CN102270808A

CN102270808A - Winding method of electric connector

Info

Publication number: CN102270808A
Application number: CN2011101269454A
Authority: CN
Inventors: 魏冠雄
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-05-17
Filing date: 2011-05-17
Publication date: 2011-12-07

Abstract

The invention relates to a winding method of an electric connector and belongs to the electronic field. According to the invention, wire rods are wound on a ring by a specific mode; a first wire rod set with four different colors and a second wire rod set with four different colors are respectively encircled on an upper half area and a lower half area so as to form a first input end wire rod and a second input end wire rod as well as a first output end wire rod and a second output end wire rod; and then the first input end wire rod and the second input end wire rod are respectively wound correspondingly and similarly, the first output end wire rod and the second output end wire rod are respectively wound correspondingly; a specific input end wire rod that belongs to a third input end wire rod and a specific output end wire rod that belongs to a third output end wire rod are wound and are arranged and shifted to form a fourth input end wire rod and a fourth output end wire rod. Therefore, magneto-impedance effect is reduced and thus an electric connector is more suitable for high frequency signal, thereby realizing progressiveness and practicality.

Description

The method for winding of electric connector

Technical field

The present invention relates to electrical type,, refer to a kind of method for winding that more is applicable to the electric connector that high-frequency signals is used so that magnetoimpedance reduces that gets especially for a kind of method for winding of electric connector is provided.

Background technology

At present, general line transformer utilizes the made a kind of impedance transformer of principle of transmission line and transformer, and described impedance transformer is called the distributed circuit and the combination that is called as the lumped-parameter circuit of coil of transmission line by general industry, simple saying promptly is a kind of transformer that transmission line is constituted on the high permeability magnetic core with low loss, for instance, the manufacture method of present general networking transformer is reeled in going ahead of the rest on the middle section greatly mutually by the wire rod of four kinds of different colours, and be surrounded on again on the ring-like FERRITE CORE (Ferrite core), and around certain number of turns, and around between 180～270 degree that are approximately ring-like FERRITE CORE, this winding mode prolongs have been used for many years, and make simple and easyly, the existing signal that is generally used in Ethernet 10/100Base-T or 1000Base-T transmits or receives.Therefore the winding mode that year is arranged of this journey controls the stability of its coiling because of adopting artificial coiling than difficulty then, and simple and easy because of making, make when producing, if the characteristic of transformer and quality are unstable, and must reach higher transmission rate the time, then can't realize the requirement of signal transmission.

And science and technology is maked rapid progress now, produce the manufacturer of network on the market with rj connector, fourth of the twelve Earthly Branches foot is developed 10G signal transmission rj connector with all strength invariably, but be based on the production method of legacy network signal transmission with transformer, be all and wind the line on ring-like FERRITE CORE, and preceding method has illustrated the transformer that existing mode is made, can't be applied to upper frequency, so developed the manufacturer of the rj connector of this type of 10G signal transmission usefulness now, utilize the kelvin effect of transmission line for high-frequency signal, specially use 2 and twine a few in the ring-like FERRITE CORE of twoport type, or wind the line on the ring-like FERRITE CORE of tradition around 4 look twisted wires.

Yet 2 of above-mentioned utilizations and around 4 look twisted wires twine a few in the ring-like FERRITE CORE of twoport type or the technology on the ring-like FERRITE CORE of tradition of winding the line when using, wait improvement for having following point and disappearance really:

Because artificial coiling so technology and quality stability all must carefully be controlled, causes when producing, be more difficult to get the yield of product.

Summary of the invention

Main purpose of the present invention is to provide a kind of method for winding of electric connector, it is existing because artificial coiling to solve existing coiling technology, so technology and quality stability all must carefully be controlled, cause when producing, be more difficult to get the problem of the yield of product, wire coil be around on the ring body, to reach high-quality stability by specific mode, and product can reach high yield, and impedance is reduced and more is applicable to high-frequency signals.

