CN205510607U - Expansion card stay knot constructs - Google Patents

Abstract

The utility model provides an expansion card stay knot constructs, it includes electric magnetic component and engagement device. And engagement device more includes magnetic part and slider. Wherein, engagement device magnetism is coupled electric magnetic component, and the both ends of its magnetic part are different magnetic poles, and magnetic adsorption or magnetism mutual exclusion in electric magnetic component. And the one end of slider has permanent field structure, and permanent field structure magnetic adsorption or magnetism mutual exclusion in magnetic part to displacement that should the magnetic part and make this slider carry out relative movement, and the other end of this slider borders on this engagement device's lateral border. Wherein, when electric magnetic component as yet by when circular telegram, magnetic part magnetic adsorption in this electricity magnetic component, and answer an electric power signal and when producing a magnetic pole as electric magnetic component, magnetic part and this electricity magnetic component be because of the magnetism mutual exclusion, and then produce this displacement. Therefore, the utility model discloses the joinable separates in this external device of an external device inclusive AND, simple and easy, the convenient operation of its structure of while.

Description

Flexible snap-in structure

Technical field

This utility model stretches snap-in structure about one, particularly relates to a kind of flexible snap-in structure with electromagnetic assembly.

Background technology

Owing to science and technology industry is the most flourishing, electronic product miscellaneous (particularly hand-held or detachable electronic product) is popular for use in the daily life of modern, and these hand-helds or detachable electron product will mutually be blocked with a kind of snap-in structure after making to be finished electronic product and set combination by modern.

For example, when above-mentioned snap-in structure is such as a cradle, hand-held or detachable electronic product can be charged by cradle.That is, existing cradle is to be placed on the pedestal of cradle by electronic product, and props up electronic product with the snap fit of mechanism type, makes electronic product be snapped on cradle.

But the result being so designed that is, in time using the charging of existing cradle, aforesaid connected mode is easy to cause electronic product to separate with cradle because of the carelessness of usage behavior or collision, causes the damage of electronic product；Or it is that existing cradle is in time using, and mechanical coupler construction is complicated and operation is difficult to, is more easy to wait such as pressing and cause the abrasion of cradle because using muchly, even, and then damage the shell mechanism of electronic product, it is corrupted to the outward appearance of electronic product.

In view of this, need the flexible snap-in structure of a kind of improvement to solve the disappearance of existing cradle.

Utility model content

The technical problems to be solved in the utility model is, for deficiencies of the prior art, it is provided that a kind of simple structure, the easy to operate flexible snap-in structure with electromagnetism resistor.

This utility model solves its technical problem and be employed technical scheme comprise that the flexible snap-in structure of offer one, at least include electromagnetic assembly and clamping close device, this clamping close device magnetic couples this electromagnetic assembly, this clamping close device includes magnetic part and sliding part, the two ends of this magnetic part are different magnetic poles, and magnetic absorption or mutual magnetic repulsion are in this electromagnetic assembly；One end of this sliding part has a permanent magnet poles structure, the absorption of this permanent magnet poles structure magnetic or mutual magnetic repulsion are in this magnetic part, and should a displacement of magnetic part and make this sliding part carry out relative movement, and the other end of this sliding part adjoins the lateral border of this clamping close device；Wherein, when this electromagnetic assembly is not yet energized, this magnetic part magnetic absorption is in this electromagnetic assembly, and when this electromagnetic assembly answers an electric power signal to produce a magnetic pole, this magnetic part and this electromagnetic assembly are because of mutual magnetic repulsion, and then produces this displacement.

It is preferred that this electromagnetic assembly is electrically connected at a control processing unit, this electromagnetic assembly receives this electric power signal of this control processing unit and is energized；Wherein, this control processing unit is arranged in this flexible snap-in structure, or, it is arranged in a platform base.

It is preferred that this platform base is end point sale device.

It is preferred that the top and bottom that these two ends of this magnetic part are a magnetic texure body, this upper end be the first permanent magnet poles magnetic absorption or mutual magnetic repulsion in this electromagnetic assembly, and this lower end is second permanent magnet poles different from the magnetic pole of this first permanent magnet poles；Wherein, a upper surface magnetic absorption of this upper end or mutual magnetic repulsion in this electromagnetic assembly, and a downside of a upper side of this upper end and this lower end should displacement and adsorb or mutual magnetic repulsion with this permanent magnet poles structure magnetic of this sliding part.

