CN113013664A

CN113013664A - Stably connected joint for communication equipment

Info

Publication number: CN113013664A
Application number: CN201911332094.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Xi'an Yubin Information Technology Co ltd
Current assignee: Xi'an Yubin Information Technology Co ltd
Priority date: 2019-12-21
Filing date: 2019-12-21
Publication date: 2021-06-22

Abstract

A joint for communication equipment with stable connection comprises a rod-shaped protrusion and a rod-shaped groove, wherein the rod-shaped protrusion is arranged on a first cover body of a first connecting wall, the rod-shaped groove is arranged on a second cover body of the first connecting wall, and after the rod-shaped protrusion is arranged in the rod-shaped groove, a male head group and a male head group can be stably connected in a disassembling mode. The combination structure of the rod-shaped protrusion and the rod-shaped groove is provided. The defects that the signal cable cannot be combined in the RS2323.1 joint equipment in a concurrent and universal mode and the RS2324.1 joint and the RS2323.1 joint cannot be combined in any change in the prior art are effectively overcome.

Description

Stably connected joint for communication equipment

Technical Field

The invention relates to the technical field of communication equipment, in particular to a stably-connected joint for communication equipment.

Background

The signal cable suitable for the RS2324.1 is provided with a universal RS232 connector at one end and an RS2324.1 connector at the other end, the signal cable can only provide information transmission performance for an element with the RS2324.1 connector, and the RS2324.1 connector and the RS2322.0 connector at the same time have no small difference on the contour structure, so the signal cable cannot be combined into equipment with the RS2323.1 connector in a concurrent and universal mode. The communication of the operator can be facilitated if the RS2324.1 connector and the RS2323.1 connector can be combined with each other as needed.

Disclosure of Invention

In order to solve the problems, the invention provides a stably-connected joint for communication equipment, which effectively avoids the defects that signal cables cannot be combined in equipment with RS2323.1 joints in a concurrent and universal manner and the RS2324.1 joint and the RS2323.1 joint cannot be combined in any change in the prior art.

In order to overcome the defects in the prior art, the invention provides a solution for a stably connected joint for communication equipment, which comprises the following specific steps:

a joint used for communication equipment and stably connected with the joint comprises a first male head group B0, a second male head group B1, a male head main board, a first cover body B2, a second cover body B3, an information connecting cable B6 and a wireless electronic equipment energy supply male head; the first male head group B0 is connected with a male head main board, the second male head group B1 is connected with the male head main board, the male head PCB is connected with a wireless electronic equipment PCB through a wireless electronic equipment energy supply male head, the male head main board is stabilized in a first cover body B2, one end of a first cover body B2 stabilizes the first male head group B0, the other end of the first cover body pulls out an information connecting cable B6, and the other end of the information connecting cable B6 is connected with the wireless electronic equipment energy supply male head;

the scarf framework comprises rod-shaped protrusions B7 and rod-shaped groove paths B8, the rod-shaped protrusions B7 are arranged on a first cover body B2 of the first connecting wall, the rod-shaped groove paths B8 are arranged on a second cover body B3 of the first connecting wall, and after the rod-shaped protrusions B7 are located in the rod-shaped groove paths B8, the first male head group B0 and the second male head group B1 can be stably connected in a disassembling mode. The rod-like projection B7 and the rod-like groove B8 are provided in a combined structure.

One end of the second cover body B3 stabilizes the second male head group B1, and the other end is connected with the male head main board.

An embedding structure which can be disassembled and stably connected is arranged between the first cover body B2 and the second cover body B3 to carry out embedding connection between the first cover body B2 and the second cover body B3.

The head parts of the pair of side walls of the rod-shaped protrusion B7 horizontally protrude outwards to form a flat rod-shaped guide strip B71, the outer and inner surfaces of the pair of side walls of the rod-shaped channel B8 horizontally sink to form a flat rod-shaped guide channel B81, and the rod-shaped guide strip B71 can stably run in the rod-shaped guide channel B81.

The invention has the beneficial effects that:

the structure is not complex and is easy to wear. The first male group B0 and the second male group B1 can be stably connected in a decomposition way. The combination structure of the rod-shaped protrusion B7 and the rod-shaped channel B8 is equipped, so that the first cover body B2 and the second cover body B3 can be stably connected in a disassembling mode.

Drawings

FIG. 1 is a partial block diagram of a connector for communication equipment of the present invention stably connected;

fig. 2 is an exploded view of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples.

