CN219576134U - Vertical split type module RJ45 connector - Google Patents

Abstract

The utility model discloses a vertical split type module RJ45 connector, which comprises a shielding shell, an insulating body, a connector core, a network transformer and a PCB (printed circuit board), wherein the insulating body, the connector core, the network transformer and the PCB are arranged in the shielding shell; a convex part is arranged on one outer side wall of the shielding shell, a abdication cavity is formed in the convex part, and the PCB is positioned on one side of the abdication cavity; therefore, the capacitor can provide more space through the yielding cavity, the purpose of widening the space is achieved, the capacitor can be located in the yielding cavity, the phenomenon that the whole volume needs to be larger due to the fact that the capacitor needs to occupy the space inside the shielding shell is avoided, and the space is fully utilized.

Description

Vertical split type module RJ45 connector

Technical Field

The utility model relates to the technical field of RJ connectors, in particular to a vertical split type module RJ45 connector.

Background

The existing RJ connector comprises a shell, an RJ connector core body, an RJ terminal, a PIN terminal, a PCB and a network filter, wherein the RJ terminal, the PIN terminal and the RJ connector core body are integrally formed in a mosaic forming mode, the RJ terminal, the PIN terminal and the network filter are generally combined together through the PCB, and due to the fact that electronic elements such as capacitors are generally arranged on the PCB, the capacitors occupy the space inside, and on the basis that the overall structure layout is unchanged, the space can only be provided for the capacitors in a mode of enlarging the overall volume, so that the whole needs a larger volume.

Therefore, a new technology is required to be developed to solve the above-mentioned problems.

Disclosure of Invention

In view of the above, the main objective of the present utility model is to provide a vertical split-type RJ45 connector, which can provide more space through the cavity of abdication, so as to widen the space, and enable the capacitor to be located in the cavity of abdication, so that the phenomenon that the whole volume needs to be larger due to the fact that the capacitor needs to occupy the space inside the shielding shell is avoided, the space is fully utilized, and the overall structure layout is more ingenious and reasonable.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a split type module RJ45 connector of vertical type, includes shield shell and installs insulator, connector core, network transformer and the PCB board in the shield shell, the connector core is installed on insulator, the network transformer inserts and installs on the PCB board, the connector core is connected to the PCB board, the shield shell cladding is outside the insulator;

the connector core body comprises an RJ terminal, a PIN terminal and a terminal seat, wherein the RJ terminal and the PIN terminal are respectively arranged at the upper end and the lower end of the terminal seat, a welding part of the RJ terminal is exposed out of the terminal seat and is inserted and arranged on a PCB board, a welding part of the PIN terminal is exposed out of the terminal seat and is inserted and arranged on the PCB board, the terminal seat is provided with a positioning cavity, the network transformer is positioned in the positioning cavity, and the network transformer is a standard network transformer;

the PCB board is located one side of the cavity of stepping down, the convex part is outwards arranged on one outer side wall of the shielding shell in a protruding mode, the cavity of stepping down is formed in the convex part, the cavity of stepping down is concavely arranged from the inner side wall of the shielding shell to the convex part, and the PCB board is located on one side of the cavity of stepping down.

As a preferable scheme, the positioning cavity penetrates through the left side and the right side of the terminal seat, the PCB is positioned on the left side of the terminal seat, and the left end of the network transformer is connected to the PCB through inserting pins.

As a preferable scheme, the upper end and the lower end of the terminal seat are respectively provided with an upper embedded groove and a lower embedded groove, the RJ terminal and the PIN terminal are respectively embedded into the upper embedded groove and the lower embedded groove, the welding part of the RJ terminal is exposed out of the upper embedded groove, and the welding part of the PIN terminal is exposed out of the lower embedded groove.

As a preferred scheme, the shielding shell is provided with a hollow cavity with openings at the upper end and the lower end, the insulating body is positioned in the hollow cavity, the insulating body is provided with a plug cavity for plugging the plug connector, the plug cavity is communicated with the upper end opening of the hollow cavity, one side of the insulating body, which faces the yielding cavity, is provided with an installation cavity, the installation cavity is communicated with the plug cavity, and the connector core, the network transformer and the PCB form an embedded module which is arranged in the installation cavity.

