CN219144535U - Communication device capable of reducing packet loss rate of computer network line - Google Patents

Abstract

The utility model relates to the technical field of data transmission of physical network lines, in particular to a communication device capable of reducing the packet loss rate of a computer network line; when the wire mesh is used, the single bare wire of the wire mesh is inserted into the flexible conductive sleeve in the guide hole and is arranged above the wire pressing part of the metal pressing sheet so as to be clung to the metal pressing sheet, the upper half arc-shaped sheet is clung to the single bare wire of the wire mesh, so that the flexible conductive sleeve is in large-area contact with the single bare wire of the wire mesh and is connected to the metal pressing sheet through the lower half arc-shaped sheet (wherein the guide hole is used for fixing the flexible conductive sleeve and indirectly guiding the single bare wire of the wire mesh so as to be arranged above the wire pressing part of the metal pressing sheet); and then the body is inserted into the network interface socket to enable the pressing part of the metal pressing sheet to press the spring pin of the network interface socket, so that the communication physical connection with external communication equipment is realized, the transmission quality of a circuit is greatly improved, and the packet loss rate of the physical circuit connection is greatly reduced.

Description

Communication device capable of reducing packet loss rate of computer network line

Technical Field

The utility model relates to the technical field of data transmission of physical network lines, in particular to a communication device capable of reducing the packet loss rate of a computer network line.

Background

In a scene with higher requirements on network physical lines, the acceptance standard often needs to pass through a happy and position network line test, and in the process of the happy and position network line test, the failure caused by the fact that the crystal head is not in-place in a crimping way often is an important influencing factor which causes that the acceptance can not pass through the happy and position network line test;

however, at present, the connection part of most of the crystal heads and the single wires of the net wires in the market adopts the sharp corners of the metal pressing sheet to break the protective layer of the single wires of the net wires, and the electric signal connection is carried out in a manner of physically contacting the wrapped metal wires to realize electric signal connection; the method has the defects of small contact surface, large signal transmission loss, serious network packet loss and the like.

Disclosure of Invention

The utility model aims to solve the technical problems of the prior art and provides the communication device which has large contact area with a single wire of a network cable, small signal transmission loss and low packet loss rate and can reduce the packet loss rate of a computer network line.

The technical scheme adopted for solving the technical problems is as follows:

the communication device capable of reducing the packet loss rate of the computer network line is constructed and comprises a plurality of flexible conductive sleeves, a metal pressing sheet welded with the flexible conductive sleeves and a body matched with a network interface socket; the flexible conductive sleeve is matched with the guide hole and is adhered to the inner wall of the guide hole, the second end of the flexible conductive sleeve is transversely cut into an upper half arc-shaped sheet and a lower half arc-shaped sheet, and one end of the lower half arc-shaped sheet, far away from the first end of the flexible conductive sleeve, is welded on the metal pressing sheet;

a single bare wire of the net wire is inserted into the flexible conductive sleeve and is arranged above the wire pressing part of the metal pressing sheet and is tightly attached to the metal pressing sheet; the bottom of the flexible conductive sleeve is lower than the top of the line pressing part of the metal pressing sheet, and the upper half arc-shaped sheet is clung to a single bare wire of the net wire; the wire pressing part of the metal pressing sheet is inclined upwards from the side surface of the guide hole;

one corner of the body, facing the plurality of spring pins of the network interface socket, is provided with a plurality of slots for installing a plurality of metal press sheets, the plurality of metal press sheets are inserted into the slots one by one, the pressing parts of the metal press sheets face downwards, and the plurality of metal press sheets are opposite to the plurality of spring pins of the network interface socket one by one; when the body is inserted into the network interface socket, the pressing part of the metal pressing sheet presses the spring needle of the network interface socket.

The communication device capable of reducing the packet loss rate of the computer network circuit, disclosed by the utility model, is characterized in that the flexible conductive sleeve is made of a metal material and the inner surface of the flexible conductive sleeve is plated with gold.

The utility model discloses a communication device capable of reducing the packet loss rate of a computer network line, wherein a limiting block is arranged above a wire pressing part of a metal pressing sheet, a single bare wire of a net wire is inserted into a flexible conductive sleeve and is arranged above the wire pressing part of the metal pressing sheet, when the metal pressing sheet is moved upwards to a working position, the limiting block abuts against the single bare wire of the net wire above the wire pressing part of the metal pressing sheet, and meanwhile, a plurality of sharp corners of the wire pressing part of the metal pressing sheet are inserted into the single bare wire of the net wire; the limiting block is fixedly connected with the body.

The communication device capable of reducing the packet loss rate of the computer network line, disclosed by the utility model, is characterized in that a horn wire hole is also transversely arranged in the body, a small opening of the horn wire hole is opposite to the guide hole, and the diameter of the small opening of the horn wire hole is smaller than the inner diameter of the flexible conductive sleeve and larger than the diameter of a single bare wire of the network line.

