CN218569414U - Structure of network connector - Google Patents

Abstract

The utility model discloses a network connector's structure, the primary structure includes a circuit substrate, be equipped with an insulating colloid on the circuit substrate, be equipped with a plurality of connectors on the insulating colloid, a plurality of transmission conductor group, and an installation face, wherein the connector includes a first connector and a plurality of second connector that is located one side department of first connector, the user can install baffle subassembly in the transmission conductor group by the position department of installation face, set up shield shell in insulating colloid's outside department again, wherein baffle subassembly includes a first baffle spare, an at least second baffle spare, and at least one conduction portion, first baffle spare electric connection has a first ground connection portion, second baffle spare electric connection has an at least second ground connection portion, and through the mode, efficiency when increasing the installation of making, and utilize first ground connection portion of baffle subassembly cooperation and second ground connection portion to increase the effect of shielding.

Description

Structure of network connector

Technical Field

The utility model provides a make simple to operate fast and can increase the structure of the network connector of shielding effect.

Background

The connector is mostly applied to a machine-to-wire or wire-to-wire switching structure, and because the connector is used for transmitting signals and power, the connector also has a requirement on the stability of signal transmission.

This is particularly true for network connectors, since the transmission speed of the network is relevant to many industries in the current era, such as conferencing or remote operations using the network, and since EMI or RFI interference is easily generated when transmitting signals, stability and interference reduction are very important.

In addition, since the connector is often inserted and removed and is the most moved part of the whole machine, the normal connector and the connecting wire are all consumables, so that the manufacturing efficiency can be improved and the probability of defective products can be reduced during manufacturing, and the cost of the whole machine can also be reduced.

Therefore, how to solve the above conventional problems and disadvantages is one of the ways in which the applicant of the present invention and the related manufacturers engaged in the industry desire to research and improve.

SUMMERY OF THE UTILITY MODEL

Therefore, in view of the above-mentioned shortcomings, the inventor of the present invention has searched related information, evaluated and considered in many ways, and tried and modified continuously with years of experience accumulated in the industry, and designed a new kind of network connector structure with reduced signal interference effect and increased manufacturing efficiency.

The utility model discloses a main aim at: the partition plate assembly installed on the installation surface has shielding effect and improves the efficiency in manufacturing.

To achieve the above object, the main structure of the present invention comprises: the circuit board comprises a circuit board, an insulating colloid arranged on the circuit board, a plurality of connectors arranged on the insulating colloid, a plurality of transmission conductor sets arranged on the insulating colloid and corresponding to the connectors in position, an installation surface positioned at one side of the insulating colloid departing from the connectors, a partition plate assembly installed on the insulating colloid by the installation surface, and a shielding shell arranged at the outer side of the insulating colloid, wherein the connectors comprise a first partition plate piece arranged between a first connector and one of the second connectors, at least one second partition plate piece arranged between the second connectors, and at least one conduction part connected with the first partition plate piece and the second partition plate piece, the first partition plate piece is electrically connected with a first grounding part, and the second partition plate piece is electrically connected with at least one second grounding part.

Through the structure, when a user manufactures the connector, the insulating colloid with the connecting ports and the transmission conductor group can be firstly installed on the circuit substrate, and the partition plate assembly is installed and inserted into the insulating colloid from the installation surface, so that the first partition plate piece and the second partition plate piece can be positioned between the connecting ports, when an opponent connector is inserted from the connecting ports and is connected through the transmission conductor group, because the connecting ports and the transmission conductor group are isolated through the first partition plate piece or the second partition plate piece, the first partition plate piece can quickly discharge noise through the first grounding part, and the second partition plate piece can also quickly discharge the noise through the second grounding part, so that the interference of EMI/RFI is isolated and reduced, and the stability during connection is improved.

Because the mounting surface is positioned at the position of the different connecting ports, the possibility of touching the contact terminals in the transmission conductor group can be reduced during mounting, so that the probability of generating defective products during mounting is reduced, and because the first partition plate piece and the second partition plate piece are mutually connected by the conducting part, the first partition plate piece and the second partition plate piece can be mounted in place at one time during mounting, so that the efficiency during manufacturing is improved, and the conducting effect of the conducting part can be used for more completely dispersing noise, so that the functions of blocking and reducing EMI/RFI interference are enhanced again.

The technology can make a breakthrough in the problems that the conventional connector is easy to generate EMI/RFI interference and has poor efficiency in manufacturing, and achieve the practical progress of the advantages.

Drawings

Fig. 1 is a perspective view of the preferred embodiment of the present invention.

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

Fig. 3 is an installation diagram (one) of the preferred embodiment of the present invention.

Fig. 4 is a schematic installation diagram (ii) of the preferred embodiment of the present invention.

Fig. 5 is a schematic installation diagram (iii) of the preferred embodiment of the present invention.

