CN202034617U - Magnetic electric connector structure - Google Patents

Abstract

The utility model provides a magnetic electric connector structure, including first connector and second connector, a plurality of first holding channels are arranged on the first connector in a penetrating way, one end of a plurality of magnetic elements can be embedded into the corresponding first holding channel through one side surface, and one end of a plurality of first connecting terminals can extend into the corresponding first holding channel and lean against the other end of the corresponding magnetic element, a side surface of the second connector is provided with a magnetic conductive sheet which is arranged with a plurality of second holding channels in a penetrating way, a plurality of second connecting terminals can be respectively held in the corresponding second holding channels, and under the condition that the magnetic conductive sheet is attracted by the magnetic force of the magnetic elements and is attached to the other side surface of the first insulating shell, the magnetic conductive sheet leans against the end of the corresponding magnetic element to form electric conduction, and the magnetic attraction between the magnetic elements and the magnetic conductive sheet is utilized, the first connector and the second connector can be firmly electrically connected into a whole, so that the two electrical products can transmit electrical signals to each other through the first and second connectors.

Description

The magnetic electric connector structure

Technical field

The utility model relates to a kind of magnetic electric connector structure, comprise one first connector and one second connector, be embedded with a plurality of magnetic elements on one side of this first connector, these magnetic element one ends can expose out through the another side of this first insulation shell, and these magnetic elements in addition end respectively with an end of many first splicing ears formation electrically conducting that leans, be embedded with many second splicing ears in this second connector, the one side is provided with a magnetic conduction sheet, these second splicing ears can be passed by a side of this second connector, be pasted to be subjected to the magnetic attraction of these magnetic elements under the situation of another side of this first insulation shell at this magnetic conduction sheet, respectively against an end that contacts to these magnetic elements, and at second splicing ear, form electrically conducting between the magnetic element and first splicing ear, second splicing ear and first splicing ear are electrically connected mutually; So, owing to only by magnetic force absorption, be integral between this first and second connector, therefore when this first or second connector is subjected to rapid external force collision and be electrically connected, should be able to separate easily, and the unlikely structure of this first or second connector that makes is damaged because of pullling.

Background technology

See also traditional connector 10 shown in Figure 1, it mainly comprises a female connectors 11 and a public connector 12, this female connectors 11 is installed on the computer 14, and be electrically connected mutually with this computer 14, the depression configuration in it and the configuration of this public connector 12 are complementary, with can ccontaining this public connector 12 and be electrically connected, this public connector 12 is convexly equipped with the end at a jockey 13, and be electrically connected mutually with this jockey 13, after being inserted into this female connectors 11 when this public connector 12,13 of this computer 14 and this jockeys can see through this public connector 12 and being connected of female connectors 11 and transmit electric signal mutually.

Yet, because this public connector 12 is pegged graft and is positioned to the female connectors 11 that configuration is complementary, and be electrically connected mutually with this computer 14, therefore working as this public connector 12 or jockey 13 is subjected to rapid external force collision or pulls (as: other people pass by and kick accidentally or pull), when perhaps being subjected to the external force vertical with the direction of pegging graft, this public connector 12 also can't separate immediately easily, so will make this computer 14 along with the collision of this public connector 12 or jockey 13 or pull direction and fly out or fall, and make computer 14 be subjected to serious damage.

For solving this problem, there is the dealer to develop a kind of traditional magnetic connector; See also traditional magnetic connector 20 shown in Figure 2, it mainly comprises a magnetic female connectors 21 and a magnetic public connector 22, wherein this magnetic female connectors 21 and this magnetic public connector 22 can be connected and be integral, and mutual electrically conducting, wherein a side of this magnetic female connectors 21 is provided with one first magnet 211, and the position of contiguous this first magnet 211 is concaved with two first splicing ears 212 on the one side, and respectively this first splicing ear 212 is connected with one first electric signal line 213 respectively; One side of this magnetic public connector 22 is provided with one second magnet 221, this second magnet 221 is corresponding with first magnet 211, and magnetic absorption each other, and the position male of contiguous this second magnet 221 is provided with 2 second splicing ears 222 on the side of this magnetic public connector 22, respectively this second splicing ear 222 is corresponding with this first splicing ear 212, the one end is electrically connected mutually with a spring 223 respectively, and together be placed in the storage tank 225 on the side of this magnetic public connector 22 with this spring 223, one end of this second splicing ear 222 is connected with one second electric signal line 224 via this spring 223, its in addition end then can be inserted in the first corresponding splicing ear 212, with at this second electric signal line 224, spring 223, second splicing ear 222,213 of first splicing ear 212 and first electric signal lines form the electrically conducting state; So, owing to be respectively equipped with one group of first magnet 211 and second magnet 221 of magnetic absorption mutually on this magnetic female connectors 21 and the magnetic public connector 22, the user can and interconnect these magnetic public connector 22 close magnetic female connectors 21, to utilize the magnetic attracting force of 221 of this first magnet 211 and second magnet, this magnetic female connectors 21 and magnetic public connector 22 can firmly be electrically connected be integral, and transmit electric signal mutually; So, even if this magnetic female connectors 21 or magnetic public connector 22 are subjected to rapid external force collision, also can separate easily, and reason is not pullled and is damaged.

