CN202712661U

CN202712661U - Dual flexible flat cable rack used to manufacture cable

Info

Publication number: CN202712661U
Application number: CN 201220342271
Authority: CN
Inventors: 姚天金
Original assignee: DONGGUAN SANXIN PRECISION MACHINERY Co Ltd
Current assignee: DONGGUAN SANXIN PRECISION MACHINERY Co Ltd
Priority date: 2012-07-13
Filing date: 2012-07-13
Publication date: 2013-01-30
Anticipated expiration: 2022-07-13

Abstract

The utility model discloses a dual flexible flat cable rack used to manufacture a cable, comprising a flexible flat cable rack A and a flexible flat cable rack B. The upper and lower parts of the flexible flat cable rack A are respectively equipped with parallel through holes A which penetrate the front and back parts of the flexible flat cable rack A, the upper and lower parts of the flexible flat cable rack B are respectively equipped with parallel through holes B which penetrate the front and back parts of the flexible flat cable rack B, and the through holes A exactly face the through holes B; or, the upper part of the flexible flat cable rack A is equipped with parallel fastening grooves A penetrating the front and back parts of the flexible flat cable rack A, and the lower part is equipped with through holes A parallel with the fastening grooves A and penetrating the front and back parts of the flexible flat cable rack A; the upper part of the flexible flat cable rack B is equipped with parallel fastening grooves B penetrating the front and back parts of the flexible flat cable rack B, and the lower part is equipped with through holes B parallel with the fastening grooves B and penetrating the front and back parts of the flexible flat cable rack B; the fastening grooves A exactly face the fastening grooves B, and the through holes A exactly face the through holes B. The dual flexible flat cable rack enables the problems to be solved that when a data cable is peeled, cut, tin-plated and welded, a core wire is easy to bend and distort, so that a terminal is in insufficient soldering, omissive soldering and short-circuit, etc.

Description

A kind of double-row coil holder for the cable making

Technical field

The utility model relates to the processing and fabricating technical field of signal transmssion line (such as HDMI, USB, DisplayPort etc.), relates in particular to a kind of double-row coil holder for the cable making.

Background technology

The existing data cable that is used for the electronic installations such as connection notebook, digital camera, mobile phone all is comprised of some metal core wire, when data cable connects other electronic installation by terminal, at first need to remove the peel the insulated hull of data cable, then carry out heart yearn zinc-plated, cut etc. and to utilize after the technique manual welding or pulse welding equipment that the heart yearn of data cable is welded on the terminal.Along with the IT industry product develops towards " frivolous, short and small " increasingly, simultaneously to functional requirement

From strength to strength, all spare parts also must be done ultra-fine and small processing thus, the heart yearn specification of data cable is also by 28AWG(U.S. wire gauge), 30AWG becomes thinner 34AWG, 36AWG, 40AWG, 42AWG, removing the peel, cutting, easily causing terminal the bad qualities such as rosin joint, solder skip and short circuit to occur because of heart yearn bending and distortion during zinc-plated, welding.

Obviously, traditional manual processing technology can't satisfy the processing of present tiny data cable, and production efficiency, product quality are low.

The utility model content

Technical problem to be solved in the utility model provides a kind of double-row coil holder for the cable making, it can overcome the processing difficult problem of present tiny data cable, good solution data cable remove the peel, cut, flexible and distortion causes terminal the quality problem such as rosin joint, solder skip and short circuit to occur because of heart yearn during zinc-plated, welding.

In order to solve the problems of the technologies described above, the first technical scheme content that the utility model adopts is specific as follows:

A kind of double-row coil holder for the cable making, the A creel stand and the B creel stand that arrange before and after comprising, the front portion of the rear portion of A creel stand and B creel stand is spaced from each other by a gap; The upper and lower of described A creel stand is respectively equipped with the parallel A through hole of a row, and the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary, and described A through hole runs through the front and rear portions of A creel stand; The upper and lower of described B creel stand is respectively equipped with the parallel B through hole of a row, and the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary, and described B through hole runs through the front and rear portions of B creel stand; Described A through hole is over against described B through hole.

Need to prove, " the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary " specifically refers to " internal diameter of A through hole must be got the size greater than the heart yearn external diameter of data cable ", and " the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary " be " internal diameter of B through hole must be got the size greater than the heart yearn external diameter of data cable " specifically.

Thereby make things convenient for heart yearn to pass in turn A through hole and B through hole in order better A creel stand and B creel stand to be positioned, preferably, the utility model also comprises a junction; Described connecting portion is arranged in the described gap, and the rear and front end of described connecting portion is fixedly connected with respectively the rear portion of described A creel stand and the front portion of B creel stand; And described A creel stand, connecting portion and the moulding of B creel stand three in one.

Need to prove, described connecting portion is a sheet structure.

Perhaps, preferably, the utility model also comprises a junction; Described connecting portion comprises at least one first connecting portion and at least one second connecting portion; Described gap is between the first connecting portion and the second connecting portion; The rear portion left end of described A creel stand links to each other with the anterior left end of B creel stand by the first connecting portion, and the rear portion right-hand member of described A creel stand links to each other with the anterior right-hand member of B creel stand by the second connecting portion; Described A creel stand, the first connecting portion, B creel stand and the second connecting portion are one-body molded.

Preferably, the quantity of described the first connecting portion and the second connecting portion is respectively two.

Need to prove, described the first connecting portion and the second connecting portion are the bar shaped block structure.

In order to reclaim the B creel stand when data cable is made, preferably, the utility model also comprises a junction; Described connecting portion is in described gap, and described connecting portion comprises the fixture block that stretches out from the rear portion of described A creel stand and is located at the draw-in groove of described B creel stand front portion; The described draw-in groove of described fixture block clamping.