Fig. 6 is a perspective view of another preferred embodiment of the present invention.

Fig. 7 is an exploded view of another preferred embodiment of the present invention.

Fig. 8 is a disassembled schematic view (i) of still another preferred embodiment of the present invention.

Fig. 9 is a disassembled schematic view (ii) of another preferred embodiment of the present invention.

Fig. 10 is a perspective view of another preferred embodiment of the present invention.

Fig. 11 is an exploded view of another preferred embodiment of the present invention.

Fig. 12 is an exploded view of another preferred embodiment of the present invention.

Detailed Description

To achieve the above objects and advantages, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 5, a perspective view to an installation schematic view (iii) of a preferred embodiment of the present invention is shown, and it can be clearly seen from the drawings that the present invention includes:

a circuit substrate 1;

an insulating colloid 2 arranged on the circuit substrate 1;

a plurality of connection ports 21 disposed on the insulating colloid 2, wherein the connection ports 21 include a first connection port 211 and a plurality of second connection ports 212 disposed at one side of the first connection port 211, and three connection ports 21 of the embodiment are used as an example, and thus two connection ports 212 are used as an example;

a plurality of transmission conductor sets 3 disposed on the insulating colloid 2 and corresponding to the connectors 21, wherein the transmission conductor sets 3 of the embodiment use a transmission connector conforming to the specification of an RJ45 network connector as an example;

a mounting surface 22 arranged on the insulating colloid 2, wherein the mounting surface 22 is positioned at one side departing from the connecting port 21;

a partition plate assembly 4 installed into the insulating colloid 2 from the installation surface 22, wherein the partition plate assembly 4 comprises a first partition plate 41 arranged between the first connection port 211 and the second connection port 212, at least one second partition plate 42 arranged between the second connection ports 212, at least one conduction part 43 connected with the first partition plate 41 and the second partition plate 42, and a plurality of stopping limit parts 44 respectively connected with the first partition plate 41 and the second partition plate 42, and the first partition plate 41 and the second partition plate 42 take metal partition plates as examples;

a shielding shell 5 arranged at the outer side of the insulating colloid 2;

a first grounding portion 61 electrically connected to the first partition member 41, wherein the first grounding portion 61 of the present embodiment is exemplified by a grounding bump formed by extending the first partition member 41; and

at least one second grounding portion 62 electrically connected to the second partition member 42, the second grounding portion 62 of the present embodiment is exemplified by a grounding bump formed by extending the second partition member 42.

The structure of the present invention can be understood from the above description, and the corresponding matching according to the structure can have the advantages of more efficient installation and better isolation effect, and the detailed description will be described below.

From the above steps, the user can install the insulating colloid 2 having the connectors 21 and the transmission conductor set 3 on the circuit substrate 1, and then install the partition plate assembly 4 into the insulating colloid 2 from the installation surface 22, at this time, the first partition plate 41 can be inserted between the first connector 211 and the second connector 212, and the second partition plate 42 can be inserted between the second connectors 212, so that the connectors 21 can be isolated, and the user can directly push the stopping limiting portion 44 to the insulating colloid 2 during installation to limit the insertion distance of the first partition plate 41 and the second partition plate 42 through the stopping limiting portion 44, so that the installation can be performed quickly and conveniently, the insertion distance does not need to be confirmed, only the stopping limiting portion 44 needs to be simply and quickly pushed to touch the insulating colloid 2, and the convenience during manufacturing and installation can be greatly increased.

Since the first partition 41 and the second partition 42 are connected by the conductive portion 43, they can be directly mounted at a time without requiring separate mounting, and the mounting efficiency can be increased again. Since the mounting surface 22 is located on the side away from the connection port 21, the possibility of touching the contact portion of the transmission conductor group 3 when the partition plate assembly 4 is inserted can be avoided, and the possibility of damaging the transmission conductor group 3 by touching the contact portion when mounting can be prevented, and the conduction portion 43 of the present embodiment is located on the side away from the circuit substrate 1, so that the conduction portion can be greatly away from the soldering portion of the transmission conductor group 3 when mounting, and the possibility of touching the soldering portion can be reduced. The installation effect can be used to improve the installation efficiency and reduce the probability of defective products in manufacturing.

Since the first partition plate 41 or the second partition plate 42 is provided between the connecting ports 21, when the transmission conductor sets 3 are mated with the counterpart connector via the connecting ports 21, the first partition plate 41 or the second partition plate 42 can perform a blocking effect, the first partition plate 41 can rapidly discharge noise via the first grounding portion 61, and the second partition plate 42 can rapidly discharge noise via the second grounding portion 62, thereby achieving an effect of blocking and reducing EMI/RFI. The first and second partition members 41 and 42 are respectively corresponding to the first and second grounding portions 61 and 62, so that the grounding effect is better, and the first and second partition members 41 and 42 are connected to each other through the conduction portion 43, so that the noise dispersion effect is better.