Though aforesaid traditional magnetic connector 20 is extensively used because of easy to use, on using, reality still exists disappearance; For example, no matter be magnetic female connectors 21 or magnetic public connector 22, all must splicing ear and magnet be set respectively at the diverse location on the one side, therefore can significantly increase the volume of traditional magnetic connector 20, the electric product that order is assembled with traditional magnetic connector 20 is subject to the bulkiness of traditional magnetic connector 20, and can't reach more compact purpose.

Therefore, for solving the aforementioned conventional magnetic connector because of must splicing ear and magnet being set respectively at the diverse location on the side of magnetic female connectors 21 or magnetic public connector 22, and significantly increase the problem of its volume, how to design a kind of magnetic electric connector structure of innovation, not only comprise one first connector and one second connector, and on a side of this first connector, be embedded a plurality of magnetic elements, the another side that makes these magnetic element one ends can see through this first insulation shell exposes out, and a magnetic conduction sheet and many second splicing ears are set on a side of second connector, be pasted to be subjected to the magnetic attraction of these magnetic elements under the situation of another side of this first insulation shell at this magnetic conduction sheet, make these second splicing ears end against contact to these magnetic elements respectively, and at second splicing ear, form electrically conducting between the magnetic element and first splicing ear, and make to be electrically connected by magnetic force absorption between this first and second connector and be integral, the diverse location that allows first connector and second connector need not on the one side is provided with splicing ear and magnetic element respectively, and then significantly reduce the volume of traditional magnetic connector, promptly become the important topic that the utility model is inquired in this desire.

Because the traditional magnetic connector has bulky and can't reach compact purpose, therefore, the designer is through the permanent research and experiment of making great efforts, finally development and Design goes out a kind of magnetic electric connector structure of the present utility model, in the hope of by appearance of the present utility model, and can effectively solve aforesaid problem.

The utility model content

The purpose of this utility model provides a kind of magnetic electric connector structure, in this structure, when first or second connector is subjected to rapid external force collision, can separate easily, and the unlikely structure of first or second connector that makes is damaged because of pullling.

For this reason, the utility model proposes a kind of magnetic electric connector structure, comprise one first connector and one second connector, this first and second connector can be connected and be integral, and mutual electrically conducting, wherein this first connector is by one first insulation shell, a plurality of magnetic elements and many first splicing ears are formed, this first insulation shell is made of insulating material, run through on it and be provided with a plurality of first ccontaining conduit, these magnetic elements are made of conduction and permeability magnetic material, and can transmit electric signal, these magnetic elements correspond respectively to these first ccontaining conduits, and respectively an end of this magnetic element can embed via a side of this first insulation shell in the first corresponding ccontaining conduit, and making respectively, an end of this magnetic element can expose out through the another side of this first insulation shell, with with the mutual magnetic attraction of this second connector and link into an integrated entity, these first splicing ears correspond respectively to these magnetic elements and the first ccontaining conduit, and respectively an end of this first splicing ear can stretch in the first corresponding ccontaining conduit, and can be against end in addition to corresponding magnetic element, and form electrically conducting with corresponding magnetic element, it is held in addition and then extends outside this first insulation shell, this second connector is made up of one second insulation shell and many second splicing ears, this second insulation shell is made of insulating material, the one side is provided with a magnetic conduction sheet, the configuration that is complementary with the another side that forms with this first insulation shell, this magnetic conduction sheet can with the mutual magnetic attraction of magnetic element in this first insulation shell, but electrically conducting not each other, so that a side of this second insulation shell can be pasted to the another side of this first insulation shell, run through on this second insulation shell and be provided with a plurality of second ccontaining conduit, these second splicing ears constitute (as: monel) by electric conducting material, and be placed in respectively in the second corresponding ccontaining conduit, respectively an end of this second splicing ear protrudes from outside this second insulation shell and the magnetic conduction sheet via the second ccontaining conduit of correspondence, and can be subjected to the magnetic attraction of these magnetic elements at this magnetic conduction sheet and be pasted under the situation of another side of this first insulation shell, against the end of contact to corresponding magnetic element, and the formation electrically conducting, respectively the end in addition of this second splicing ear then extends outside this second insulation shell.