It is preferred that this clamping close device also includes slide rail, this slide rail includes vertical slide rail and horizontal slide rail；Wherein, this magnetic part is arranged at interior and along this vertical slide rail the channeling direction of this vertical slide rail and moves up and down, and this sliding part is arranged at interior and along this horizontal slide rail the channeling direction of this horizontal slide rail and moves left and right.

It is preferred that the one of which that this slide rail is hole, groove and passage.

Preferably, magnetic pole when this permanent magnet poles structure of this sliding part, time different from the magnetic pole of the one in this upper side and this downside, this permanent magnet poles structure and this person in this upper side and this downside be magnetic absorption because magnetic pole is different, makes this sliding part be positioned at this clamping close device；Otherwise, magnetic pole when this permanent magnet poles structure, time identical with the magnetic pole of the another one in this upper side and this downside, this permanent magnet poles structure and this another one in this upper side and this downside be mutual magnetic repulsion because magnetic pole is identical, makes this other end of this sliding part stretch out this lateral border of this clamping close device.

Preferably, this clamping close device is connected together an external device (ED), when this upper surface magnetic absorption is in this electromagnetic assembly, this permanent magnet poles structure of sliding part should be adjacent to this lower end of this magnetic part, and this lower end is identical with the magnetic pole of this permanent magnet poles structure, and then produce a magnetic repulsion, make this sliding part stretch out this clamping close device towards one first moving direction and stretch into this external device (ED), make this clamping close device be connected together this external device (ED).

Preferably, when this upper surface and this electromagnetic assembly should this magnetic pole magnetic mutual exclusion produced by electric power signal time, this magnetic part is separated with this electromagnetic assembly and is produced this displacement, this displacement makes this upper end be adjacent to this permanent magnet poles structure of this sliding part, and this upper end is different from the magnetic pole of this permanent magnet poles structure, and then generation one magnetic attraction makes this sliding part regain this clamping close device towards one second moving direction, and this external device (ED) is made to separate with this clamping close device.

It is preferred that this external device (ED) is a screen with end points marketing function.

It is preferred that this electromagnetic assembly also includes suction sheet, this suction sheet is arranged between this electromagnetic assembly and this clamping close device.

This utility model also provides for a kind of flexible snap-in structure, at least includes electromagnetic assembly and clamping close device, and this clamping close device magnetic couples this electromagnetic assembly, and this clamping close device includes magnetic part and sliding part, and the two ends of this magnetic part are different magnetic poles；One end of this sliding part has a permanent magnet poles structure, and this permanent magnet poles structure should a displacement of magnetic part and carry out relative movement, and the other end of this sliding part adjoins the lateral border of this clamping close device；Wherein, it should whether electromagnetic assembly is energized and makes this magnetic part magnetic absorption or mutual magnetic repulsion in this electromagnetic assembly, and this magnetic part then makes this sliding part stretch out or regains in this clamping close device.

This utility model also provides for a kind of flexible snap-in structure, at least includes structure, electromagnetic assembly, magnetic part and sliding part, and the two ends of this magnetic part are different magnetic poles；One end of this sliding part has a permanent magnet poles structure, and this permanent magnet poles structure should a displacement of magnetic part and carry out relative movement；Wherein, it should whether electromagnetic assembly is energized and makes this magnetic part magnetic absorption or mutual magnetic repulsion in this electromagnetic assembly, and this magnetic part then makes this sliding part stretch out or regains in this structure.

This utility model stretches the snap-in structure setting by its electromagnetic assembly, magnetic part and sliding part, make electromagnetic assembly can according to whether be energized and with magnetic part magnetic absorption or mutual magnetic repulsion, and the consequent displacement of magnetic part can drive sliding part to move, make it connect or free in an external device (ED), thus making this flexible snap-in structure be connected to this external device (ED) or separate with this external device (ED).Thus this utility model can play the effect of the external device (ED) that is fixed, simultaneously its simple structure, easy to operate.