As a preferable scheme, the contact part of the RJ terminal is exposed in the plugging cavity, and one end of the contact part of the RJ terminal, which is far away from the welding part, is positioned on the insulating body.

As a preferable scheme, a limit bump is convexly arranged on one side of the network transformer, which faces the PCB, and one side of the limit bump, which faces the PCB, is limited by one side of the PCB, which faces the network transformer.

As a preferable scheme, the upper end of the insulating body is inwards concavely provided with an installation groove for installing the indicator lamp, and the indicator lamp is installed in the installation groove.

As a preferred scheme, the pilot lamp includes the lamp body and installs in two connecting terminal of lamp body downside, two connecting terminal symmetrical interval arrangement are in the downside of lamp body, the downside intercommunication of mounting groove has two symmetrical interval arrangement constant head tanks, the constant head tank runs through to the downside of insulator, the lamp body is located in the mounting groove, connecting terminal is kept away from the one end of lamp body and is passed corresponding constant head tank and stretch out outside the insulator.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, the technical scheme shows that the convex part is formed on the shielding shell so that the shielding shell is provided with the abdication cavity, more space can be provided by the abdication cavity, the purpose of widening the space is achieved, the capacitor can be positioned in the abdication cavity, the phenomenon that the whole volume needs to be larger because the capacitor needs to occupy the space in the shielding shell is avoided, the space is fully utilized, the whole structure layout is more ingenious and reasonable, the convex part can serve as a reinforcing rib, the connection and positioning firmness of the whole structure and the external structure can be enhanced, and the network transformer is positioned in the positioning cavity by arranging the positioning cavity on the terminal seat, so that the network transformer is assembled in the terminal seat, and the space occupation is reduced; in addition, the network transformer is set as a standard component, so that the network transformer does not need to be designed, and the material preparation period of product manufacture can be shortened.

In order to more clearly illustrate the structural features, technical means, and specific objects and functions attained by the present utility model, the present utility model will be described in further detail with reference to the accompanying drawings and the specific embodiments.

Drawings

FIG. 1 is a schematic perspective view of the overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic perspective view of another angular overall structure of an embodiment of the present utility model;

FIG. 3 is an exploded view of an embodiment of the present utility model;

FIG. 4 is another exploded view of an embodiment of the present utility model;

FIG. 5 is a cross-sectional view of an embodiment of the present utility model;

FIG. 6 is a cross-sectional view of an insert module according to an embodiment of the utility model;

fig. 7 is an exploded view of a connector core of an embodiment of the present utility model.

The attached drawings are used for identifying and describing:

10. shield shell 11, convex part

12. Yield chamber 13, hollow chamber

20. Insulation body 21, plug-in cavity

22. Mounting cavity 23, mounting groove

24. Positioning groove 30 and connector core

31. RJ terminal 32, PIN terminal

33. Terminal seat 331 and positioning cavity

332. Upper and lower insertion grooves 333, 333

40. Network transformer 41 and limiting bump

50. PCB 60, pilot lamp

61. A lamp body 62 and a connection terminal.

Detailed Description

Referring to fig. 1 to 7, specific structures of embodiments of the present utility model are shown.

The utility model provides a split type module RJ45 connector of vertical type, includes shield shell 10 and installs in the insulator 20 in the shield shell 10, connector core 30, network transformer 40 and PCB board 50, connector core 30 installs on insulator 20, network transformer 40 inserts and installs on PCB board 50, connector core 30 connects in PCB board 50, shield shell 10 cladding is outside insulator 20, wherein, in this embodiment, shield shell 10 has the cavity 13 that upper and lower both ends opening set up, insulator 20 is located cavity 13, insulator 20 has the grafting chamber 21 that supplies to pegging graft the connector, grafting chamber 21 communicates in cavity 13's upper end opening, insulator 20 is provided with installation chamber 22 towards one side of letting the position chamber 12, installation chamber 22 communicates in grafting chamber 21, connector core 30, network transformer 40, PCB board 50 form an inlay module, inlay the inlay module dress is in installation chamber 22 to and, network transformer 40 is equipped with towards one side of boss 50 towards the boss 50 limited to one side of PCB board 41 of limiting board 41 is faced to PCB board 50. Here, the network transformer 40 is a standard network transformer, and the network transformer 40 may be a standard network transformer 40 with 24PIN, 16PIN or other PIN numbers, so that the network transformer 40 is set as a standard component, and can be purchased directly from the market, so that the network transformer 40 does not need to be designed, and the material preparation period of product manufacturing can be shortened.