Aforesaid magnetic electric connector structure, still comprise an insulating trip, this insulating trip is located on the another side of this first insulation shell, position corresponding to these first ccontaining conduits on it is respectively equipped with location hole, these location holes are corresponding with these second splicing ears respectively, so that this magnetic conduction sheet can with the mutual magnetic attraction of magnetic element in this first insulation shell, but electrically conducting not each other, and respectively this second splicing ear can pass corresponding location hole and against the end in addition to corresponding magnetic element.

Aforesaid magnetic electric connector structure, wherein the bottom surface of this first insulation shell offers a plurality of first perforates, these first perforates lay respectively at the position corresponding to these first ccontaining conduits, and be connected with the first corresponding ccontaining conduit, can stretch in the first corresponding ccontaining conduit via first perforate of correspondence for an end of this first splicing ear respectively.

Aforesaid magnetic electric connector structure, wherein the bottom surface of this second insulation shell offers a plurality of second perforates, these second perforates lay respectively at the position corresponding to these second ccontaining conduits, and be connected with the second corresponding ccontaining conduit, can pass the second corresponding perforate and be placed in the second corresponding ccontaining conduit for this second splicing ear respectively.

Aforesaid magnetic electric connector structure, the length that is shorter in length than remaining described second splicing ear of one of them described second splicing ear.

The magnetic electric connector structure that the utility model proposes, when this first and second connector is installed on two electric products respectively (as: notebook computer and a USB jockey), the user can interconnect this first and second connector, to utilize the magnetic attracting force between these magnetic elements and this magnetic conduction sheet, this first and second connector can firmly be electrically connected to be integral, can transmit electric signal (as: power supply signal or data-signal) mutually and make through this first and second connector between this two electric product, at this moment, owing to only adsorb between this first and second connector by magnetic force, be integral and be electrically connected, therefore when this first or second connector is subjected to rapid external force collision, should be able to separate easily, and the unlikely structure of this first or second connector that makes is damaged because of pullling; In addition, since the employed magnetic element of magnetic electric connector structure of the present utility model not only can with the mutual magnetic attraction of this magnetic conduction sheet, make this first and second connector link into an integrated entity, simultaneously, also can be by the conductivity of itself, second splicing ear and first splicing ear are electrically connected mutually, so can significantly reduce the volume of traditional magnetic connector, order is assembled with the electric product of magnetic electric connector structure of the present utility model can be more compact.

Description of drawings

Fig. 1 is the schematic diagram of traditional connector;

Fig. 2 connects the schematic diagram of device for traditional magnetic;

Fig. 3 is the perspective diagram of preferred embodiment of the present utility model;

Fig. 4 is the first connector schematic diagram of preferred embodiment of the present utility model;

Fig. 5 is the second connector schematic diagram of preferred embodiment of the present utility model;

Fig. 6 is the group sectional elevation schematic diagram of preferred embodiment of the present utility model;

Fig. 7 is the schematic bottom view of second connector of preferred embodiment of the present utility model.