Accompanying drawing explanation

Figure 1A is the schematic appearance of a preferred embodiment of flexible snap-in structure of the present utility model.

Figure 1B is that the flexible snap-in structure in Figure 1A is in the generalized section of this preferred embodiment.

Fig. 1 C is that the flexible snap-in structure in Figure 1A is in another generalized section of this preferred embodiment.

Fig. 2 A is the sectional stereogram of another preferred embodiment of flexible snap-in structure of the present utility model.

Fig. 2 B is another visual angle sectional stereogram of the flexible snap-in structure in Fig. 2 A.

Fig. 2 C is the perspective elevation of the part-structure of the flexible snap-in structure in Fig. 2 A.

Detailed description of the invention

Refer to Figure 1A to Fig. 1 C, for the schematic perspective view of a preferred embodiment of flexible snap-in structure of the present utility model.This utility model described further below stretches the structure of snap-in structure.

In Figure 1A to Fig. 1 C, flexible snap-in structure 100 of the present utility model includes electromagnetic assembly 110, suction sheet 120 and clamping close device 130, and suction sheet 120 is arranged between electromagnetic assembly 110 and clamping close device 130.And clamping close device 130 further includes magnetic part 140, sliding part 150 (151-152) and slide rail 160.Wherein, slide rail 160 includes vertical slide rail 161 and horizontal slide rail 162, and magnetic part 140 is arranged in vertical slide rail 161, and sliding part 150 (151-152) is then arranged at horizontal slide rail 162.

Furthermore, magnetic part 140 is divided into upper and lower two ends 141,142, and the two ends up and down 141,142 of magnetic part 140 are different magnetic pole (N pole and S pole), such as: by with the upper end 141 of magnetic part 140 for N magnetic pole in this example, and the lower end 142 of magnetic part 140 is S magnetic pole.And the upper end 141 of magnetic part 140 includes upper side 141a and upper surface 141b, the lower end 142 of magnetic part 140 includes downside 142a, and as shown in Figure 1B and Fig. 1 C.In this example, utilize a magnetic part 140 and two sliding parts 151,152 so that basic creation concept of the present utility model to be described, but not with this example for limiting, anyone quantity that can adjust magnetic part 140 and sliding part 150-152 according to the demand of actual product and structure.

Arrange in pairs or groups refering to Figure 1B and Fig. 1 C the most again, two sliding parts 151,152 are arranged in horizontal slide rail 162, these two sliding parts 151,152 include permanent magnet poles structure 151a, 152a respectively, it is arranged at these two sliding parts 151,152 respectively and is adjacent to one end of magnetic part 140, and these two permanent magnet poles structures 151a, 152a magnetic absorption or mutual magnetic repulsion are in magnetic part 140.Such as, in this example, assume that two permanent magnet poles structures 151a, 152a are S magnetic pole, according to this, the N magnetic pole of the upper end 141 of two permanent magnet poles structures 151a, 152a then magnetic absorption magnetic part 140, in like manner, the S magnetic pole of the lower end 142 of two permanent magnet poles structures 151a, 152a mutual magnetic repulsion magnetic part 140.It addition, the other end of two sliding parts 151,152 is then adjacent to the lateral border of clamping close device 130.

Then with Figure 1B and Fig. 1 C, the start relation between magnetic part 140 and two sliding parts 151,152 is described.Can learn in structure explanation as the aforementioned, in this example, the upper end 141 of magnetic part 140 is N magnetic pole, and the lower end 142 of magnetic part 140 is then S magnetic pole, and two permanent magnet poles structures 151a of two sliding parts 151,152,152a are S magnetic pole.As shown in Figure 1B, when electromagnetic assembly 110 is not energized, the upper surface 141b of magnetic part 140 is adsorbed in suction sheet 120, magnetic part 140 is made to be positioned at the top of vertical slide rail 161, thus make the downside 142a of the lower end 142 of magnetic part 140 be adjacent to two sliding parts 151, two permanent magnet poles structures 151a of 152, the S magnetic pole of 152a, and two permanent magnet poles structures 151a, 152a is in response to the S magnetic pole of the lower end 142 of magnetic part 140 and mutual magnetic repulsion and then makes two sliding parts 151, 152 produce a displacement, and this displacement makes two sliding parts 151, the other end of 152 stretches out in the lateral border of clamping close device 130 respectively along the left and right directions of horizontal slide rail 162.