The communication device capable of reducing the packet loss rate of the computer network line, disclosed by the utility model, has the advantage that the first end of the flexible conductive sleeve is in clearance fit with a single bare wire of the network line.

The communication device capable of reducing the packet loss rate of the computer network line, disclosed by the utility model, wherein the first end of the flexible conductive sleeve is matched with a single bare wire of the network line.

The utility model discloses a communication device capable of reducing the packet loss rate of a computer network line, wherein the radian of the upper half arc-shaped piece gradually decreases from near to far away from the first end of a flexible conductive sleeve.

The communication device capable of reducing the packet loss rate of the computer network line, disclosed by the utility model, is characterized in that the lower half arc-shaped sheet is welded on the metal pressing sheet in a flat manner.

The communication device capable of reducing the packet loss rate of the computer network line, disclosed by the utility model, wherein one end of the lower half arc-shaped sheet far away from the first end of the flexible conductive sleeve is in butt welding with the side surface of the metal pressing sheet.

The utility model discloses a communication device capable of reducing the packet loss rate of a computer network line, wherein metal conductive layers are adhered to the inner wall of a horn wire hole and the left side surface and the right side surface of a body, and when the body is inserted into a network interface socket, the metal conductive layers are tightly adhered to a grounding spring sheet on the side surface of the network interface socket;

the shielding layer of the net wire is tightly attached to the metal conductive layer on the inner wall of the horn wire hole.

The utility model has the beneficial effects that: when the wire-mesh wire bending device is used, a single bare wire of a wire mesh is inserted into a flexible conductive sleeve in a guide hole and is arranged above a wire pressing part of a metal pressing sheet so as to be clung to the metal pressing sheet, an upper arc-shaped sheet is clung to the single bare wire of the wire mesh, the flexible conductive sleeve is further contacted with the single bare wire of the wire mesh in a large area, and the flexible conductive sleeve is connected to the metal pressing sheet through a lower arc-shaped sheet (wherein the guide hole is used for fixing the flexible conductive sleeve and indirectly guiding the single bare wire of the wire mesh to be arranged above the wire pressing part of the metal pressing sheet, and further, the side, close to the guide hole, of the wire pressing part of the metal pressing sheet is upwards inclined so as to guide the single bare wire of the wire mesh wire to be above the wire pressing part); and then the body is inserted into the network interface socket to enable the pressing part of the metal pressing sheet to press the spring pin of the network interface socket, so that the communication physical connection with external communication equipment is realized, the transmission quality of a circuit is greatly improved, and the packet loss rate of the physical circuit connection is greatly reduced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be further described with reference to the accompanying drawings and embodiments, in which the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained by those skilled in the art without inventive effort:

FIG. 1 is a front view of a communication device for reducing packet loss rate of a computer network line according to a preferred embodiment of the present utility model;

FIG. 2 is a right side view of a communication device for reducing packet loss rate of a computer network line according to a preferred embodiment of the present utility model;

FIG. 3 is a cross-sectional view showing a communication device without a wire and without an upward movement of a metal sheet for reducing packet loss rate of a computer network line according to a preferred embodiment of the present utility model;

FIG. 4 is a cross-sectional view showing a communication device capable of reducing packet loss rate of a computer network line according to a preferred embodiment of the present utility model, in which a metal sheet is not moved upward;

fig. 5 is a cross-sectional view showing the insertion of a wire into a communication device for reducing the packet loss rate of a computer network line according to a preferred embodiment of the present utility model, with the metal press sheet being moved upward.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following description will be made in detail with reference to the technical solutions in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present utility model, based on the embodiments of the present utility model.

The communication device capable of reducing the packet loss rate of the computer network line according to the preferred embodiment of the present utility model is shown in fig. 1, and refer to fig. 2 to 5; comprising a plurality of flexible conductive sleeves 110 and metal tabs 120 welded to the flexible conductive sleeves 110, and a body 100 mated with a network interface socket; wherein, a plurality of guide holes 101 are transversely arranged in the body 100, a first end of the flexible conductive sleeve 110 is positioned in the guide hole 101, the flexible conductive sleeve 110 is matched with the guide hole 101 and is adhered on the inner wall of the guide hole 101, a second end of the flexible conductive sleeve 110 is transversely cut into an upper half arc-shaped sheet 111 and a lower half arc-shaped sheet 112, and one end of the lower half arc-shaped sheet 112 far away from the first end of the flexible conductive sleeve 110 is welded on the metal pressing sheet 120;