As shown in fig. 1-2, the connector for communication equipment with stable connection of this embodiment includes a first male connector group B0, a second male connector group B1, a male connector main board, a first cover body B2, a second cover body B3, an information connecting cable B6, and a wireless electronic equipment power supply male connector; the first male head group B0 is connected with a male head main board, the second male head group B1 is connected with the male head main board, the male head PCB is connected with a wireless electronic equipment PCB through a wireless electronic equipment energy supply male head, the male head main board is stabilized in a first cover body B2, one end of a first cover body B2 stabilizes the first male head group B0, the other end of the first cover body pulls out an information connecting cable B6, and the other end of the information connecting cable B6 is connected with the wireless electronic equipment energy supply male head;

the scarf framework comprises rod-shaped protrusions B7 and rod-shaped groove paths B8, the rod-shaped protrusions B7 are arranged on a first cover body B2 of the first connecting wall, the rod-shaped groove paths B8 are arranged on a second cover body B3 of the first connecting wall, and after the rod-shaped protrusions B7 are located in the rod-shaped groove paths B8, the first male head group B0 and the second male head group B1 can be stably connected in a disassembling mode. The combination structure of the rod-shaped protrusion B7 and the rod-shaped channel B8 is equipped, so that the first cover body B2 and the second cover body B3 can be stably connected in a disassembling mode.

The signal cable is subjected to structural research on a universal RS2324.1 male head, so that the male head of the connector can be suitable for wireless equipment with an RS2323.1 female head and wireless equipment with an RS2324.1 female head, the male head is not complex in structure, and the signal cable is easy to assemble, convenient to operate and easy to generally combine into an information transmission mode of communication equipment. The first male group B0 and the second male group B1 can be stably connected in a decomposition way. The combination structure of the rod-shaped protrusion B7 and the rod-shaped channel B8 is equipped, so that the first cover body B2 and the second cover body B3 can be stably connected in a disassembling mode.

The head parts of the pair of side walls of the rod-shaped protrusion B7 horizontally protrude outwards to form a flat rod-shaped guide strip B71, the outer and inner surfaces of the pair of side walls of the rod-shaped channel B8 horizontally sink to form a flat rod-shaped guide channel B81, and the rod-shaped guide strip B71 can stably run in the rod-shaped guide channel B81. The flat rod-shaped guide type channel B81 and the rod-shaped guide strip B71 are arranged, so that the obstruction effect can be reduced, the second cover body B3 can save the cycle and save the physical strength during the period of the varicosity.

The present invention has been described in terms of embodiments, and it will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, and various changes, modifications and substitutions may be made without departing from the scope of the present invention.

Claims

1. A stably connected joint for communication equipment is characterized by comprising a male head group I, a male head group II, a male head main board, a cover body I, a cover body II, an information connecting cable and a wireless electronic equipment energy supply male head; the public head group is connected with a public head main board, the public head group two is connected with a public head main board, the public head PCB is connected with a wireless electronic equipment PCB through a wireless electronic equipment energy supply public head, the public head main board is stabilized in a cover body I, the cover body I stabilizes the public head group I, the other end of the cover body pulls out an information connecting cable, and the other end of the information connecting cable is connected with a wireless electronic equipment energy supply public head;

the scarf joint framework comprises rod-shaped protrusions and rod-shaped grooves, the rod-shaped protrusions are arranged on the first cover body of the first connecting wall, the rod-shaped grooves are arranged on the second cover body of the first connecting wall, and after the rod-shaped protrusions are arranged in the rod-shaped grooves, the male head group and the male head group can be stably connected in a disassembling mode. The combination structure of the rod-shaped protrusion and the rod-shaped groove is provided.

2. The connector for communication equipment with stable connection according to claim 1, wherein the two covers stabilize the second male connector group at one end, and the other end is connected with the male main board.

3. The joint for communication equipment with stable connection according to claim 1, wherein the cover and the cover are also provided with a scarf structure between the two covers for disassembling and stably connecting the two covers.

4. The connector for communication equipment with stable connection according to claim 1, wherein the head of the pair of side walls of the rod-shaped protrusion protrudes horizontally outward to form a flat rod-shaped guide strip, the outer and inner surfaces of the corners of the pair of side walls of the rod-shaped channel sink horizontally to form a flat rod-shaped guide channel, and the rod-shaped guide strip can run and be stabilized in the rod-shaped guide channel.