nullOtherwise，As shown in Figure 1 C，When electromagnetic assembly 110 is for producing N magnetic pole in response to an electric power signal，The upper surface 141b of magnetic part 140 is because of and mutual magnetic repulsion identical with electromagnetic assembly 110 magnetic pole，Make the upper surface 141b of magnetic part 140 away from suction sheet 120，And then make magnetic part 140 be positioned at the lower section of vertical slide rail 161，Thus make the upper side 141a of the upper end 141 of magnetic part 140 be adjacent to two sliding parts 151、Two permanent magnet poles structures 151a of 152、The S magnetic pole of 152a，And the upper side 141a of magnetic part 140 and two sliding parts 151、Two permanent magnet poles structures 151a of 152、152a is magnetic absorption because magnetic pole is different，And then make two sliding parts 151、152 regain in clamping close device 130 respectively along the left and right directions of horizontal slide rail 162.

Learnt by above-mentioned, two permanent magnet poles structures 151a, 152a magnetic absorption or the mutual magnetic repulsion of two sliding parts 151,152 are in the upper end 141 of magnetic part 140 or lower end 142, and make two sliding parts 151,152 carry out corresponding movement in response to the displacement of magnetic part 140.

Now the flexible snap-in structure 100 by the present embodiment explains as a example by being applied on the pedestal of an electromagnetic lock, and thus the start relation of previous embodiment will be more readily apparent from.First, by electronic product, such as: mobile phone or panel computer, it is placed on flexible snap-in structure 100 of the present utility model, when electromagnetic assembly 110 is not energized in response to an electric power signal, two sliding parts 151,152 stretch out clamping close device 130 and stretch in electronic product, and fixing electronic product is on flexible snap-in structure 100.Otherwise, when electromagnetic assembly 110 is energized in response to an electric power signal (such as: it can be that the software in response to mobile phone or panel computer controls to unlock produced electric power signal), depart from electronic product in two that is recoverable clamping close devices of sliding part 151,152 130, and then release electronic product being connected together on flexible snap-in structure 100.

In addition to the above embodiments, flexible snap-in structure of the present utility model can the structure-improved design according to the demand of actual product.Refer to Fig. 2 A to Fig. 2 C, for another preferred embodiment schematic diagram of flexible snap-in structure of the present utility model.As shown in Fig. 2 A to Fig. 2 C, include upper and lower casing 231,231 in the clamping close device 230 that this embodiment and precedent difference are flexible snap-in structure 200.And slide rail 260 includes vertical slide rail 261 and horizontal slide rail 262, and vertical slide rail 261 is a groove structure design in this example, horizontal slide rail 262 is then a pore space structure design, but the structure of slide rail design not with this specification for each embodiment aspect for limit, when practice, slide rail can be that hole, groove, passage maybe can house sliding part the structure making sliding part move along the channeling direction of slide rail, and this also falls within basic creation concept and range of the present utility model.

Referring again to Fig. 2 A to Fig. 2 C, the flexible snap-in structure 200 in this example applies 4 groups of magnetic parts 240 and sliding part 250, and flexible snap-in structure 200 is to explain as a example by a cradle.And the snap-in structure 200 that stretches includes vertical slide rail 261 and the horizontal slide rail 262 of electromagnetic assembly 210, suction sheet 220, upper and lower casing 240,4 groups of sliding parts of 231,232,4 groups of magnetic parts of clamping close device 230 and 4 groups of slide rails 260.Wherein, the annexation between each element is then identical with precedent, is not repeated here at this.

