insulating main body 18 so as to be mounted on the outer side of the second mounting portion 26 by the mounting wall 68, and the mounting wall 68 has a plurality of positioning slots 681, and the outer side of the second mounting portion 26 of the first insulating main body 18 has a plurality of positioning ribs 261, when the plug 14 is connected to the socket 12, the positioning ribs 261 are respectively located in the respective positioning slots 681, so that the plug 14 can be inserted into the socket 12 only in a unique direction. In addition, the rear cover 36 has a plurality of auxiliary slots 70 respectively corresponding to the communication mounting slots 66, the auxiliary slots 70 are used for the second conductive terminals 32 to pass through, the rear cover 36 has at least two inclined protrusions 72, the terminal insulating base 34 has at least two corresponding openings 74, and the rear cover 36 is fixed in the terminal insulating base 34 by respectively clamping and fixing the inclined protrusions 72 in the corresponding openings 74, so that the rear cover 36 can stably fix the second conductive terminals 32 in the terminal insulating base 34.

In an embodiment, referring to fig. 1 to 4 and fig. 8, the second conductive terminal 32 further includes a plurality of second power terminals 76 and a plurality of second signal terminals 78. For the second power terminals 76, a fifth sealing ring 80 is disposed around each second power terminal 76, a second annular groove 761 is disposed outside each second power terminal 76, the second annular groove 761 is used for mounting the fifth sealing ring 80, so that the fifth sealing ring 80 is disposed between the second power terminal 76 and the mounting groove 66 and tightly abuts against the inner wall of the mounting groove 66, and a positioning spring 82 is disposed inside each second power terminal 76, so that one end of the first power terminal 54 is correspondingly inserted into the second power terminal 76 and is fixed in the second power terminal 76 by the positioning spring 82. For the second signal terminals 78, a fifth sealing ring 84 is disposed around each second signal terminal 78, a second annular groove 781 is disposed outside each second signal terminal 78, the second annular groove 781 is used for installing the fifth sealing ring 84, so that the fifth sealing ring 84 is disposed between the second signal terminal 78 and the mounting groove 66 and tightly abuts against the inner wall of the mounting groove 66, and a positioning spring 86 is disposed inside each second signal terminal 78, so that one end of the first signal terminal 56 is correspondingly inserted into the second signal terminal 78 and is fixed in the second signal terminal 78 by the positioning spring 86. Since the second conductive terminal 32 includes the second power terminal 76 and the second signal terminal 78, the positioning springs 82 and 86 inside can be used to stably fix the first conductive terminal 20 inside the second conductive terminal 32 and form an electrical connection. In one embodiment, the positioning springs 82, 86 are crown springs, differing only in size.

In an embodiment, referring to fig. 1 to 4 and 9, the plug 14 further includes a plurality of locking components 88, and a plurality of locking holes 90 are formed at the periphery of the terminal insulating base 34, so that the terminal insulating base 34 is fixed in the second insulating body 30 by the locking components 88 penetrating the locking holes 90, and at this time, the second sealing ring 40, the second conductive terminal 32 and the rear cover 36 are stably fixed in the second insulating body 30.

Referring to fig. 1 to 9, a first sealing ring 28 is disposed between the first insulating main body 18 and the terminal box 92, and fourth sealing rings 60 and 64 are disposed between the first insulating main body 18 and the first conductive terminal 20, so that when the socket 12 is assembled on the terminal box 92, all gaps between the outside and the terminal box 92 are sealed by the sealing rings for waterproof protection, so as to achieve the independent waterproof function of the socket 12. A third sealing ring 44 is arranged between the second insulating main body 30 and the terminal box body 92, a second sealing ring 40 is arranged between the terminal insulating base 34 and the second insulating main body 30, fifth sealing rings 80 and 84 are arranged between the terminal insulating base 34 and the second conductive terminal 32, a sixth sealing ring 46 is arranged between the cable 16 and the second insulating main body 30, and when the plug 14 is not matched and connected with the socket 12 in the terminal box body 92, all gaps of the plug 14 are provided with the sealing rings for waterproof protection, so that the independent waterproof function of the plug 14 is realized. In summary, when the plug 14 is plugged into the assembled socket 12 of the terminal box 92, since the external environment has two waterproof lines to the terminal box 92, namely the first sealing ring 28 and the third sealing ring 44, the hidden danger of the waterproof failure of the terminal box 92 can be greatly reduced.

To sum up, the utility model provides a can independent waterproof connector, when the plug and the socket of connector are in not inserting the state of closing, can effectively prevent external liquid to flow in terminal box through the plug or the socket of connector. When the plug and the socket of the connector are in a plugging state, external liquid can have two sealing lines to the terminal box body, and the waterproof reliability of the terminal box body can be improved.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (23)

1. A connector, comprising:

the socket comprises a first insulating main body and a plurality of first conductive terminals, wherein the first conductive terminals are arranged in the first insulating main body, an annular partition plate is arranged at the middle section of the first insulating main body and divides the first insulating main body into a first mounting part and a second mounting part, a first sealing ring is arranged at the first mounting part, and the socket is mounted in a terminal box body through the first mounting part so that the first sealing ring is positioned between the annular partition plate and the terminal box body; and

the plug comprises a second insulating main body, a plurality of second conductive terminals and a terminal insulating seat, wherein the second conductive terminals are arranged in the terminal insulating seat and are fixed in the second insulating main body by utilizing the terminal insulating seat, and a second sealing ring is arranged between the terminal insulating seat and the second insulating main body; the outer side of the second insulating main body is provided with an annular stop part, a third sealing ring is arranged outside the second insulating main body, the plug is inserted into the second mounting part of the socket by utilizing the terminal insulating seat, so that the third sealing ring is positioned between the terminal box body and the annular stop part, and one end of each of the first conductive terminals is correspondingly inserted into the second conductive terminals respectively.

