CN208478775U - Interface and the electronic equipment for applying it - Google Patents

Abstract

The application is about interface and using its electronic equipment.The interface includes the different conductor loop of multiple sizes；Wherein, each conductor loop is in rotational symmetry；Each conductor loop is in geometric similarity, and is concentric ring structure according to the arrangement of size nesting；It is filled with insulating materials between the conductor loop, forms insulating layer.Rotational symmetry characteristic based on above-mentioned interface, the either interface in two interfaces interconnected can will be needed, according to environmental factor where it, if any angle etc. where clear, barrier, adaptability carries out grafting after rotating by a certain angle again, to get around barrier；Meanwhile the direct grafting of two electronic equipments may be implemented, do not need configuration connecting line, the influence without the concern for barrier.

Description

Interface and the electronic equipment for applying it

Technical field

This application involves technical field of electronic accessory more particularly to a kind of interface and using its electronic equipment.

Background technique

With the development of electronic technology, various electronic equipments emerge one after another.Various electronic equipments common at present are general to be filled Electricity or data transmission interface have USB Type-A interface, USB Type-C interface, Lightning interface etc..These interfaces show It is intended to it is found that these interfaces are commonly flat design, the male mouth of the interface to match and female mouth can only be according to ad hoc fashions and direction Could succeed grafting；When an end interface placed angle is fixed, if the interface nearby has barrier, alternatively, to be connected sets Standby this body contour and environmental inadequacies, then may cause matched another end interface cannot be according to above-mentioned ad hoc fashion and side To being plugged on the interface.

In view of this, for guarantee under any scene can normal grafting, the prior art do not use two equipment directly to insert The connection type connect, but patched two equipment rooms using connecting line.By taking mobile phone charging scenarios as an example, charger is fixed on In power outlet, connecting line one end is USB Type-A interface public affairs mouth, with setting USB Type-A interface mother's mouth phase on charger Mutually matching grafting, the other end of connecting line are USB Type-C interface public affairs mouth, with the USB Type-C interface mother being arranged on mobile phone Mouth is mutually matched grafting.

As it can be seen that it is based on existing interface form, it is each to need the electronic equipment connecting with other equipment that configure connecting line, And connecting line is easily lost or is damaged, and equally will affect the normal use of associated electronic device.

Utility model content

The embodiment of the present application provides a kind of interface and the electronic equipment using it.The technical solution is as follows:

The embodiment of the present application in a first aspect, providing a kind of interface, comprising:

The different conductor loop of multiple sizes；Wherein, each conductor loop is in rotational symmetry；Each conductor loop is in geometry phase It seemingly, and according to the arrangement of size nesting is concentric ring structure；

It is filled with insulating materials between the conductor loop, forms insulating layer.

In a feasible embodiment, the different conductor loop of the multiple size includes the different annulus of multiple diameters.

In a feasible embodiment, the different conductor loop of the multiple size include multiple number of edges are identical, side length not Same regular polygon ring.

In a feasible embodiment, the interface includes first interface, and/or, it is matched with the first interface Second interface.

In a feasible embodiment, the outer top surface of each insulating layer of the first interface is the first arc-shaped concave, The outer top surface of each conductor loop of the first interface is the first arc convex；

The outer top surface of each insulating layer of the second interface is the second arc to match with first arc-shaped concave The outer top surface on convex surface, each conductor loop of the second interface is recessed for the second arc to match with first arc convex Face.

In a feasible embodiment, the first adjacent arc-shaped concave and the first arc convex are tangent in junction, phase Adjacent the second arc-shaped concave and the second arc convex is tangent in junction.

In a feasible embodiment, the interface further include: the adsorption layer mutually adsorbed for realizing two interfaces； The adsorption layer is in geometric similarity and concentric ring structure with the conductor loop.

In a feasible embodiment, for first interface and second interface to be connected:

The adsorption layer of the first interface is made of permanent magnet material, and the adsorption layer of the second interface is by can be by permanent magnet The magnetic material of material absorption is made；The magnetic material that can be adsorbed by permanent magnet material includes: iron, cobalt, nickel or its alloy；

Alternatively, the first interface and the adsorption layer ring of second interface are made of permanent magnet material, and described first connects The outer top surface magnetic pole of the adsorption layer of mouth is opposite with the outer top surface magnetic pole of the adsorption layer of the second interface.