the single bare wire 210 of the net wire 200 is inserted into the flexible conductive sleeve 110 and is placed above the wire pressing part of the metal pressing sheet 120 and is tightly attached to the metal pressing sheet 120; the bottom of the flexible conductive sleeve 110 is lower than the top of the wire pressing part of the metal pressing sheet 120, and the upper half arc-shaped sheet 111 is tightly attached to the single bare wire 210 of the net wire 200; the wire pressing part of the metal pressing sheet 120 is inclined upwards from the side surface of the guide hole 101;

one corner of the body 100 facing the plurality of pins of the network interface socket (not shown in the figure) is provided with a plurality of slots 130 for installing a plurality of metal press sheets 120, the plurality of metal press sheets 120 are inserted into the slots 130 one by one, the pressing parts of the metal press sheets 120 face downwards, and the plurality of metal press sheets 120 face the plurality of pins of the network interface socket one by one; the pressing part of the metal pressing sheet 120 presses the spring pin of the network interface socket when the body 100 is inserted into the network interface socket;

when in use, the single bare wire 210 of the net wire 200 is inserted into the flexible conductive sleeve 110 in the guide hole 101 and is placed above the wire pressing part of the metal pressing sheet 120 to be tightly attached to the metal pressing sheet 120, the upper half arc sheet 111 is tightly attached to the single bare wire 210 of the net wire 200, so that the flexible conductive sleeve 110 is in large-area contact with the single bare wire 210 of the net wire 200, and is connected to the metal pressing sheet 120 through the lower half arc sheet 112 (wherein the guide hole 101 is used for fixing the flexible conductive sleeve 110 and indirectly guiding the single bare wire 210 of the net wire 200 to be placed above the wire pressing part of the metal pressing sheet 120, and further, the wire pressing part of the metal pressing sheet 120 is in an upward inclined shape 121 near the side surface of the guide hole 101 for guiding the single bare wire 210 of the net wire 200 to be above the wire pressing part); and then the body 100 is inserted into the network interface socket to enable the pressing part of the metal pressing sheet 120 to press the spring pin of the network interface socket, so that the communication physical connection with external communication equipment is realized, the transmission quality of a circuit is greatly improved, and the packet loss rate of the physical circuit connection is greatly reduced.

It should be noted that the individual wires of the wire 200 require removal of the 13mm head protective layer for insertion into the flexible conductive sleeve 110, the flexible conductive sleeve 110 being resilient and crumple, and the network interface jack being of the RJ45 type.

As shown in fig. 3 to 5, the flexible conductive sleeve 110 is made of metal material and has an inner surface plated with gold; the physical resistance is reduced, the stability of data transmission is improved, and the packet loss rate is reduced.

As shown in fig. 1 to 5, a stopper 140 is provided above the wire pressing portion of the metal pressing piece 120, and after a single bare wire 210 of the wire 200 is inserted into the flexible conductive sleeve 110 and placed above the wire pressing portion of the metal pressing piece 120, the stopper 140 is pressed against the single bare wire 210 of the wire 200 located above the wire pressing portion of the metal pressing piece 120 by the stopper 140 when the metal pressing piece 120 is moved upward to the working position, and simultaneously a plurality of sharp corners of the wire pressing portion of the metal pressing piece 120 are inserted into the single bare wire 210 of the wire 200; the limiting block 140 is fixedly connected with the body 100; the limiting block 140 and the metal pressing sheet 120 are matched to compress the single bare wire 210 of the net wire 200, so that the structure is simple, wherein the metal pressing sheet 120 and the body 100 are in interference fit to prevent rebound after the metal pressing sheet 120 is moved upwards (by using common net wire pliers, without using custom pliers, and convenient to use).

As shown in fig. 1 to 5, a horn wire hole 150 is also transversely arranged in the body 100, the small opening of the horn wire hole 150 faces the guide hole 101, and the diameter of the small opening of the horn guide hole 101 is smaller than the inner diameter of the flexible conductive sleeve 110 and larger than the diameter of the single bare wire 210 of the net wire 200; so as to insert a single bare wire 210 of the wire 200, wherein the small openings of the horn wire holes 150 are opposite to the plurality of guide holes 101 (8), and the plurality of guide holes 101 are adjacent to each other, so as to insert a plurality of single bare wires 210 of the wire 200 side by side.

As shown in fig. 3-5, the first end of the flexible conductive sleeve 110 is in a clearance fit with a single bare wire 210 of the net wire 200 for ease of insertion.

As shown in fig. 3-5, the first end of the flexible conductive sleeve 110 is mated with a single bare wire 210 of the net wire 200; the contact area is increased, the transmission quality of the circuit is improved, and different use requirements are met.

As shown in fig. 3-5, the curvature of the upper arc segment 111 tapers from near to far away from the first end of the flexible conductive sleeve 110; to achieve a surface of a single bare wire 210 that is in close proximity to the wire 200.