Perhaps, the utility model also comprises a junction; Described connecting portion comprises at least one first clamping apparatus and at least one second clamping apparatus; Described gap is between the first clamping apparatus and the second clamping apparatus; The rear portion left end of described A creel stand connects the anterior left end of B creel stand by the first clamping apparatus; The rear portion right-hand member of described A creel stand connects the anterior right-hand member of B creel stand by the second clamping apparatus.

Preferably, the quantity of described the first clamping apparatus and the second clamping apparatus is respectively two.

Preferably, described the first clamping apparatus comprises the first inserting column that stretches out from the rear portion left end of A creel stand and the anterior left end that is arranged on the B creel stand and the first slot that is complementary with described the first inserting column; Described the first slot of described the first inserting column clamping; Described the second clamping apparatus comprises the second inserting column that stretches out from the rear portion right-hand member of A creel stand and the anterior right-hand member that is arranged on the B creel stand and the second slot that is complementary with described the second inserting column; Described the second slot of described the second inserting column clamping.

In order to make things convenient for staff to separate A creel stand and B creel stand, preferably, the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature.

When the first technical scheme of the present utility model is used for the data cable making, can adopt following step:

(1) crust of removal data cable, expose heart yearn, heart yearn is sequentially arranged and pass its each self-corresponding A through hole and B through hole, realization is fixed on heart yearn on A creel stand and the B creel stand, thereby heart yearn can be straightly makes on A creel stand, the B creel stand and between A creel stand and the B creel stand;

(2) with the gap of B creel stand the insulated hull ring cutting of heart yearn is gone out just to reach the otch of inner lead along the A creel stand;

(3) along axial withdrawal A creel stand and the B creel stand of heart yearn, make the insulated hull of heart yearn be extracted and expose inner wire along otch by the B creel stand;

(4) zinc-plated to the exposed wire of heart yearn between A creel stand and the B creel stand;

(5) block the exposed wire of heart yearn between A creel stand and the B creel stand according to required weld length, abandon or reclaim the B creel stand;

(6) wire that the heart yearn of A creel stand and reservation is exposed is with adaptive terminal grafting and weld.

In the above-mentioned technique because it is straight all to have adopted A creel stand and B creel stand that the heart yearn of cable is stretched in step (1) to step (4), can effectively solve cable remove the peel, cut, the flexible and difficult problem of being out of shape of heart yearn when zinc-plated; And by the corresponding A through hole that arranges of A creel stand and B creel stand and B through hole the heart yearn of data cable is carried out pre-winding displacement and location, the arrangement pitches that obviously also can directly make heart yearn accurately cooperates with solder joint on the adaptive terminal, so inserting terminal all can be realized automated job with welding in the step (6).

In addition, the second technical scheme that the utility model adopts can reach a processing difficult problem that overcomes present tiny data cable equally, good solution data cable remove the peel, cut, flexible and distortion causes terminal the purpose of the quality problem such as rosin joint, solder skip and short circuit to occur because of heart yearn during zinc-plated, welding, its content is specific as follows:

A kind of double-row coil holder for the cable making, the A creel stand and the B creel stand that arrange before and after comprising, the front portion of the rear portion of A creel stand and B creel stand is spaced from each other by a gap; The upper and lower of described A creel stand is respectively equipped with the parallel A through hole of a row, and the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary, and described A through hole runs through the front and rear portions of A creel stand; The upper and lower of described B creel stand is respectively equipped with the parallel B through hole of a row, and the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary, and described B through hole runs through the front and rear portions of B creel stand; Described A through hole is over against described B through hole; The upper and lower of described A creel stand also is respectively equipped with at least one A draw-in groove, and the heart yearn external diameter of the internal diameter of described A draw-in groove and data cable is complementary, and described A draw-in groove runs through the front and rear portions of A creel stand and parallel with described A through hole; The upper and lower of described B creel stand also is respectively equipped with at least one B draw-in groove, and the heart yearn external diameter of the internal diameter of described B draw-in groove and data cable is complementary, and described B draw-in groove runs through the front and rear portions of B creel stand and parallel with described B through hole; Described A draw-in groove is over against described B draw-in groove.

Need to prove, " the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary " specifically refers to " internal diameter of A through hole must be got the size greater than the heart yearn external diameter of data cable ", and " the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary " refers to that specifically " internal diameter of B through hole must be got the size greater than the heart yearn external diameter of data cable." the heart yearn external diameter of the internal diameter of described A draw-in groove and data cable is complementary " specifically refers to " internal diameter of A draw-in groove must be got the size greater than the heart yearn external diameter of data cable ", and " the heart yearn external diameter of the internal diameter of described B draw-in groove and data cable is complementary " specifically refers to " internal diameter of B draw-in groove must be got the size greater than the heart yearn external diameter of data cable ".

Need to prove, the rear portion of described A creel stand can also connect by a junction the front portion of B creel stand.

When the second technical scheme of the present utility model is used for the data cable making, can adopt following step:

(1) crust of removal data cable, expose heart yearn, a part of heart yearn is sequentially arranged and pass its each self-corresponding A through hole and B through hole, again another part heart yearn is passed successively its each self-corresponding A draw-in groove and B draw-in groove, realization is fixed on all heart yearns on A creel stand and the B creel stand, thereby heart yearn can be straightly makes on A creel stand, the B creel stand and between A creel stand and the B creel stand;

In the above-mentioned technique because it is straight all to have adopted A creel stand and B creel stand that the heart yearn of cable is stretched in step (1) to step (4), can effectively solve cable remove the peel, cut, the flexible and difficult problem of being out of shape of heart yearn when zinc-plated; And the B through hole of the A through hole by the A creel stand and A draw-in groove and B creel stand and B draw-in groove carry out pre-winding displacement and location to the heart yearn of data cable, the arrangement pitches that obviously also can directly make heart yearn accurately cooperates with solder joint on the adaptive terminal, so inserting terminal all can be realized automated job with welding in the step (6).