In a feasible embodiment, the conductor loop includes: the power conductor ring for being used for transmission electric energy, and/or, it uses In the data conductor ring of transmission data.

The second aspect of the embodiment of the present application, provides a kind of electronic equipment, which includes: that any of the above item is implemented Interface described in example.

From the above technical scheme, in the present embodiment, each conductor loop of constitution equipment interface is in rotational symmetry shape Shape, and each conductor loop is in geometric similarity, and successively nested arrangement is concentric ring structure by size, so that entire interface In rotational symmetry structure, thus in use, it can be by any one in be mutually inserted two interfaces, according to its institute Carry out grafting again after environmental factor (if any clear, angle where barrier etc.) adaptability rotates by a certain angle, with around Open barrier.

In addition, do not influenced when in use by barrier since interface provided in this embodiment has rotational symmetry characteristic, Therefore the direct grafting of two electronic equipments may be implemented using interface provided in this embodiment, it does not need configuration connecting line, be not required to Consider the influence of barrier.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not The application can be limited.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the application Example, and together with specification it is used to explain the principle of the application.

Fig. 1 is a kind of top view of interface shown according to an exemplary embodiment.

Fig. 2 is the top view of another interface shown according to an exemplary embodiment.

Fig. 3 is the top view of another interface shown according to an exemplary embodiment.

Fig. 4 is a kind of AA cross-sectional view of the interface according to Fig. 3 embodiment.

Fig. 5 is another AA cross-sectional view of the interface according to Fig. 3 embodiment.

Fig. 6 is the connection schematic diagram of two kinds of interfaces shown in Fig. 4 and Fig. 5.

Fig. 7 is another AA cross-sectional view of the interface according to Fig. 3 embodiment.

Fig. 8 is another AA cross-sectional view of the interface according to Fig. 3 embodiment.

Fig. 9 is the connection schematic diagram of two kinds of interfaces shown in Fig. 7 and Fig. 8.

Figure 10 is the top view of another interface shown according to an exemplary embodiment.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the application.On the contrary, they be only with it is such as appended The example of the consistent device and method of some aspects be described in detail in claims, the application.

In order to solve the above-mentioned technical problem, the embodiment of the present application provides a kind of interface with rotational symmetry structure, answers For electronic equipments such as mobile phone, computer, charger, displays, to realize the physical connection of two kinds of electronic equipments, and then realizes and fill Electricity, data transmission etc..

Interface provided in this embodiment, comprising:

The different conductor loop of multiple sizes；Wherein, each conductor loop is in rotational symmetry；Each conductor loop is in geometry phase It seemingly, and according to the arrangement of size nesting is concentric ring structure；

It is filled with insulating materials between the conductor loop, forms insulating layer.

In the present embodiment, each conductor loop for constituting interface is in non-rotational symmetric shape, and each conductor loop is in geometry phase Seemingly, and by size successively nested arrangement is concentric ring structure, so that entire interface is also in rotational symmetry structure, thus making It, can be by any one in be mutually inserted two interfaces, according to environmental factor where it (if any accessible in the process Object, angle where barrier etc.) adaptability carries out grafting after rotating by a certain angle again, to get around barrier.

In addition, do not influenced when in use by barrier since interface provided in this embodiment has rotational symmetry characteristic, Therefore the direct grafting of two electronic equipments may be implemented using interface provided in this embodiment, do not need connecting line.It is filled with mobile phone For electricity, due to the influence without the concern for barrier, can directly by the interface (i.e. receiving end interface) on mobile phone and it charge Interface (i.e. power supply end interface) on device carries out grafting, realizes and charges to mobile phone；The charging modes do not need to come using connecting line Charger and mobile phone are connected, can be charged to avoid mobile phone is influenced because connecting line dropout or damage.It for another example, can be in controlled plant Interface as described in the present embodiment is respectively set in (such as television set etc.) and its control equipment (such as remote controler etc.)；Wherein, controlled plant On interface connect with the power supply line of the controlled plant, as power supply end interface, control equipment on interface be then used as by electricity End interface, when user do not need using control equipment when, can by the interface grafting of two equipment, both realized idle (i.e. When without using control equipment) it is to control equipment charge, and can save and charging is separately configured for control equipment by controlled plant Device and connecting line can also solve the problems, such as that control equipment is easy to be lost because of small in size, random placement.