The main element label declaration:

Magnetic electric connector structure 30

First connector 31

Second connector 32

Notebook computer 33

Jockey 34

First insulation shell 311

Magnetic element 312

First splicing ear 313

The first ccontaining conduit 314

Insulating trip 315

Location hole 316

First perforate 317

Second insulation shell 321

Second splicing ear 322

Magnetic conduction sheet 323

The second ccontaining conduit 324

Second perforate 325

Embodiment

Understand for technical characterictic of the present utility model, purpose and effect being had more clearly, now contrast description of drawings embodiment of the present utility model:

The utility model proposes a kind of magnetic electric connector structure, in a preferred embodiment of the present utility model, see also Fig. 3 and magnetic electric connector structure 30 shown in Figure 4, comprise one first connector 31 and one second connector 32, this first connector 31 and second connector 32 can be connected and be integral, and mutual electrically conducting, wherein this first connector 31 is by one first insulation shell 311, a plurality of magnetic elements 312 and many first splicing ears 313 are formed, this first insulation shell 311 is made of insulating material, run through on it and be provided with a plurality of first ccontaining conduit 314, these magnetic elements 312 are made of conduction and permeability magnetic material, and can transmit electric signal, these magnetic elements 312 correspond respectively to these first ccontaining conduits 314, and respectively an end of this magnetic element 312 can embed via a side of this first insulation shell 311 in the first corresponding ccontaining conduit 314, and making respectively, an end of this magnetic element 312 can expose out through the another side of this first insulation shell 311, these first splicing ears 313 correspond respectively to these magnetic elements 312 and the first ccontaining conduit 314, and respectively an end of this first splicing ear 313 can stretch in the first corresponding ccontaining conduit 314, and can be against end in addition to corresponding magnetic element 312, and form electrically conductings with corresponding magnetic element 312, its in addition end then extend outside this first insulation shell 311.

See also Fig. 3 and shown in Figure 4, this second connector 32 is made up of one second insulation shell 321 and many second splicing ears 322, this second insulation shell 321 is made of insulating material, the one side is provided with a magnetic conduction sheet 323, the configuration that is complementary with the another side that forms with this first insulation shell 311, this magnetic conduction sheet 323 can with the magnetic element 312 mutual magnetic attraction in this first insulation shell 311, and be pasted to the another side of this first insulation shell 311, run through on this second insulation shell 321 and be provided with a plurality of second ccontaining conduit 324, these second splicing ears 322 constitute (as: monel) by electric conducting material, and be placed in respectively in the second corresponding ccontaining conduit 324, respectively an end of this second splicing ear 322 protrudes from outside this second insulation shell 321 and the magnetic conduction sheet 323 via the second ccontaining conduit 324 of correspondence, and can be subjected to the magnetic attraction of these magnetic elements 312 at this magnetic conduction sheet 323 and be pasted under the situation of another side of this first insulation shell 311, against the end of contact to corresponding magnetic element 312, and the formation electrically conducting, respectively the end in addition of this second splicing ear 322 then extends outside this second insulation shell 321.

So, see also Fig. 3 and shown in Figure 6, when this first and second connector is installed in (as: notebook computer 33 and a jockey 34) on two electric products respectively, the user can interconnect this first connector 31 and second connector 32, to utilize the magnetic attracting force of 323 of these magnetic elements 312 and this magnetic conduction sheets, this first connector 31 and second connector 32 can firmly be electrically connected to be integral, can see through this first connector 31 and second connector, the 32 mutual electric signals (as: power supply signal or data-signal) of transmitting between this two electric product and make, at this moment, because this first connector 31 and 32 of second connectors only adsorb by magnetic force, be integral and be electrically connected, therefore be subjected to rapid external force when colliding when this first connector 31 or second connector 32, should be able to separate easily, and the unlikely structure of this first connector 31 or second connector 32 that makes is damaged because of pullling; In addition, since magnetic electric connector structure 30 employed magnetic elements of the present utility model not only can with these magnetic conduction sheet 323 mutual magnetic attraction, make this first connector 31 and second connector 32 link into an integrated entity, simultaneously, also can be by the conductivity of itself, this second splicing ear 322 and first splicing ear 313 are electrically connected mutually, so can significantly reduce the volume of traditional magnetic connector, order is assembled with the electric product of magnetic electric connector structure 30 of the present utility model can be more compact.

See also Fig. 4 and shown in Figure 6 again, in the present embodiment, this first connector 31 still comprises an insulating trip 315, this insulating trip 315 is located on the another side of this first insulation shell 311, and the position corresponding to these first ccontaining conduits 314 on it is respectively equipped with a plurality of elongated location holes 316, these location holes 316 are corresponding with these second splicing ears 322 respectively,, and avoid these second splicing ears 322 to peg graft mistakenly and cause short circuit against an end of the magnetic element 312 to ccontaining conduit 314 for these second splicing ears 322 can pass corresponding location hole 316 respectively.