2. The connector of claim 1, wherein the annular spacer has a first groove disposed on a surface of the annular spacer adjacent the first mounting portion, the first groove configured to receive the first seal.

3. The connector of claim 1, wherein the first insulative body further includes a plurality of terminal slots for receiving the first conductive terminals, respectively.

4. The connector of claim 3, wherein each of the first terminals has a fourth sealing ring disposed around the periphery thereof, the fourth sealing ring being disposed between the first terminal and the terminal groove and abutting against the terminal groove.

5. The connector of claim 4, wherein each of the first conductive terminals further has a first annular groove formed therein, the first annular groove being adapted to receive the fourth sealing ring.

6. The connector of claim 3, wherein each of the terminal slots has a plurality of engaging portions therein for securing the first conductive terminals in the terminal slots.

7. The connector of claim 3, wherein each of the first contacts further has a retaining ring disposed outside the first contact to secure the first contact in the contact slot.

8. The connector of claim 3, wherein the terminal insulator has a plurality of mounting slots corresponding to the terminal slots and a mounting wall located at the periphery of the mounting slots, the mounting slots respectively mount the second conductive terminals, and the contour of the mounting wall matches the contour of the second mounting portion so as to be mounted on the outer side of the second mounting portion by the mounting wall.

9. The connector of claim 8, wherein the mounting wall has a plurality of positioning slots, and the outer side of the second mounting portion of the first insulative body has a plurality of positioning ribs, the positioning ribs being respectively located in the positioning slots when the plug and the socket are connected.

10. The connector of claim 8, wherein the plug further comprises a rear cover disposed in the terminal insulating base and fixing the second conductive terminals to the terminal insulating base, the rear cover having a plurality of auxiliary slots respectively corresponding to and communicating with the mounting slot, the auxiliary slots allowing the second conductive terminals to pass therethrough.

11. The connector of claim 10, wherein the rear cover has at least two oblique protrusions, and the terminal insulating base has at least two openings, and the rear cover is fixed in the terminal insulating base by the at least two oblique protrusions being respectively fastened in the at least two openings.

12. The connector of claim 8, wherein a fifth sealing ring is disposed around each of the second terminals, the fifth sealing ring being disposed between the second terminals and the mounting groove and abutting against the mounting groove.

13. The connector of claim 12, wherein each of the second conductive terminals further includes a second annular groove formed therein, the second annular groove being configured to receive the fifth sealing ring.

14. The connector of claim 1, wherein the second insulating body further includes a flange around an inner sidewall thereof, such that the second gasket is disposed between the terminal insulating housing and the flange.

15. The connector of claim 1, wherein each second conductive terminal further comprises a positioning spring therein, and one end of the first conductive terminal is fixed in the second conductive terminal by the positioning spring.

16. The connector of claim 1, wherein the plug further comprises a plurality of locking members for securing the terminal housing within the second housing body.

17. The connector of claim 1, further comprising a cable having one end disposed within the second insulative body of the plug and connected to the second conductive terminals.

18. The connector of claim 17, wherein the plug further comprises a tail cap and a sixth sealing ring, the tail cap being disposed around the cable and mounted to the second insulating body, the tail cap securing the sixth sealing ring to the second insulating body such that the sixth sealing ring is disposed between the cable and the second insulating body.

19. The connector of claim 18, wherein the tail portion of the second insulative body further comprises a plurality of protrusions, and the tail cap comprises a plurality of engaging portions, the engaging portions engaging with the protrusions respectively.

20. The connector of claim 1, wherein the first conductive terminals further comprise a plurality of first power terminals and a plurality of first signal terminals, the second conductive terminals further comprise a plurality of second power terminals and a plurality of second signal terminals, such that one end of each of the first power terminals is correspondingly inserted into the corresponding second power terminal, and one end of each of the first signal terminals is correspondingly inserted into the corresponding second signal terminal.

21. The connector of claim 1, wherein the annular stop portion has a second groove disposed on a surface of the annular stop portion adjacent to the second insulating body, the second groove configured to receive the third sealing ring.

22. The connector of claim 1, wherein the outer side of the third sealing ring has a plurality of positioning portions, and the annular stop portion has a plurality of positioning holes, and the positioning portions are respectively engaged with the positioning holes when the third sealing ring is mounted on the annular stop portion.

23. The connector of claim 1, wherein the terminal housing has a receiving cavity for receiving the socket, when the plug is inserted into the socket, a portion of the second insulating body is located in the receiving cavity, and the annular stop of the plug abuts against the terminal housing.

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