In addition, the third technical scheme that the utility model adopts can reach a processing difficult problem that overcomes present tiny data cable equally, good solution data cable remove the peel, cut, flexible and distortion causes terminal the purpose of the quality problem such as rosin joint, solder skip and short circuit to occur because of heart yearn during zinc-plated, welding, its content is specific as follows:

A kind of double-row coil holder for the cable making, the A creel stand and the B creel stand that arrange before and after comprising, the front portion of the rear portion of A creel stand and B creel stand is spaced from each other by a gap; The top of described A creel stand is provided with the parallel A draw-in groove of a row, and the heart yearn external diameter of the internal diameter of described A draw-in groove and data cable is complementary, and described A draw-in groove runs through the front and rear portions of A creel stand; The top of described B creel stand is provided with the parallel B draw-in groove of a row, and the heart yearn external diameter of the internal diameter of described B draw-in groove and data cable is complementary, and described B draw-in groove runs through the front and rear portions of B creel stand; Described A draw-in groove is over against described B draw-in groove; The bottom of described A creel stand also is provided with the parallel A through hole of a row, and the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary, and described A through hole runs through the front and rear portions of A creel stand and parallel with described A draw-in groove; The bottom of described B creel stand also is provided with the parallel B through hole of a row, and the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary, and described B through hole runs through the front and rear portions of B creel stand and parallel with described B draw-in groove; Described A through hole is over against described B through hole.

In order to make things convenient for staff to separate A creel stand and B creel stand, preferably, the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A draw-in groove quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature.

When the third technical scheme of the present utility model is used for the data cable making, can adopt following step:

(1) crust of removal data cable, expose heart yearn, heart yearn is divided into up and down two parts, the heart yearn of the first half is sequentially arranged and is passed its each self-corresponding A draw-in groove and B draw-in groove, heart yearn with Lower Half passes its each self-corresponding A through hole and B through hole successively again, realization is fixed on all heart yearns on A creel stand and the B creel stand, thereby heart yearn can be straightly makes on A creel stand, the B creel stand and between A creel stand and the B creel stand;

Compared with prior art, the utility model has produced following beneficial effect:

1, to have solved the heart yearn specification be 26AWG, 28AWG, 30AWG, 32AWG, 34AWG, 36AWG, 40AWG, 42AWG to the double-row coil holder of making for cable of the present utility model, even heart yearn is more tiny, arrange more closely data cable remove the peel, cut, flexible and distortion causes terminal the problem of the defectives such as rosin joint, solder skip and short circuit to occur because of heart yearn during zinc-plated, welding, but also can realize automated job.

2, the split setting of A creel stand and B creel stand makes disconnecting the connection between A creel stand and the B creel stand and finishing when blocking the wire that heart yearn is exposed between A creel stand and the B creel stand according to required weld length, can also reclaim the B creel stand, is conducive to environmental protection.

Description of drawings

The utility model will be further described below in conjunction with the drawings and specific embodiments:

Fig. 1 is the structural representation of the utility model embodiment one;

Fig. 2 is the structural representation of the utility model embodiment three;

Fig. 3 is the structural representation of the utility model embodiment four;

Fig. 4 is the structural representation of the utility model embodiment five;

Fig. 5 is the A creel stand structural representation of the utility model embodiment seven;

Fig. 6 is the B creel stand structural representation of the utility model embodiment seven;

Fig. 7 is the structural representation of the utility model embodiment 13;

Fig. 8 is the structural representation of the utility model embodiment 14;

Structural representation when Fig. 9 is the utility model embodiment five work;

Figure 10 is the structural representation of the utility model embodiment 23;

Figure 11 is the structural representation of the utility model embodiment 24;

Figure 12 is the structural representation of the utility model embodiment 25;

Figure 13 is the structural representation of the utility model embodiment 26.

Embodiment

The first technical scheme of the present utility model has comprised 14 kinds of execution modes, and they are followed successively by embodiment one, embodiment two, embodiment three, embodiment four, embodiment five, embodiment six, embodiment seven, embodiment eight, embodiment nine, embodiment ten, embodiment 11, embodiment 12, embodiment 13 and embodiment 14.The below carries out concrete description to these 14 kinds of execution modes respectively, in order to allow those skilled in the art understand inventive concept of the present utility model:

Embodiment one

As shown in Figure 1, it is the first execution mode of the utility model the first technical scheme, the double-row coil holder that should be used for the cable making comprises A creel stand 1 and the B creel stand 2 that front and back arrange, the front portion of the rear portion of A creel stand 1 and B creel stand 2 is spaced from each other by a gap 3, and the rear portion of A creel stand 1 connects the front portion of B creel stand 2 by a junction; The upper and lower of described A creel stand 1 is respectively equipped with the parallel A through hole 11 of a row, and the heart yearn external diameter of the internal diameter of described A through hole 11 and data cable is complementary, and described A through hole 11 runs through the front and rear portions of A creel stand 1; The upper and lower of described B creel stand 2 is respectively equipped with the parallel B through hole 21 of a row, and the heart yearn external diameter of the internal diameter of described B through hole 21 and data cable is complementary, and described B through hole 21 runs through the front and rear portions of B creel stand 2; Described A through hole 11 is over against described B through hole 21.