For reaching above-mentioned advantage, the present invention's step that mainly winds the line is at first got the wire rod of four kinds of different colours, and with its begin after side by side strand around, interlude is twisted coiled together to form one first wire rod group, and the first wire rod group two ends are respectively equipped with the first input end wire rod and the first output wire rod of each four wire rod, in addition, get the wire rod of other four kinds of different colours again, and with its begin after side by side strand around, interlude is twisted coiled together to form one second wire rod group, and the second wire rod group two ends are respectively equipped with the second input wire rod and the second output wire rod of each four wire rod, after this get a ring body again with the first half area (about 180 degree) of the first wire rod group around its ring body, the second wire rod group is around the Lower Half area (about 180 degree) of its ring body, finish after the above-mentioned action again with the side edge of exposed first and second input wire rod of ring body with respectively this wire rod of first input end wire rod and the second input wire rod with its do corresponding strand around, and will twist mutually around wire rod arrange to form the 3rd input wire rod, the ring body opposite side then with respectively this wire rod of first output and second output with its do corresponding strand around, and will twist mutually around wire rod arrange to form the 3rd output wire rod, finish after the above-mentioned action wherein input wire rod of the 3rd input wire rod and wherein output wire rod of the 3rd output wire rod are reeled, and other wire rod is moved arrangement to form three articles of four-input terminal wire rods, the 3rd output wire rod of opposite side then will be wherein wherein input wire rod of output wire rod and the 3rd input wire rod reel, and other wire rod moved arrangement to form three article of the 4th output wire rod, promptly finish the method for winding of electric connector of the present invention by this.

Concrete grammar of the present invention is:

(a) wire rod of four kinds of different colours is gone ahead of the rest coiling and molding is the first wire rod group of a tool first input end wire rod and the first output wire rod, and with its first half area around this ring body;

(b) wire rod of four kinds of different colours is gone ahead of the rest coiling and molding is the second wire rod group of a tool second input wire rod and the second output wire rod, and with its Lower Half area around this ring body;

(c) with respectively this wire rod of the first input end wire rod of ring body one side and the second input wire rod with its do corresponding strand around, and will twist mutually around wire rod arrange to form the 3rd input wire rod;

(d) with respectively this wire rod of first output of ring body opposite side and second output with its do corresponding strand around, and will twist mutually around wire rod arrange to form the 3rd output wire rod;

(e) the specific output wire rod that will belong to the specific input end wire rod of the 3rd input wire rod and affiliated the 3rd output wire rod is reeled and is arranged displacement to form the four-input terminal wire rod;

(f) the specific input end wire rod that will belong to the specific output wire rod of the 3rd output wire rod and affiliated the 3rd input wire rod is reeled and is arranged displacement to form the 4th output wire rod.

Wherein this ring body is ring-like FERRITE CORE (Ferrite core);

Wherein this four-input terminal wire rod is further constituted through mixing the wire rod of reeling respectively by three;

Wherein the 4th output wire rod is further constituted through mixing the wire rod of reeling respectively by three.

The invention has the advantages that: twine mutually and change its winding position by the first wire rod group and second wire rod group repeated interaction each other, in order to do making last ring body for having high-quality stability, high yield, and more be applicable to the progressive of high-frequency signals so that impedance drop is low.

Description of drawings

Fig. 1 is the flow chart of steps of preferred embodiment of the present invention.

Fig. 2 is the winding action schematic diagram one of preferred embodiment of the present invention.

Fig. 3 is the winding action schematic diagram two of preferred embodiment of the present invention.

Fig. 4 is the winding action schematic diagram three of preferred embodiment of the present invention.

Fig. 5 is the winding action schematic diagram four of preferred embodiment of the present invention.

Fig. 6 is the winding action schematic diagram five of preferred embodiment of the present invention.

Fig. 7 is the winding action schematic diagram six of preferred embodiment of the present invention.

Fig. 8 is the present invention's winding schematic diagram of a preferred embodiment again.

Embodiment

As shown in Figure 1, be the flow chart of steps of preferred embodiment of the present invention, find out that by knowing among the figure method for winding step of the present invention is as follows:

In addition, each wire rod around ring body be ring-like FERRITE CORE (Ferrite core).