As shown in fig. 3 to 5, the lower half arc-shaped sheet 112 is welded to the metal press sheet 120 in a flat shape; the contact area is increased.

As shown in fig. 3-5, the end of the lower half arc piece 112 remote from the first end of the flexible conductive sleeve 110 is butt welded to the side of the metal presser piece 120; and the assembly is convenient.

As shown in fig. 1 to 5, the inner wall of the horn wire hole 150 and the left and right sides of the body 100 are adhered with metal conductive layers (not shown), and when the body 100 is inserted into the network interface socket, the metal conductive layers are tightly adhered to the grounding spring plate on the side of the network interface socket; the shielding layer of the net wire 200 is tightly attached to the metal conductive layer of the inner wall of the horn wire hole 150; the structure is simple, the anti-interference capability of the network cable 200 is further improved, the transmission quality of the line is improved, and the packet loss rate is reduced.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (10)

1. A communication device capable of reducing packet loss rate of computer network lines comprises a plurality of flexible conductive sleeves, a metal pressing sheet welded with the flexible conductive sleeves and a body matched with a network interface socket; the flexible conductive sleeve is characterized in that a plurality of guide holes are transversely formed in the body, a first end of the flexible conductive sleeve is positioned in the guide holes, the flexible conductive sleeve is matched with the guide holes and is adhered to the inner wall of the guide holes, a second end of the flexible conductive sleeve is transversely cut into an upper half arc-shaped sheet and a lower half arc-shaped sheet, and one end, far away from the first end of the flexible conductive sleeve, of the lower half arc-shaped sheet is welded on the metal pressing sheet;

a single bare wire of the net wire is inserted into the flexible conductive sleeve and is arranged above the wire pressing part of the metal pressing sheet and is tightly attached to the metal pressing sheet; the bottom of the flexible conductive sleeve is lower than the top of the line pressing part of the metal pressing sheet, and the upper half arc-shaped sheet is clung to a single bare wire of the net wire; the wire pressing part of the metal pressing sheet is inclined upwards from the side surface of the guide hole;

one corner of the body, facing the plurality of spring pins of the network interface socket, is provided with a plurality of slots for installing a plurality of metal press sheets, the plurality of metal press sheets are inserted into the slots one by one, the pressing parts of the metal press sheets face downwards, and the plurality of metal press sheets are opposite to the plurality of spring pins of the network interface socket one by one; when the body is inserted into the network interface socket, the pressing part of the metal pressing sheet presses the spring needle of the network interface socket.

2. The communication device for reducing packet loss rate in a computer network according to claim 1, wherein the flexible conductive sleeve is made of metal material and has an inner surface plated with gold.

3. The communication device capable of reducing the packet loss rate of a computer network line according to claim 1, wherein a limiting block is arranged above a wire pressing part of the metal pressing sheet, and after a single bare wire of the net wire is inserted into the flexible conductive sleeve and is arranged above the wire pressing part of the metal pressing sheet, when the metal pressing sheet is moved upwards to a working position, the limiting block abuts against the single bare wire of the net wire above the wire pressing part of the metal pressing sheet, and meanwhile, a plurality of sharp corners of the wire pressing part of the metal pressing sheet are inserted into the single bare wire of the net wire; the limiting block is fixedly connected with the body.

4. The communication device capable of reducing packet loss rate of computer network circuit according to claim 1, wherein a horn wire hole is also transversely arranged in the body, a small opening of the horn wire hole is opposite to the guide hole, and the diameter of the small opening of the horn wire hole is smaller than the inner diameter of the flexible conductive sleeve and larger than the diameter of a single bare wire of the network wire.

5. The communication device for reducing packet loss rate in a computer network according to claim 1, wherein the first end of the flexible conductive sleeve is in clearance fit with a single bare wire of the network cable.

6. The communication device for reducing packet loss rate in a computer network according to claim 1, wherein the first end of the flexible conductive sleeve is mated with a single bare wire of the network cable.

7. The communication device of claim 1, wherein the upper arc segment tapers from near to far away from the first end of the flexible conductive sleeve.

8. The communication device for reducing packet loss rate of computer network circuit according to claim 1, wherein the lower arc-shaped sheet is welded to the metal sheet in a flat shape.

9. The communication device for reducing packet loss rate in a computer network according to claim 1, wherein an end of the lower arcuate tab remote from the first end of the flexible conductive sleeve is butt-welded to a side of the metallic blade.

10. The communication device capable of reducing packet loss rate of computer network circuit according to claim 4, wherein the inner wall of the horn wire hole and the left and right sides of the body are adhered with metal conductive layers, and the metal conductive layers are tightly adhered to the grounding spring sheet on the side surface of the network interface socket when the body is inserted into the network interface socket;

the shielding layer of the net wire is tightly attached to the metal conductive layer on the inner wall of the horn wire hole.

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