Conductor loop described in interface provided in this embodiment includes but is not limited to the power conductor ring for being used for transmission electric energy, And/or it is used for transmission the data conductor ring of data.For an interface, the specific number of conductor loop can be according to this The functional requirement (or wiring requirements) of interface determines.For example, two electric power can only be arranged if interface is only used for charging Conductor loop, one is used to connect positive pole, another is for being grounded；If interface is only used for transmission data, can only be arranged Two data conductor loops are respectively used to the anode and cathode of connection data line；If it is required that reconfiguration mouth not only can be used for charge but also It can be used for transmitting data, then two power conductor rings and two data conductor loops, power conductor ring difference can be set simultaneously Connection positive pole and ground connection, two data conductor loops are separately connected the anode and cathode of data line.

In a feasible embodiment, the different conductor loop of the multiple size for constituting the interface includes multiple diameters Different annulus, and the center of circle of each annulus is overlapped, and forms concentric loop, a kind of top view of equipment interface as shown in Figure 1 (i.e. cross-sectional view).

Referring to Fig.1, which includes: the second electricity for connecting the first power conductor of positive pole ring 102, for ground connection Power conductor loop 103, for connecting the first data conductor ring 104 of data line anode, for connecting the second number of data line cathode According to conductor loop 105；Each conductor loop is annulus, is in geometric similarity, and the center of circle is overlapped, and forms concentric loop, but diameter is respectively not It is identical, it is descending successively are as follows: the first power conductor ring 102, the first data conductor ring 104, the second data conductor ring 105, Two power conductor rings 103；It is filled with insulating materials between the conductor loop, forms the insulating layer 101 of multiple circular ring types.Such as Fig. 1 It is shown, between the adjacent conductor loop of any two (between the first power conductor ring 102 and the second data conductor ring 105, second Between data conductor ring 105 and the first data conductor ring 104, the first data conductor ring 104 and the second power conductor ring 103 it Between), and, it is located in the center cavity of the second power conductor ring 103 of concentric loop structure most inner side (i.e. diameter is minimum), It is provided with insulating layer, avoids the interference between different routes, realizes that the functions such as charging, data transmission provide hardware for the interface Basis.

Based on interface structure shown in Fig. 1, in another feasible embodiment, it is located at the innermost conductor of concentric loop structure Ring is also designed to the outer ring radius structure equal with the width of ring, i.e. solid-round structures, and the second electric power as shown in Figure 2 is led Body ring 103.In the case where required conductor loop number is certain, relative to embodiment illustrated in fig. 1, interface structure shown in Fig. 2 can To save an insulating layer, to reduce interface volume, namely reduces interface and taken up space, be more suitable for miniature and light and thin type and set It is standby.

From the above technical scheme, the interface of concentric loop structure provided in this embodiment, about its center of circle (or center Axis) it is in 360 ° of rotational symmetry, when in use, equipment can be rotated at random according to actual use scene, to avoid certain angles Barrier, realize have the interface two direct grafting of equipment, it is no longer necessary to using connecting line, under most scenes It will not be influenced by barrier that may be present around.

Interface provided in this embodiment both can be applied to provide electric energy or send the equipment (such as charger) of data, It can be used for storage electric energy or receive the equipment (mobile phone, the tablet computer that such as need to charge or receive data) of data；For Narration is convenient, and the present embodiment is by the interface in the equipment for being applied to provide electric energy or transmission data, referred to as power supply end interface, accordingly , by the interface in the equipment for being applied to storage electric energy or reception data, referred to as receiving end interface；Two kinds interface structure mutual Match, guarantees that the conductor loop of the identical function in two interfaces in grafting can coincide connection (such as power supply end interface and receiving end Conductor loop kissing merging in interface for ground connection is stably connected with, and also kissing merging is steady for the conductor loop for connecting positive pole Fixed connection).

In the embodiment of the present application, it is based on interface described previously, can also include absorption other than conductor loop and insulating layer Layer, the adsorption layer are also the ring structure being overlapped with conductor loop in geometric similarity and center.The adsorption layer is for realizing two A interface mutually adsorbs, and guarantees that two interfaces securely connect.

Optionally, the adsorption layer is set on the outside of the maximum conductor loop of size.Further, the adsorption layer and the size Insulating layer is provided between maximum conductor loop.

The top view of another interface as shown in Figure 3；On the basis of interface interface shown in Fig. 2, in diameter maximum The first power conductor ring 102 outside the adsorption layer 106 of circular ring type is set, and between the first power conductor ring 102 and adsorption layer 106 It is provided with the insulating layer of insulating materials formation.The center of circle of the adsorption layer 106 of circular ring type and the center of circle of the first power conductor ring 102 weight It closes (being overlapped with the center of circle of either conductor ring), entire interface is still concentric ring structure.