From the above, in the present embodiment, the bottom surface of this first insulation shell 311 offers a plurality of first perforates 317, these first perforates 317 lay respectively at the position corresponding to these first ccontaining conduits 314, and be connected with the first corresponding ccontaining conduit 314, end for this first splicing ear 313 respectively can stretch in the first corresponding ccontaining conduit 314 via first perforate 317 of correspondence, and then against the end in addition to corresponding magnetic element 312.

See also shown in Figure 5 again, in the present embodiment, the bottom surface of this second insulation shell 321 offers a plurality of second perforates 325, these second perforates 325 lay respectively at the position corresponding to these second ccontaining conduits 324, and be connected with the second corresponding ccontaining conduit 324, can pass the second corresponding perforate 325 and be placed in the second corresponding ccontaining conduit 324 for this second splicing ear 322 respectively.

See also shown in Figure 7, in the present embodiment, these second splicing ears 322 one of them be shorter in length than remaining second splicing ear 322, with usefulness as data-signal transmission and detection, 322 usefulness that are used as the power supply signal transmission of remaining second splicing ear, under the user inserts an end of these second splicing ears 322 situation in first insulation shell 311 gradually, remaining second splicing ear 322 will be earlier against the end in addition to magnetic element 312, and with magnetic element 312 electrically conducting mutually, and transmission power supply signal, subsequently, these second splicing ears 322 one of them just can be against end in addition to magnetic element 312, and with magnetic element 312 electrically conducting mutually, so can as second splicing ear 322 of the usefulness of power supply signal transmission fully against to the situation of magnetic element 312, avoid causing because of power supply signal transmission failure the problem of data-signal transmission failure as second splicing ear 322 of the usefulness of data-signal transmission.

The above only is the schematic embodiment of the utility model, is not in order to limit scope of the present utility model.Any those skilled in the art, equivalent variations of having done under the prerequisite that does not break away from design of the present utility model and principle and modification all should belong to the scope that the utility model is protected.

Claims (12)

1. magnetic electric connector structure, it is characterized in that this magnetic electric connector structure comprises one first connector and one second connector, this first connector and second connector can be connected and be integral, and mutual electrically conducting, wherein this first connector comprises:

One first insulation shell is made of insulating material, runs through on it to be provided with a plurality of first ccontaining conduit;

A plurality of magnetic elements that can transmit electric signal, constitute by conduction and permeability magnetic material, described magnetic element corresponds respectively to the described first ccontaining conduit, respectively an end of this magnetic element can embed via a side of this first insulation shell in the described first corresponding ccontaining conduit, and the another side that sees through this first insulation shell exposes out, and described magnetic element can and link into an integrated entity with the mutual magnetic attraction of this second connector;

Many first splicing ears, correspond respectively to the described magnetic element and the first ccontaining conduit, respectively an end of this first splicing ear can stretch in the described first corresponding ccontaining conduit, and can be against end in addition to corresponding described magnetic element, and form electrically conducting with corresponding described magnetic element, its in addition end then extend outside this first insulation shell, described first splicing ear can with the mutual electrically conducting of this second connector.

2. magnetic electric connector structure as claimed in claim 1 is characterized in that, this second connector comprises:

One second insulation shell, constitute by insulating material, the one side is provided with a magnetic conduction sheet, and form and configuration that the another side of this first insulation shell is complementary, this magnetic conduction sheet can with the mutual magnetic attraction of magnetic element in this first insulation shell, but electrically conducting not each other, a side of this second insulation shell can be pasted to the another side of this first insulation shell, runs through on this second insulation shell to be provided with a plurality of second ccontaining conduit;

Many second splicing ears, constitute by electric conducting material, and be placed in respectively in the described second corresponding ccontaining conduit, respectively an end of this second splicing ear protrudes from outside this second insulation shell and the magnetic conduction sheet via the second ccontaining conduit of correspondence, and can be against the end of contact to corresponding described magnetic element, and the formation electrically conducting, respectively the end in addition of this second splicing ear then extends outside this second insulation shell.

3. magnetic electric connector structure as claimed in claim 2, it is characterized in that, this magnetic electric connector structure also comprises an insulating trip, this insulating trip is located on the another side of this first insulation shell, position corresponding to the described first ccontaining conduit on it is respectively equipped with location hole, described location hole is corresponding with described second splicing ear respectively, and respectively this second splicing ear can pass corresponding described location hole and against the end to corresponding described magnetic element.