The connector core 30 includes an RJ terminal 31, a PIN terminal 32 and a terminal block 33, the RJ terminal 31 and the PIN terminal 32 are respectively mounted at the upper end and the lower end of the terminal block 33, a welding portion of the RJ terminal 31 is exposed outside the terminal block 33 and is inserted and mounted on the PCB 50, and a welding portion of the PIN terminal 32 is exposed outside the terminal block 33 and is inserted and mounted on the PCB 50. Specifically, in this embodiment, the upper and lower ends of the terminal seat 33 are respectively provided with an upper embedding groove 332 and a lower embedding groove 333, the RJ terminal 31 and the PIN terminal 32 are respectively embedded in the upper embedding groove 332 and the lower embedding groove 333, the welding part of the RJ terminal 31 is exposed out of the upper embedding groove 332 and is inserted and mounted on the upper side of the PCB 50, the welding part of the PIN terminal 32 is exposed out of the lower embedding groove 333 and is inserted and mounted on the lower side of the PCB 50, and the connection end of the PIN terminal 32 is exposed out of the lower embedding groove 333 and extends out of the lower side of the terminal seat 33. And, the contact portion of the RJ terminal 31 is exposed in the jack cavity 21, and an end of the contact portion of the RJ terminal 31 away from the welding portion is positioned on the insulating body 20.

The terminal block 33 has a positioning cavity 331, and the network transformer 40 is positioned in the positioning cavity 331; the positioning cavity 331 penetrates through the left side and the right side of the terminal seat 33, the PCB 50 is located at the left side of the terminal seat 33, and the left end of the network transformer 40 is connected to the PCB 50 through inserting pins; thus, a vertical design is achieved.

A protruding portion 11 is protruding outwards from an outer side wall of the shielding shell 10, a relief cavity 12 is formed in the protruding portion 11, the relief cavity 12 is recessed from an inner side wall of the shielding shell 10 to the protruding portion 11, and the PCB 50 is located at one side of the relief cavity 12. The convex part 11 is formed on the left side wall of the shielding shell 10, a capacitor is arranged on the left side of the PCB 50 and is positioned in the abdication cavity 12, so that the convex part 11 is formed on the shielding shell 10, the shielding shell 10 is provided with the abdication cavity 12, more space is provided by the abdication cavity 12, the purpose of widening the space is achieved, the capacitor can be positioned in the abdication cavity 12, the phenomenon that the whole volume needs to be larger because the capacitor needs to occupy the space inside the shielding shell 10 is avoided, the space is fully utilized, the whole structure layout is more ingenious and reasonable, the convex part 11 can serve as a reinforcing rib, and the firmness of connecting and positioning of the whole structure and an external structure can be enhanced.

And, in this embodiment, the upper end of the insulating body 20 is concavely provided with a mounting groove 23 for mounting the indicator lamp 60, and the indicator lamp 60 is mounted in the mounting groove 23. In this way, the indicator lamp 60 is arranged, so that the indicator lamp 60 can indicate the working state of the connector. The indicator lamp 60 comprises a lamp body 61 and two connecting terminals 62 mounted on the lower side of the lamp body 61, wherein the two connecting terminals 62 are symmetrically arranged on the lower side of the lamp body 61 at intervals, two symmetrically arranged positioning grooves 24 are communicated with the lower side of the mounting groove 23, the positioning grooves 24 penetrate to the lower side of the insulating body 20, the lamp body 61 is positioned in the mounting groove 23, and one end of the connecting terminal 62, far away from the lamp body 61, penetrates through the corresponding positioning groove 24 and extends out of the insulating body 20 so as to facilitate connection of the connecting terminal 62 with an external structure; thus, the indicator lamp 60 can be stably and rapidly mounted on the insulating body 20.