In the embodiment of the present application, the adsorption layer of the power supply end interface can be and each conductor in the power supply end interface The first concentric magnetic rings of ring；Correspondingly, the adsorption layer of the receiving end interface, then can be mutual with first magnetic rings Absorption and second magnetic rings concentric with the conductor loop of the receiving end interface.

In a feasible embodiment, the first magnetic rings can use magnetic material, and such as permanent magnet is made；Second magnetic Property ring then using can be made by the magnetic material that the magnetic material adsorbs, which includes but is not limited to: iron, cobalt, Nickel or its alloy (such as iron-nickel alloy, ferrocobalt).

In another feasible embodiment, first magnetic rings and the second magnetic rings are made of permanent magnet material, And first magnetic rings outer top surface magnetic pole it is opposite with the outer top surface magnetic pole of second magnetic rings.For example, the first magnetic rings is outer Top surface magnetic pole is the pole N, and the outer top surface of the second magnetic rings is then correspondingly arranged as the pole S.

It is understood that in some embodiments, the material of the first magnetic rings and the second magnetic rings also can be interchanged；Example Such as, power end interface adsorption layer using magnetic material, the adsorption layer of receiving end interface by the magnetic material using can be inhaled Attached magnetic material, as long as it is fixed to guarantee that two interfaces to match can be adsorbed mutually.

The embodiment for guaranteeing that two interfaces are stably connected with is described above through setting adsorption layer.Implement in the application In example, it is not easy to take off after can also guaranteeing interface grafting by the concave-convex variation of conductor loop and insulating layer on central axis direction It falls.It is specifically introduced referring to Fig. 4.

Fig. 4 is a kind of AA sectional view of interface shown in Fig. 3, wherein dotted line OO ' is the symmetry axis of the interface, i.e., each to lead Body ring about OO ' in rotational symmetry, the entire profile about the OO ' axisymmetricly；Referring to Fig. 4, interface 500 provided in this embodiment In, each conductor loop (including previously described first power conductor ring 102, the first data conductor ring 104, the second data conductor Ring 105 and the second power conductor ring 103) outer top surface and the outer top surface of adsorption layer 106 maintain an equal level (i.e. in the same plane), it is such as empty Shown in line L1, the outer top surface of each insulating layer 101 maintains an equal level, as shown in dotted line L2, meanwhile, the outer top surface of conductor loop and adsorption layer Place plane is lower than plane where the outer top surface of insulating layer, if the difference in height between dotted line L1 and L2 is (assuming that difference in height is △ H_L1-L2=-h), the outer top surface of entire interface 500 diametrically concave-convex alternately (being in square waveform fluctuations), forms annular Card slot.

Match with interface structure shown in Fig. 4, the present embodiment additionally provides another AA section of interface shown in Fig. 3 Figure, i.e. Fig. 5.Similar with Fig. 4, in interface 600 shown in Fig. 5, dotted line OO ' is the symmetry axis of interface；Each conductor loop (including first Power conductor ring 102, the first data conductor ring 104, the second data conductor ring 105 and the second power conductor ring 103) outer top surface Maintain an equal level with the outer top surface of adsorption layer 106, as shown in dotted line L1 ', the outer top surface of each insulating layer 101 maintains an equal level, such as dotted line L2 ' institute Show；Difference with interface 500 shown in Fig. 4 is, in interface 600 shown in Fig. 5, the outer top surface (i.e. L1 ' institute of conductor loop and adsorption layer In plane) it is higher than the outer top surface (i.e. plane where L2 ') of insulating layer, and difference in height is △ H_L1’-L2’=h is formed and interface 500 Complementary annular slot.

Structure shown in Fig. 4 and Fig. 5 can be respectively adopted (for example, power supply end interface is using Fig. 4 in two interfaces being mutually matched Shown structure, receiving end interface are using structure shown in Fig. 5, alternatively, power supply end interface is using structure, receiving end interface shown in Fig. 5 Using structure shown in Fig. 4), grafting, 600 grafting of interface 500 and interface as shown in Figure 6 and tear down operations are realized by concaveconvex structure Schematic diagram.The complementation as it can be seen that the outer top surface bumps variation of two interfaces of the connection that matches each other fits like a glove, two interface after grafting Conductor loop can contact with each other, form corresponding electric power or data transmission path.