Referring to fig. 6 to 9, it is clear from the drawings that the present embodiment is different from the above embodiments in terms of the perspective view to the disassembly schematic view (ii), wherein four connectors 21 are taken as an example, so that the present embodiment has a first connector 211 and three second connectors 212, and two connectors 42 are taken as an example, so that the first partition 41 or the second partition 42 can be disposed between the connectors 21 to achieve the shielding and isolating effect.

In the embodiment, the first grounding portion 61 and the second grounding portion 62 are disposed on the shielding shell 5, and the shielding shell 5 is provided with a connecting protrusion 52 contacting with the first partition member 41 and the second partition member 42 of the partition assembly 4, and a plurality of fastening portions 51 located at one side of the mounting surface 22.

In this way, in the present embodiment, the partition plate assembly 4 can be directly pressed and fixed by the connecting protrusion 52 on the shielding shell 5, so as to improve the stability and convenience in manufacturing and installation. The noise can be transmitted to the first land portion 61 and the second land portion 62 through the connecting convex portion 52 and can be discharged, so that the effect of suppressing the noise can be achieved.

Since the left and right sides of each connector are crowded on the circuit board, the locking portion 51 is disposed at one side of the mounting surface, i.e. at the rear side of the shielding shell 5, so that when a user wants to detach the connector, the fixing effect of the locking portion 51 can be opened first, and then the rear side of the shielding shell 5 can be turned up to let the user choose to remove the partition plate assembly 4 or melt the welding effect of the transmission conductor set 3 through hot melting.

Referring to fig. 10 and 11, a perspective view and an exploded view of another preferred embodiment of the present invention are shown, and it can be clearly seen from the drawings that the embodiment is different from the above embodiments in major and minor aspects, two groups of insulating colloids 2 in the embodiment are taken as examples and are respectively located at the upper and lower sides of the circuit substrate 1 to show that the implementation aspect of the present invention is not limited, and the number of the opposite insertion can be increased by stacking.

In the present embodiment, the first grounding portion 61 is disposed on the first partition 41 and the shielding shell 5, and the second grounding portion 62 is disposed on the second partition 4 and the shielding shell 5, so that the effect of grounding can be achieved, the function of removing noise can be greatly increased, and the effect of suppressing noise can be improved again.

Referring to fig. 12, an exploded view of another preferred embodiment of the present invention is shown, and it can be clearly seen from the figure that this embodiment is the same as the above embodiment, in this embodiment, at least one contact spring 45 is disposed on the partition plate assembly 4, and in this embodiment, the contact spring is disposed on the conduction portion 43 and the stop limiting portion 44. Therefore, the partition board assembly 4 and the shielding shell 5 can be contacted with each other reliably through the contact spring 45, so as to achieve the complete grounding effect.

The above description is only for the preferred embodiment of the present invention, and not for the purpose of limiting the scope of the present invention, so that the simple modification and equivalent structural changes made by the contents of the specification and drawings should be considered as included in the scope of the present invention.

Description of the symbols

A circuit board: 1

Insulating colloid: 2

A connector: 21

A first connection port: 211

A second connection port: 212

Mounting surface: 22

A transmission conductor set: 3

A partition plate assembly: 4

A first partition member: 41

A second divider member: 42

A conduction part: 43

A stop limiting part: 44

Contacting the elastic sheet: 45

A shielding case: 5

A fastening part: 51

Connecting the convex parts: 52

A first ground part: 61

A second ground part: 62.

Claims (5)

1. a structure of a network connector, comprising:

a circuit substrate;

an insulating colloid, which is arranged on the circuit substrate;

the connectors are arranged on the insulating colloid and comprise a first connector and a plurality of second connectors positioned at one side of the first connector;

a plurality of transmission conductor sets, which are arranged on the insulating colloid and correspond to the connectors;

the mounting surface is arranged on the insulating colloid and is positioned at one side departing from the connecting port;

the partition plate assembly is arranged on the insulating colloid from the mounting surface and comprises a first partition plate piece arranged between the first connecting port and one of the second connecting ports, at least one second partition plate piece arranged between the second connecting ports and at least one conduction part connected with the first partition plate piece and the second partition plate piece;

the shielding shell is arranged at the outer side of the insulating colloid;

a first grounding part electrically connected with the first partition plate; and

at least one second grounding part electrically connected with the second partition plate.

2. The structure of claim 1, wherein the shielding shell has a connection protrusion contacting with the partition plate, and the first grounding portion and the second grounding portion are disposed on the shielding shell.

3. The structure of claim 1, wherein the shielding shell has a plurality of locking portions, and the locking portions are located at one side of the mounting surface.

4. The structure of claim 1, wherein the partition assembly has at least one contact spring.

5. The structure of claim 1, wherein the partition plate has a plurality of stopping and limiting portions.

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