Need to prove, " the heart yearn external diameter of the internal diameter of described A through hole 11 and data cable is complementary " specifically refers to " internal diameter of A through hole 11 must be got the size greater than the heart yearn external diameter of data cable ", and " the heart yearn external diameter of the internal diameter of described B through hole 21 and data cable is complementary " be " internal diameter of B through hole 21 must be got the size greater than the heart yearn external diameter of data cable " specifically.

Described connecting portion is arranged in the described gap 3, and the rear and front end of described connecting portion is fixedly connected with respectively the rear portion of described A creel stand 1 and the front portion of B creel stand 2; And described A creel stand 1, connecting portion 4 and the 2 three in one moulding of B creel stand.Need to prove, described connecting portion 4 is a sheet structure.

Embodiment two

The second execution mode of the utility model the first scheme, the structure of its structure and the first execution mode is basic identical, but it is that from the difference of the first execution mode the structure of connecting portion is different, is specially: described connecting portion comprises at least one first connecting portion and at least one second connecting portion; Described gap is between the first connecting portion and the second connecting portion; The rear portion left end of described A creel stand links to each other with the anterior left end of B creel stand by the first connecting portion, and the rear portion right-hand member of described A creel stand links to each other with the anterior right-hand member of B creel stand by the second connecting portion; Described A creel stand, the first connecting portion, B creel stand and the second connecting portion are one-body molded.Need to prove, described the first connecting portion and the second connecting portion are the bar shaped block structure.Particularly, the quantity of described the first connecting portion and the second connecting portion is respectively one.

Embodiment three

As shown in Figure 2, it is the third execution mode of the utility model the first scheme, the structure of its structure and embodiment one is basic identical, but the difference of it and embodiment one is: the upper end of described A creel stand 1 and lower bottom end are respectively equipped with the A wire casing 12 with described A through hole 11 quadratures; The upper end of described B creel stand 2 and lower bottom end are respectively equipped with the B wire casing 22 with described B through hole 21 quadratures, make things convenient for staff to separate A creel stand 1 and B creel stand 2.

Embodiment four

As shown in Figure 3, the 4th kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment two is basic identical, specifically: the double-row coil holder that should be used for the cable making comprises A creel stand 1 and the B creel stand 2 that front and back arrange, the front portion of the rear portion of A creel stand 1 and B creel stand 2 is spaced from each other by a gap 3, and the rear portion of A creel stand 1 connects the front portion of B creel stand 2 by a junction; The upper and lower of described A creel stand 1 is respectively equipped with the parallel A through hole 11 of a row, and the heart yearn external diameter of the internal diameter of described A through hole 11 and data cable is complementary, and described A through hole 11 runs through the front and rear portions of A creel stand 1; The upper and lower of described B creel stand 2 is respectively equipped with the parallel B through hole 21 of a row, and the heart yearn external diameter of the internal diameter of described B through hole 21 and data cable is complementary, and described B through hole 21 runs through the front and rear portions of B creel stand 2; Described A through hole 11 is over against described B through hole 21.

Described connecting portion 4 comprises at least one first connecting portion 41 and at least one second connecting portion 42; Described gap 3 is between the first connecting portion 41 and the second connecting portion 42; The rear portion left end of described A creel stand 2 links to each other with the anterior left end of B creel stand 2 by the first connecting portion 41, and the rear portion right-hand member of described A creel stand 2 links to each other with the anterior right-hand member of B creel stand 2 by the second connecting portion 42; Described A creel stand 1, the first connecting portion 41, B creel stand 2 and the second connecting portion 42 4 are one-body molded.Need to prove, described the first connecting portion 41 and the second connecting portion 42 are the bar shaped block structure.

Particularly, the quantity of described the first connecting portion 41 and the second connecting portion 42 is respectively one.

But the difference of it and embodiment two is: the upper end of described A creel stand 1 and lower bottom end are respectively equipped with the A wire casing 12 with described A through hole 11 quadratures; The upper end of described B creel stand 2 and lower bottom end are respectively equipped with the B wire casing 22 with described B through hole 21 quadratures, make things convenient for staff to separate A creel stand 1 and B creel stand 2.

Embodiment five

As shown in Figure 4, be the 5th kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment two is basic identical, but the difference of it and embodiment two is: the quantity of described the first connecting portion 41 and the second connecting portion 42 is respectively two.

Embodiment six

The 6th kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment five is basic identical, but the difference of it and embodiment five is: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature, make things convenient for staff to separate A creel stand and B creel stand.

Embodiment seven

As shown in Figure 5 and Figure 6, the 7th kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment one is basic identical, but it is that from the difference of embodiment one structure of connecting portion is different: described connecting portion 4 is arranged in described gap 3, and described connecting portion 4 comprises the fixture block 43 that stretches out from the rear portion of described A creel stand 1 and the draw-in groove 44 of being located at described B creel stand 2 front portions; The described draw-in groove 44 of described fixture block 43 clampings, make A creel stand 1 can with 2 splits of B creel stand, thereby can when data cable is made, reclaim B creel stand 2.

Embodiment eight

The 8th kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment one is basic identical, but it is that from the difference of embodiment one structure of connecting portion is different: described connecting portion comprises at least one first clamping apparatus and at least one second clamping apparatus; Described gap is between the first clamping apparatus and the second clamping apparatus; The rear portion left end of described A creel stand connects the anterior left end of B creel stand by the first clamping apparatus; The rear portion right-hand member of described A creel stand connects the anterior right-hand member of B creel stand by the second clamping apparatus.