In the application in other feasible embodiments, the interface for two kinds of complementary structures that outer top surface is cambered surface is additionally provided, Cross-sectional view as shown in Figure 7 and Figure 8 (corresponding top view is still Fig. 3, and dotted line OO ' is still symmetry axis).

Referring to Fig. 7, in the interface 800, the outer top surface of conductor loop each (including conductor loop 102~105) and adsorption layer 106 It is arc-shaped concave (hereinafter referred to as the first arc-shaped concave), the outer top surface of the insulating layer 101 of midfeather is then arc convex (hereinafter referred to as the first arc convex)；It is opposite with Fig. 7, in interface 900 shown in Fig. 8, conductor loop (including conductor loop 102~ 105) and the outer top surface of adsorption layer 106 is the arc of (arc length is identical and radius is identical) of matching with the first arc-shaped concave radian Shape convex surface (hereinafter referred to as the second arc convex), the outer top surface of the insulating layer 101 of midfeather are then convex with first arc The arc-shaped concave (hereinafter referred to as the second arc-shaped concave) that face matches.

In practical application, structure shown in Fig. 7 and Fig. 8 can be respectively adopted (for example, feeder ear in two interfaces being mutually matched Interface using structure, receiving end interface shown in Fig. 7 using structure shown in Fig. 8, alternatively, power supply end interface using structure shown in Fig. 8, Receiving end interface is using structure shown in Fig. 7).Schematic diagram when Fig. 9 is the interface grafting and dismantling of two kinds of structures of Fig. 7 and Fig. 8； According to the radian variation of top surface outside two kinds of interfaces it is found that the outer top surface of two kinds of interfaces rises and falls in complementary waveform, after grafting, connect The conductor loop of the first arc-shaped concave and another interface 900 where mouthfuls 800 conductor loop and adsorption layer and where adsorption layer the Two arc convex, which coincide, to connect, the insulating layer institute of the first arc convex where the insulating layer of interface 800 and another interface 900 The second arc-shaped concave coincide connect.

Optionally, in interface 800, the first adjacent arc-shaped concave and the first arc convex are tangent in junction；Interface 900 In, the second adjacent arc-shaped concave and the second arc convex are tangent in junction.Interface provided by the present embodiment, outer top surface are equal For arcwall face, and adjacent house type face is tangent in junction, so that the outer top surface of entire interface is in smooth waveform curved surface, avoids The impact, friction of external top surface, extend interface service life in swapping process.

Comparison diagram 6 and Fig. 9 are it is found that can only be along symmetrical relative to the interface (as shown in Figures 4 and 5) that outer top surface is plane The case where axis direction inserts or pull out interface, outer top surface are that the interface of cambered surface not only can be along symmetrical in grafting or dismantling Axis direction inserts or pull out interface, can also be inserted into/be extracted interface with arbitrary inclination, and it is disconnected not will cause convex portion It splits, i.e. the direction without the concern for grafting operation, and is more advantageous between the adsorption layer for overcoming two interfaces (i.e. magnetic material and magnetic Inhale material between) attraction, disassemble interface when it is more labor-saving.

Fig. 1 is circular ring structure to interface shown in Fig. 3, conductor loop, insulating layer etc. above, and in the application, other are feasible Embodiment in, the different conductor loop of the multiple size for constituting interface may be that multiple number of edges are identical, side length is different Regular polygon ring.

Interface top view (sectional view) as shown in Figure 10, i.e., (including above by the conductor loop of 4 regular hexagon structures First power conductor ring 102, the first data conductor ring 104, the second data conductor ring 105 and the second power conductor ring 103) arrangement is concentric ring structure, and insulating layer 101 is filled between conductor loop.Certainly, in other embodiments, conductor loop Can be positive the shapes such as tetracyclic ring (i.e. square loop), regular pentagon ring, octagon ring.For limit thinking, above It is infinite more that circular ring structure in the interface can also be considered as number of edges, the infinitesimal regular polygon ring of side length.

Optionally, adsorption layer can also be arranged in the interface of above-mentioned regular polygon structure, to realize the jail between two interfaces It is solidly connected, adsorption layer 106 as shown in Figure 10.