To shown in the accompanying drawing 7, for the winding action schematic diagram of preferred embodiment of the present invention, can know and find out that according to above-mentioned steps flow chart, this section is described in more detail as accompanying drawing 2 simultaneously among the cooperation figure; At first will it be reeled mutually and form one first wire rod group 1 by the wire rod of four different colours, and the two ends of the first wire rod group 1 form each first input end wire rod 101 of four respectively, 102,103,104 and the first output wire rod 111,112,113,114, then will it be reeled mutually by the wire rod of four different colours again and form one second wire rod group 2, and the two ends of the second wire rod group 2 form each second input wire rod 201 of four respectively, 202,203,204 and the second output wire rod 211,212,213,214(such as accompanying drawing 2, accompanying drawing 3), after this again the first wire rod group 1 and the second wire rod group 2 are around in the first half area and the Lower Half area of ring body respectively, and with first input end wire rod 101,102,103,104, the first output wire rod 111,112,113,114, the second input wire rod 201,202,203,204 and the second output wire rod 211,212,213,214 pull out outside the ring body (as accompanying drawing 4, accompanying drawing 5), after this again the first input end wire rod 101 and the second input wire rod 201 are twined formation the 3rd input wire rod 301 mutually, the first input end wire rod 102 and the second input wire rod 202 twine mutually and form the 3rd input wire rod 302, the first input end wire rod 103 and the second input wire rod 203 twine mutually and form the 3rd input wire rod 303, the first input end wire rod 104 and the second input wire rod 204 twine mutually and form the 3rd input wire rod 304, and after finishing those and twining again with its arrangement, the opposite side of ring body in addition, the first output wire rod 111 and the second output wire rod 211 are twined formation the 3rd output wire rod 311 mutually, the first output wire rod 112 and the second output wire rod 212 twine mutually and form the 3rd output wire rod 312, the first output wire rod 113 and the second output wire rod 213 twine mutually and form the 3rd output wire rod 313, the first output wire rod 114 and the second output wire rod 214 twine mutually and form the 3rd output wire rod 314, and after finishing those and twining again with its arrangement (as accompanying drawing 6), after also finishing above-mentioned action, again the 3rd input wire rod 302 and the 3rd output wire rod 311 are twined to form four-input terminal wire rod 402, former the 3rd end input wire rod 301 after the 3rd input wire rod 302 and the 3rd output wire rod 311 twine then change be set as four-input terminal wire rod 401, position and change that 312 changes of former the 3rd output wire rod are displaced to four-input terminal wire rod 401 homonymies are made as four-input terminal wire rod 403, moreover, 303 in former the 3rd input wire rod is displaced to ring body to deviate from the offside place of four-input terminal wire rod 401 and changes and be made as the 4th output wire rod 411, and the 3rd output wire rod 313 promptly with the 3rd input wire rod 304 twine with form the 4th output wire rod 412, the three output wire rods 314 then change be made as the 4th output wire rod 413(such as accompanying drawing 7).

As shown in Figure 8, be the present invention's winding schematic diagram of a preferred embodiment again, find out by knowing among the figure, when being around on the ring body 5a, its first wire rod group 1a begins toward bottom winding ring body 5a by ring body 5a top, pay by ring body 5a lower part with around to the other end time, and the second wire rod group 2a is around in ring body 5a and begins to twine toward top ring body 5a by ring body 5a bottom when going up, with around to the other end time by ring body 5a top expenditure (dotted portion be the bottom around, solid line partly be top loop around).

Claims

1. the method for winding of an electric connector is characterized in that the key step that winds the line on the ring body is:

2. the method for winding of electric connector according to claim 1, it is characterized in that: wherein this ring body is ring-like FERRITE CORE.

3. the method for winding of electric connector according to claim 1 is characterized in that: wherein this four-input terminal wire rod is further constituted through mixing the wire rods of reeling respectively by three.

4. the method for winding of electric connector according to claim 1 is characterized in that: wherein the 4th output wire rod is further constituted through mixing the wire rods of reeling respectively by three.