Particularly, the quantity of described the first clamping apparatus and the second clamping apparatus is respectively one.

Particularly, described the first clamping apparatus comprises the first inserting column that stretches out from the rear portion left end of A creel stand and the anterior left end that is arranged on the B creel stand and the first slot that is complementary with described the first inserting column; Described the first slot of described the first inserting column clamping; Described the second clamping apparatus comprises the second inserting column that stretches out from the rear portion right-hand member of A creel stand and the anterior right-hand member that is arranged on the B creel stand and the second slot that is complementary with described the second inserting column; Described the second slot of described the second inserting column clamping, make the A creel stand can with the split of B creel stand, thereby can when data cable is made, reclaim the B creel stand.

Embodiment nine

The 9th kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment eight is basic identical, but the difference of it and embodiment eight is: the quantity of described the first clamping apparatus and the second clamping apparatus is respectively two.

Embodiment ten

The tenth kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment seven is basic identical, but the difference of it and embodiment seven is: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature, can make things convenient for staff to separate A creel stand and B creel stand.

Embodiment 11

The 8th kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment eight is basic identical, but the difference of it and embodiment eight is: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature, can make things convenient for staff to separate A creel stand and B creel stand.

Embodiment 12

The 12 kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment nine is basic identical, but the difference of it and embodiment nine is: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature, can make things convenient for staff to separate A creel stand and B creel stand.

Embodiment 13

As shown in Figure 7, the 13 kind of execution mode of the utility model the first scheme, should be used for the double-row coil holder that cable is made, the A creel stand 1 and the B creel stand 2 that arrange before and after comprising, the front portion of the rear portion of A creel stand 1 and B creel stand 2 is spaced from each other by a gap 3; The upper and lower of described A creel stand 1 is respectively equipped with the parallel A through hole 11 of a row, and the heart yearn external diameter of the internal diameter of described A through hole 11 and data cable is complementary, and described A through hole 11 runs through the front and rear portions of A creel stand 1; The upper and lower of described B creel stand 2 is respectively equipped with the parallel B through hole 21 of a row, and the heart yearn external diameter of the internal diameter of described B through hole 21 and data cable is complementary, and described B through hole 21 runs through the front and rear portions of B creel stand 2; Described A through hole 11 is over against described B through hole 21.

Embodiment 14

As shown in Figure 8, the 14 kind of execution mode of the utility model the first scheme, the structure of its structure and embodiment 13 is basic identical, but the difference of it and embodiment 13 is: the upper end of described A creel stand 1 and lower bottom end are respectively equipped with the A wire casing 12 with described A through hole 11 quadratures; The upper end of described B creel stand 2 and lower bottom end are respectively equipped with the B wire casing 22 with described B through hole 21 quadratures, can make things convenient for staff to separate A creel stand 1 and B creel stand 2.

As shown in Figure 9, be the working state structure schematic diagram of embodiment five, the below can adopt following step when the first technical scheme of the present utility model (comprising above-mentioned 14 kinds of execution modes) is used for data cable and makes as example illustrates take embodiment five:

(1) crust of removal data cable, expose heart yearn 5, heart yearn 5 is sequentially arranged and pass its each self-corresponding A through hole 11 and B through hole 21, realization is fixed on heart yearn 5 on A creel stand 1 and the B creel stand 2, thereby heart yearn 5 can be straightly makes on A creel stand 1, the B creel stand 2 and between A creel stand 1 and the B creel stand 2;

(2) with the gap 3 of B creel stand 2 the insulated hull ring cutting of heart yearn 5 is gone out just to reach the otch of inner lead along A creel stand 1;

(3) connection between disconnection A creel stand 1 and the B creel stand 2 along axial withdrawal A creel stand 1 and the B creel stand 2 of heart yearn 5, makes the insulated hull of heart yearn 5 be extracted and expose inner wire along otch by B creel stand 2;

(4) zinc-plated to the exposed wire of heart yearn between A creel stand 1 and the B creel stand 2;

(5) block the exposed wire of heart yearn between A creel stand 1 and the B creel stand 2 according to required weld length, abandon or reclaim B creel stand 2;

(6) wire that A creel stand 1 and the heart yearn reserved is exposed is with adaptive terminal grafting and weld.

In the above-mentioned technique because it is straight all to have adopted A creel stand 1 and B creel stand 2 that the heart yearn 5 of cable is stretched in step (1) to step (4), can effectively solve cable remove the peel, cut, the flexible and difficult problem of being out of shape of heart yearn 5 when zinc-plated; And carry out pre-winding displacement and location by the corresponding A through hole 11 that arranges of A creel stand 1 and B creel stand and the heart yearn 5 of 21 pairs of data cables of B through hole, the arrangement pitches that obviously also can directly make heart yearn 5 accurately cooperates with solder joint on the adaptive terminal, so inserting terminal all can be realized automated job with welding in the step (6).