The sectional view of the interface of above-mentioned regular polygon structure and the interface cross-sectional view of circular ring structure are similar and above-mentioned just polygon The outer top surface of the interface of shape structure can also use plane or cambered surface, can refer to Fig. 4 to Fig. 9, details are not described herein again.

Relative to circular ring type interface can in 360 ° any rotation, the rotatable angle of above-mentioned regular polygon type interface It spends relatively fixed and related to the number of edges of regular polygon.Still by taking Figure 10 as an example, the regular hexagon type interface, rotatable angle Degree is the integral multiple of 60 ° (i.e. 360 °/6), i.e., 60 °, 120 °, 180 °, 240 °, 300 ° and 360 °.

The embodiment of the present application also provides a kind of electronic equipment, which includes connecing described in any of the above-described embodiment Mouthful.The electronic equipment can be charger, mobile phone, tablet computer, laptop, smart television etc..Pass through the interface, the electricity Sub- equipment can matched interfaces corresponding to being provided with the direct grafting of other electronic equipments, with realize charging, data transmission etc. function Energy.

In the embodiment of the present application, using the rotational symmetry characteristic of above-mentioned interface, two interconnected can will be needed to set Any appliance in standby, according to environmental factor where it (if any angle etc. where clear, barrier) adaptability rotation one Grafting is carried out again after determining angle, to get around barrier；Meanwhile the direct grafting of two electronic equipments may be implemented, it does not need to match Set connecting line, the influence without the concern for barrier.

Those skilled in the art will readily occur to other embodiment party of the application after considering the disclosure of specification and practice Case.This application is intended to cover any variations, uses, or adaptations of the application, these modifications, purposes or adaptability Variation follows the general principle of the application and including the undocumented common knowledge or usual skill in the art of the application Art means.The description and examples are only to be considered as illustrative, and the true scope and spirit of the application are by following claim It points out.

It should be understood that the application is not limited to the precise structure that has been described above and shown in the drawings, and And various modifications and changes may be made without departing from the scope thereof.Scope of the present application is only limited by the accompanying claims.

Claims (11)

1. a kind of interface characterized by comprising

The different conductor loop of multiple sizes；Wherein, each conductor loop is in rotational symmetry；Each conductor loop is in geometric similarity, and It is concentric ring structure according to the arrangement of size nesting；

It is filled with insulating materials between the conductor loop, forms insulating layer.

2. interface according to claim 1, which is characterized in that the different conductor loop of the multiple size includes multiple diameters Different annulus.

3. interface according to claim 1, which is characterized in that the different conductor loop of the multiple size includes multiple number of edges The regular polygon ring identical, side length is different.

4. interface according to any one of claims 1 to 3, which is characterized in that the interface includes first interface, and/or, With the matched second interface of the first interface.

5. interface according to claim 4, which is characterized in that

The outer top surface of each insulating layer of the first interface is the first arc-shaped concave, each conductor loop of the first interface Outer top surface is the first arc convex；

The outer top surface of each insulating layer of the second interface is the second arc convex to match with first arc-shaped concave, The outer top surface of each conductor loop of the second interface is the second arc-shaped concave to match with first arc convex.

6. interface according to claim 5, which is characterized in that adjacent the first arc-shaped concave and the first arc convex is connecing Tangent at point, adjacent the second arc-shaped concave and the second arc convex is tangent in junction.

7. interface according to any one of claims 1 to 3, which is characterized in that further include: it is mutual for realizing two interfaces The adsorption layer of absorption；The adsorption layer is in geometric similarity and concentric ring structure with the conductor loop.

8. interface according to claim 7, which is characterized in that for first interface and second interface to be connected:

The adsorption layer of the first interface is made of permanent magnet material, and the adsorption layer of the second interface is by can be by permanent magnet material The magnetic material of absorption is made；

Alternatively, the first interface and the adsorption layer ring of second interface are made of permanent magnet material, and the first interface The outer top surface magnetic pole of adsorption layer and the outer top surface magnetic pole of the adsorption layer of the second interface are opposite.

9. interface according to claim 8, which is characterized in that the magnetic material packet that can be adsorbed by permanent magnet material It includes: iron, cobalt, nickel, ferrocobalt or iron-nickel alloy.

10. interface according to any one of claims 1 to 3, which is characterized in that the conductor loop includes: to be used for transmission electricity The power conductor ring of energy, and/or, it is used for transmission the data conductor ring of data.

11. a kind of electronic equipment characterized by comprising the described in any item interfaces of claims 1 to 10.