4. magnetic electric connector structure as claimed in claim 3, it is characterized in that, the bottom surface of this first insulation shell offers a plurality of first perforates, described first perforate lays respectively at the position corresponding to the described first ccontaining conduit, and be connected with the described first corresponding ccontaining conduit, respectively an end of this first splicing ear can stretch in the described first corresponding ccontaining conduit via described first perforate of correspondence.

5. magnetic electric connector structure as claimed in claim 4, it is characterized in that, the bottom surface of this second insulation shell offers a plurality of second perforates, described second perforate lays respectively at the position corresponding to the described second ccontaining conduit, and be connected with the described second corresponding ccontaining conduit, respectively this second splicing ear can pass corresponding described second perforate and be placed in the described second corresponding ccontaining conduit.

6. as claim 3,4 or 5 described magnetic electric connector structures, it is characterized in that the length that is shorter in length than remaining described second splicing ear of one of them described second splicing ear.

7. magnetic electric connector structure, it is characterized in that this magnetic electric connector structure comprises one first connector and one second connector, this first connector and second connector can be connected and be integral, and mutual electrically conducting, wherein this second connector comprises:

One second insulation shell, constitute by insulating material, the one side is provided with a magnetic conduction sheet, and form and configuration that the another side of this first insulation shell is complementary, this magnetic conduction sheet can link into an integrated entity with the mutual magnetic attraction of this first connector, runs through being provided with a plurality of second ccontaining conduit on this second insulation shell;

Many second splicing ears, constitute by electric conducting material, and be placed in respectively in the second corresponding ccontaining conduit, respectively an end of this second splicing ear protrudes from outside this second insulation shell and the magnetic conduction sheet via the second ccontaining conduit of correspondence, respectively this second splicing ear can form electrically conducting with this first connector, and respectively the end in addition of this second splicing ear then extends outside this second insulation shell.

8. magnetic electric connector structure as claimed in claim 7 is characterized in that, this first connector comprises:

One first insulation shell is made of insulating material, runs through on it to be provided with a plurality of first ccontaining conduit;

A plurality of magnetic elements that can transmit electric signal, constitute by conduction and permeability magnetic material, described magnetic element corresponds respectively to the described first ccontaining conduit, respectively an end of this magnetic element can embed via a side of this first insulation shell in the described first corresponding ccontaining conduit, and the another side that sees through this first insulation shell exposes out, this magnetic element can with the mutual magnetic attraction of magnetic conduction sheet in this second insulation shell, but electrically conducting not each other, the another side of this first insulation shell can be pasted to a side of this second insulation shell;

Many first splicing ears, correspond respectively to the described magnetic element and the first ccontaining conduit, respectively an end of this first splicing ear can stretch in the first corresponding ccontaining conduit, and can be against end in addition to corresponding magnetic element, and form electrically conducting with corresponding magnetic element, its in addition end then extend outside this first insulation shell.

9. magnetic electric connector structure as claimed in claim 8, it is characterized in that, this magnetic electric connector structure also comprises an insulating trip, this insulating trip is located on the another side of this first insulation shell, position corresponding to the described first ccontaining conduit on it is respectively equipped with location hole, described location hole is corresponding with described second splicing ear respectively, and respectively this second splicing ear can pass corresponding described location hole and against the end to corresponding described magnetic element.

10. magnetic electric connector structure as claimed in claim 9, it is characterized in that, the bottom surface of this first insulation shell offers a plurality of first perforates, described first perforate lays respectively at the position corresponding to the described first ccontaining conduit, and be connected with the described first corresponding ccontaining conduit, respectively an end of this first splicing ear can stretch in the described first corresponding ccontaining conduit via described first perforate of correspondence.

11. magnetic electric connector structure as claimed in claim 10, it is characterized in that, the bottom surface of this second insulation shell offers a plurality of second perforates, described second perforate lays respectively at the position corresponding to the described second ccontaining conduit, and be connected with the described second corresponding ccontaining conduit, respectively this second splicing ear can pass corresponding described second perforate and be placed in the described second corresponding ccontaining conduit.

12., it is characterized in that the length that is shorter in length than remaining described second splicing ear of one of them described second splicing ear as claim 9,10 or 11 described magnetic electric connector structures.

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