The second technical scheme of the present utility model has comprised ten kinds of execution modes, and they are followed successively by 15 kinds of embodiment, embodiment 16, embodiment 17, embodiment 18, embodiment 19, embodiment 20, embodiment 21, embodiment 22, embodiment 23 and embodiment 24.The below carries out concrete description to these ten kinds of execution modes respectively, in order to allow those skilled in the art understand inventive concept of the present utility model:

Embodiment 15

Embodiment 15 is the first execution modes of the utility model the second technical scheme.The double-row coil holder that should be used for the cable making comprises A creel stand and the B creel stand that front and back arrange, and the front portion of the rear portion of A creel stand and B creel stand is spaced from each other by a gap, and the rear portion of A creel stand connects the front portion of B creel stand by a junction; The upper and lower of described A creel stand is respectively equipped with the parallel A through hole of a row, and the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary, and described A through hole runs through the front and rear portions of A creel stand; The upper and lower of described B creel stand is respectively equipped with the parallel B through hole of a row, and the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary, and described B through hole runs through the front and rear portions of B creel stand; Described A through hole is over against described B through hole; The upper and lower of described A creel stand also is respectively equipped with at least one A draw-in groove, and the heart yearn external diameter of the internal diameter of described A draw-in groove and data cable is complementary, and described A draw-in groove runs through the front and rear portions of A creel stand and parallel with described A through hole; The upper and lower of described B creel stand also is respectively equipped with at least one B draw-in groove, and the heart yearn external diameter of the internal diameter of described B draw-in groove and data cable is complementary, and described B draw-in groove runs through the front and rear portions of B creel stand and parallel with described B through hole; Described A draw-in groove is over against described B draw-in groove.

Particularly, described connecting portion comprises at least one first connecting portion and at least one second connecting portion; Described gap is between the first connecting portion and the second connecting portion; The rear portion left end of described A creel stand links to each other with the anterior left end of B creel stand by the first connecting portion, and the rear portion right-hand member of described A creel stand links to each other with the anterior right-hand member of B creel stand by the second connecting portion; Described A creel stand, the first connecting portion, B creel stand and the second connecting portion are one-body molded.Need to prove, described the first connecting portion and the second connecting portion are the bar shaped block structure.Particularly, the quantity of described the first connecting portion and the second connecting portion is respectively one.

Embodiment 16

Embodiment 16 is the second execution modes of the utility model the second technical scheme, the structure of its structure and embodiment 15 is basic identical, but the difference of it and embodiment 15 is: the quantity of described the first connecting portion and the second connecting portion is respectively two.

Embodiment 17

Embodiment 17 is the third execution modes of the utility model the second technical scheme, the structure of its structure and embodiment 15 is basic identical, but the difference of it and embodiment 15 is: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature, make things convenient for staff to separate A creel stand and B creel stand.

Embodiment 18

Embodiment 18 is the 4th kind of execution modes of the utility model the second technical scheme, the structure of its structure and embodiment 16 is basic identical, but the difference of it and embodiment 16 is: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature, make things convenient for staff to separate A creel stand and B creel stand.

Embodiment 19

Embodiment 19 is the 5th kind of execution modes of the utility model the second technical scheme, the structure of its structure and embodiment 15 is basic identical, but it is that from the difference of embodiment 13 structure of connecting portion is different, is specially: described connecting portion comprises at least one first clamping apparatus and at least one second clamping apparatus; Described gap is between the first clamping apparatus and the second clamping apparatus; The rear portion left end of described A creel stand connects the anterior left end of B creel stand by the first clamping apparatus; The rear portion right-hand member of described A creel stand connects the anterior right-hand member of B creel stand by the second clamping apparatus.

Embodiment 20

Embodiment 20 is the 6th kind of execution modes of the utility model the second technical scheme, the structure of its structure and embodiment 19 is basic identical, but the difference of it and embodiment 19 is: the quantity of described the first clamping apparatus and the second clamping apparatus is respectively two.

Embodiment 21

Embodiment 21 is the 7th kind of execution mode of the utility model the second technical scheme, this is identical for its structure and embodiment nonadecyl, but the difference of it and embodiment 19 is: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature, make things convenient for staff to separate A creel stand and B creel stand.

Embodiment 22

Embodiment 22 is the 8th kind of execution modes of the utility model the second technical scheme, its structure and embodiment 20 are basic identical, but the difference of it and embodiment 20 is: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature, make things convenient for staff to separate A creel stand and B creel stand.

Embodiment 23

As shown in figure 10, the 9th kind of execution mode of the utility model the second technical scheme, the double-row coil holder that should be used for the cable making comprises A creel stand 1 and the B creel stand 2 that front and back arrange, and the front portion of the rear portion of A creel stand 1 and B creel stand 2 is spaced from each other by a gap 3; The upper and lower of described A creel stand 1 is respectively equipped with the parallel A through hole 11 of a row, and the heart yearn external diameter of the internal diameter of described A through hole 11 and data cable is complementary, and described A through hole 11 runs through the front and rear portions of A creel stand 1; The upper and lower of described B creel stand 2 is respectively equipped with the parallel B through hole 21 of a row, and the heart yearn external diameter of the internal diameter of described B through hole 21 and data cable is complementary, and described B through hole 21 runs through the front and rear portions of B creel stand 2; Described A through hole 11 is over against described B through hole 21; The upper and lower of described A creel stand 1 also is respectively equipped with at least one A draw-in groove 13, and the heart yearn external diameter of the internal diameter of described A draw-in groove 13 and data cable is complementary, and described A draw-in groove 13 runs through the front and rear portions of A creel stand 1 and parallel with described A through hole 11; The upper and lower of described B creel stand 2 also is respectively equipped with at least one B draw-in groove 23, and the heart yearn external diameter of the internal diameter of described B draw-in groove 23 and data cable is complementary, and described B draw-in groove 23 runs through the front and rear portions of B creel stand 2 and parallel with described B through hole 21; Described A draw-in groove 13 is over against described B draw-in groove 23.