In summary, the design key point of the utility model is that the convex part is formed on the shielding shell so that the shielding shell is provided with the abdication cavity, thereby providing more space through the abdication cavity, achieving the purpose of widening the space, enabling the capacitor to be positioned in the abdication cavity, avoiding the phenomenon that the whole volume needs to be larger because the capacitor needs to occupy the space in the shielding shell, fully utilizing the space, ensuring more ingenious and reasonable overall structure layout, and secondly, the convex part can serve as a reinforcing rib, enhancing the firmness of connecting and positioning the overall structure and the external structure, and positioning the network transformer in the positioning cavity by arranging the positioning cavity on the terminal seat, thereby assembling the network transformer in the terminal seat and reducing the occupation of the space; in addition, the network transformer is set as a standard component, so that the network transformer does not need to be designed, and the material preparation period of product manufacture can be shortened.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (8)

1. The utility model provides a split type module RJ45 connector of vertical type, includes shield shell and installs insulator, connector core, network transformer and the PCB board in the shield shell, the connector core is installed on insulator, the network transformer inserts and installs on the PCB board, the connector core is connected in the PCB board, the shield shell cladding is outside insulator, its characterized in that:

the connector core body comprises an RJ terminal, a PIN terminal and a terminal seat, wherein the RJ terminal and the PIN terminal are respectively arranged at the upper end and the lower end of the terminal seat, a welding part of the RJ terminal is exposed out of the terminal seat and is inserted and arranged on a PCB board, a welding part of the PIN terminal is exposed out of the terminal seat and is inserted and arranged on the PCB board, the terminal seat is provided with a positioning cavity, the network transformer is positioned in the positioning cavity, and the network transformer is a standard network transformer;

the PCB board is located one side of the cavity of stepping down, the convex part is outwards arranged on one outer side wall of the shielding shell in a protruding mode, the cavity of stepping down is formed in the convex part, the cavity of stepping down is concavely arranged from the inner side wall of the shielding shell to the convex part, and the PCB board is located on one side of the cavity of stepping down.

2. The vertical split module RJ45 connector of claim 1, further comprising: the locating cavity penetrates through the left side and the right side of the terminal seat, the PCB is located on the left side of the terminal seat, and the left end of the network transformer is connected to the PCB in an inserting mode through the contact pin.

3. The vertical split module RJ45 connector of claim 1, further comprising: the upper and lower ends of terminal seat are provided with embedded groove, lower embedded groove respectively, the embedded groove is gone up respectively to the RJ terminal, PIN terminal is downthehole, the welding part of RJ terminal is protruding to expose outside last embedded groove, the welding part of PIN terminal is protruding to expose outside lower embedded groove.

4. The vertical split module RJ45 connector of claim 1, further comprising: the shielding shell is provided with a hollow cavity with openings at the upper end and the lower end, the insulating body is positioned in the hollow cavity, the insulating body is provided with a plug-in cavity for plugging the plug-in connector, the plug-in cavity is communicated with the opening at the upper end of the hollow cavity, one side of the insulating body, facing the abdication cavity, is provided with an installation cavity, the installation cavity is communicated with the plug-in cavity, and the connector core, the network transformer and the PCB form an embedded module which is arranged in the installation cavity.

5. The split vertical RJ45 module connector of claim 4, further comprising: the contact part of the RJ terminal is exposed in the inserting cavity, and one end of the contact part of the RJ terminal, which is far away from the welding part, is positioned on the insulating body.

6. The vertical split module RJ45 connector of claim 1, further comprising: the network transformer is equipped with spacing lug towards the protruding of one side of PCB board, spacing lug is restricted by the one side of PCB board towards the network transformer towards one side of PCB board.

7. The vertical split module RJ45 connector of claim 1, further comprising: the upper end of the insulating body is provided with an installation groove for installing the indicator lamp in an inward concave manner, and the indicator lamp is installed in the installation groove.

8. The split vertical RJ45 module connector of claim 7, further comprising: the pilot lamp includes the lamp body and installs in two connecting terminal of lamp body downside, two connecting terminal symmetrical interval arrangement are in the downside of lamp body, the downside intercommunication of mounting groove has two symmetrical interval arrangement constant head tanks, the constant head tank runs through to the downside of insulator, the lamp body is located in the mounting groove, connecting terminal is kept away from the one end of lamp body and is passed corresponding constant head tank and stretch out outside the insulator.