Embodiment 24

As shown in figure 11, the tenth kind of execution mode of the utility model the second technical scheme, this is identical for its structure and embodiment tricosyl, but the difference of it and embodiment 23 is: the upper end of described A creel stand 1 and lower bottom end are respectively equipped with the A wire casing 12 with described A through hole 11 quadratures; The upper end of described B creel stand 2 and lower bottom end are respectively equipped with the B wire casing 22 with described B through hole 21 quadratures, make things convenient for staff to separate A creel stand 1 and B creel stand 2.

Need to prove, for embodiment 15 to embodiment 24, need to prove, " the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary " specifically refers to " internal diameter of A through hole must be got the size greater than the heart yearn external diameter of data cable ", and " the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary " refers to that specifically " internal diameter of B through hole must be got the size greater than the heart yearn external diameter of data cable." the heart yearn external diameter of the internal diameter of described A draw-in groove and data cable is complementary " specifically refers to " internal diameter of A draw-in groove must be got the size greater than the heart yearn external diameter of data cable ", and " the heart yearn external diameter of the internal diameter of described B draw-in groove and data cable is complementary " specifically refers to " internal diameter of B draw-in groove must be got the size greater than the heart yearn external diameter of data cable ".

When the utility model embodiment 15 to embodiment 24 is applied in data cable and makes, also can adopt the same effect of following step to reach and can reach when embodiment one to embodiment 14 being applied in the data cable making:

(1) crust of removal data cable, expose heart yearn, heart yearn is sequentially arranged and by its insulated hull a part of heart yearn is fixed one by one in the B through hole of the A of A creel stand through hole and B creel stand, also another part heart yearn is fixed one by one in the B draw-in groove of the A of A creel stand draw-in groove and B creel stand simultaneously, thus make on A creel stand and the B creel stand and between heart yearn straight;

(3) along axial withdrawal A creel stand and the B creel stand of heart yearn, make the insulated hull of heart yearn be transferred to and expose inner wire along otch by the B creel stand;

The third technical scheme of the present utility model has comprised two kinds of execution modes, and they are followed successively by embodiment 25 and embodiment 26.The below carries out concrete description to these two kinds of execution modes respectively, in order to allow those skilled in the art understand inventive concept of the present utility model:

Embodiment 25

As shown in figure 12, it is the first execution mode of the third technical scheme of the utility model, should be used for the double-row coil holder that cable is made, the A creel stand 1 and the B creel stand 2 that arrange before and after comprising, the front portion of the rear portion of A creel stand 2 and B creel stand 2 is spaced from each other by a gap 3; The top of described A creel stand 1 is provided with the parallel A draw-in groove 13 of a row, and the heart yearn external diameter of the internal diameter of described A draw-in groove 13 and data cable is complementary, and described A draw-in groove 13 runs through the front and rear portions of A creel stand 1; The top of described B creel stand 2 is provided with the parallel B draw-in groove 23 of a row, and the heart yearn external diameter of the internal diameter of described B draw-in groove 23 and data cable is complementary, and described B draw-in groove 23 runs through the front and rear portions of B creel stand 2; Described A draw-in groove 13 is over against described B draw-in groove 23; The bottom of described A creel stand 1 also is provided with the parallel A through hole 11 of a row, and the heart yearn external diameter of the internal diameter of described A through hole 11 and data cable is complementary, and described A through hole 11 runs through the front and rear portions of A creel stand 1 and parallel with described A draw-in groove 13; The bottom of described B creel stand 2 also is provided with the parallel B through hole 21 of a row, and the heart yearn external diameter of the internal diameter of described B through hole 21 and data cable is complementary, and described B through hole 21 runs through the front and rear portions of B creel stand 2 and parallel with described B draw-in groove 23; Described A through hole 11 is over against described B through hole 21.

Need to prove, " the heart yearn external diameter of the internal diameter of described A through hole 11 and data cable is complementary " specifically refers to " internal diameter of A through hole 11 must be got the size greater than the heart yearn external diameter of data cable ", and " the heart yearn external diameter of the internal diameter of described B through hole 21 and data cable is complementary " refers to that specifically " internal diameter of B through hole 21 must be got the size greater than the heart yearn external diameter of data cable." the heart yearn external diameter of the internal diameter of described A draw-in groove 13 and data cable is complementary " specifically refers to " internal diameter of A draw-in groove 13 must be got the size greater than the heart yearn external diameter of data cable ", and " the heart yearn external diameter of the internal diameter of described B draw-in groove 23 and data cable is complementary " specifically refers to " internal diameter of B draw-in groove 23 must be got the size greater than the heart yearn external diameter of data cable ".

Embodiment 26

As shown in figure 13, it is the second execution mode of the third technical scheme of the utility model, its structure is identical with embodiment 25 substantially, but the difference of it and embodiment 25 is: the upper end of described A creel stand 1 and lower bottom end are respectively equipped with the A wire casing 12 with described A through hole 11 quadratures; The upper end of described B creel stand 2 and lower bottom end are respectively equipped with the B wire casing 22 with described B through hole 21 quadratures, make things convenient for staff to separate A creel stand 1 and B creel stand 2, make things convenient for staff to separate A creel stand and B creel stand.

For a person skilled in the art, can obtain other various corresponding changes and distortion according to structure and the principle that the utility model discloses, and these all changes and distortion all belong to protection category of the present utility model.

Claims

1. one kind is used for the double-row coil holder that cable is made, and it is characterized in that: the A creel stand and the B creel stand that arrange before and after comprising, and the front portion of the rear portion of A creel stand and B creel stand is spaced from each other by a gap; The upper and lower of described A creel stand is respectively equipped with the parallel A through hole of a row, and the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary, and described A through hole runs through the front and rear portions of A creel stand; The upper and lower of described B creel stand is respectively equipped with the parallel B through hole of a row, and the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary, and described B through hole runs through the front and rear portions of B creel stand; Described A through hole is over against described B through hole.

2. the double-row coil holder for the cable making as claimed in claim 1 is characterized in that: also comprise a junction; Described connecting portion is arranged in the described gap, and the rear and front end of described connecting portion is fixedly connected with respectively the rear portion of described A creel stand and the front portion of B creel stand; And described A creel stand, connecting portion and the moulding of B creel stand three in one.

3. the double-row coil holder for the cable making as claimed in claim 1 is characterized in that: also comprise a junction; Described connecting portion comprises at least one first connecting portion and at least one second connecting portion; Described gap is between the first connecting portion and the second connecting portion; The rear portion left end of described A creel stand links to each other with the anterior left end of B creel stand by the first connecting portion, and the rear portion right-hand member of described A creel stand links to each other with the anterior right-hand member of B creel stand by the second connecting portion; Described A creel stand, the first connecting portion, B creel stand and the second connecting portion are one-body molded.

4. the double-row coil holder of making for cable as claimed in claim 3, it is characterized in that: the quantity of described the first connecting portion and the second connecting portion is respectively two.

5. the double-row coil holder for the cable making as claimed in claim 1 is characterized in that: also comprise a junction; Described connecting portion is in described gap, and described connecting portion comprises the fixture block that stretches out from the rear portion of described A creel stand and is located at the draw-in groove of described B creel stand front portion; The described draw-in groove of described fixture block clamping.

6. the double-row coil holder for the cable making as claimed in claim 1 is characterized in that: also comprise a junction; Described connecting portion comprises at least one first clamping apparatus and at least one second clamping apparatus; Described gap is between the first clamping apparatus and the second clamping apparatus; The rear portion left end of described A creel stand connects the anterior left end of B creel stand by the first clamping apparatus; The rear portion right-hand member of described A creel stand connects the anterior right-hand member of B creel stand by the second clamping apparatus.

7. the double-row coil holder of making for cable as claimed in claim 6, it is characterized in that: the quantity of described the first clamping apparatus and the second clamping apparatus is respectively two.

8. the double-row coil holder of making for cable as claimed in claim 6 is characterized in that: described the first clamping apparatus comprises the first inserting column that stretches out from the rear portion left end of A creel stand and the anterior left end that is arranged on the B creel stand and the first slot that is complementary with described the first inserting column; Described the first slot of described the first inserting column clamping; Described the second clamping apparatus comprises the second inserting column that stretches out from the rear portion right-hand member of A creel stand and the anterior right-hand member that is arranged on the B creel stand and the second slot that is complementary with described the second inserting column; Described the second slot of described the second inserting column clamping.

9. such as any one described double-row coil holder for the cable making of claim 1-8, it is characterized in that: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature.

10. one kind is used for the double-row coil holder that cable is made, and it is characterized in that: the A creel stand and the B creel stand that arrange before and after comprising, and the front portion of the rear portion of A creel stand and B creel stand is spaced from each other by a gap; The upper and lower of described A creel stand is respectively equipped with the parallel A through hole of a row, and the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary, and described A through hole runs through the front and rear portions of A creel stand; The upper and lower of described B creel stand is respectively equipped with the parallel B through hole of a row, and the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary, and described B through hole runs through the front and rear portions of B creel stand; Described A through hole is over against described B through hole; The upper and lower of described A creel stand also is respectively equipped with at least one A draw-in groove, and the heart yearn external diameter of the internal diameter of described A draw-in groove and data cable is complementary, and described A draw-in groove runs through the front and rear portions of A creel stand and parallel with described A through hole; The upper and lower of described B creel stand also is respectively equipped with at least one B draw-in groove, and the heart yearn external diameter of the internal diameter of described B draw-in groove and data cable is complementary, and described B draw-in groove runs through the front and rear portions of B creel stand and parallel with described B through hole; Described A draw-in groove is over against described B draw-in groove.

11. the double-row coil holder for the cable making as claimed in claim 10, it is characterized in that: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A through hole quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature.

12. one kind is used for the double-row coil holder that cable is made, it is characterized in that: the A creel stand and the B creel stand that arrange before and after comprising, the front portion of the rear portion of A creel stand and B creel stand is spaced from each other by a gap; The top of described A creel stand is provided with the parallel A draw-in groove of a row, and the heart yearn external diameter of the internal diameter of described A draw-in groove and data cable is complementary, and described A draw-in groove runs through the front and rear portions of A creel stand; The top of described B creel stand is provided with the parallel B draw-in groove of a row, and the heart yearn external diameter of the internal diameter of described B draw-in groove and data cable is complementary, and described B draw-in groove runs through the front and rear portions of B creel stand; Described A draw-in groove is over against described B draw-in groove; The bottom of described A creel stand also is provided with the parallel A through hole of a row, and the heart yearn external diameter of the internal diameter of described A through hole and data cable is complementary, and described A through hole runs through the front and rear portions of A creel stand and parallel with described A draw-in groove; The bottom of described B creel stand also is provided with the parallel B through hole of a row, and the heart yearn external diameter of the internal diameter of described B through hole and data cable is complementary, and described B through hole runs through the front and rear portions of B creel stand and parallel with described B draw-in groove; Described A through hole is over against described B through hole.

13. the double-row coil holder for the cable making as claimed in claim 12, it is characterized in that: the upper end of described A creel stand and lower bottom end are respectively equipped with the A wire casing with described A draw-in groove quadrature; The upper end of described B creel stand and lower bottom end are respectively equipped with the B wire casing with described B through hole quadrature.