Then, become apparent from illustrating that this example does not exists together what application and start pass were fastened with precedent.Wherein, one group of magnetic part 240 is lifted in this example with sliding part 250 so that both start relations in this example to be described.When electromagnetic assembly 210 is not energized, it is positioned at the upper surface 241b of magnetic part 240 of vertical slide rail 261 away from suction sheet 220, the upper end 241 making magnetic part 240 is positioned at the lower house 232 of clamping close device 230 and its upper side 241a is adjacent to the permanent magnet poles structure 251 of sliding part 250, the permanent magnet poles structure 251 of the upper end 241 of magnetic part 240 and sliding part 250 is magnetic absorption because magnetic pole is different, makes in the horizontal slide rail 262 of the lower house 232 that sliding part 250 is positioned at clamping close device 230.Preset both magnetic poles at this most in advance, because both magnetic poles can change and design for change according to reality application, both start relation and application effects are the most only described.

Profess it, illustrate as a example by flexible snap-in structure 200 and an electronic product (such as: mobile phone or panel computer) be combined with each other；Wherein, when electromagnetic assembly 210 produces a magnetic pole in response to an electric power signal (such as: charging signals), the upper surface 241b of the upper end 241 of the most produced magnetic pole and magnetic part 240, will because magnetic pole is different magnetic absorption, make magnetic part 240 be displaced in the upper shell 231 of clamping close device 230 because of absorption electromagnetic assembly 210, and then make the downside 242a of the lower end 242 of magnetic part 240 be adjacent to the permanent magnet poles structure 251 of sliding part 250.And the permanent magnet poles structure 251 of the lower end 242 of magnetic part 240 and sliding part 250 because magnetic pole is identical mutual magnetic repulsion, the other end making sliding part 250 stretches out the lower house 232 of clamping close device 230 because of mutual magnetic repulsion, and stretching in aforesaid electronic product, and then the position of fixing electronic product and flexible snap-in structure.

Certainly, embodiments described above be lift cradle so that the application of flexible clamping close device of the present utility model to be described, but not with this example for limit, this utility model is equally applicable for each fields such as aforesaid electromagnetic lock or fixing device.Illustrate, electromagnetic assembly institute in response to electric power signal except the charging signals of this example, can be also aforesaid unlocking signal or command signal, and make the flexible clamping close device of the present utility model above-mentioned magnetic part of execution and the start relation of sliding part.

Furthermore, electromagnetic assembly more can be electrically connected at control processing unit, and such as: motherboard, electromagnetic assembly receives and controls the electric power signal of processing unit and be energized；Wherein, control processing unit and be arranged in flexible snap-in structure of the present utility model, or be arranged in a platform base (such as: end points sale device).But, in foregoing embodiments, suction sheet 120,220 is the magnetic pole strength strengthening electromagnetic assembly 110,210, can adjust or increase and decrease the configuration of suction sheet according to the situation of application in practice.In short, flexible snap-in structure of the present utility model has simple structure, the easy to operate and advantage that can be fixed.

These are only preferable possible embodiments of the present utility model; non-the most i.e. limit to scope of patent protection of the present utility model; such as use the equivalent structure change that this utility model description and graphic content are done, be both contained in the range of this utility model, close and give Chen Ming.

Claims (13)

1. a flexible snap-in structure, it is characterised in that at least include:

Electromagnetic assembly；And

Clamping close device, magnetic couples this electromagnetic assembly, and this clamping close device includes:

Magnetic part, its two ends are different magnetic poles, and magnetic absorption or mutual magnetic repulsion are in this electromagnetic assembly； And

Sliding part, one end of this sliding part has a permanent magnet poles structure, this permanent magnet poles structure magnetic Absorption or mutual magnetic repulsion in this magnetic part, and should a displacement of magnetic part and make this sliding part relatively move Dynamic, and the other end of this sliding part adjoins the lateral border of this clamping close device；

Wherein, when this electromagnetic assembly is not yet energized, this magnetic part magnetic absorption in this electromagnetic assembly, and When this electromagnetic assembly answers an electric power signal to produce a magnetic pole, this magnetic part is mutual because of magnetic with this electromagnetic assembly Scold, and then produce this displacement.

2. flexible snap-in structure as claimed in claim 1, it is characterised in that this electromagnetic assembly is electrically connected with Controlling processing unit in one, this electromagnetic assembly receives this electric power signal of this control processing unit and is energized； Wherein, this control processing unit is arranged in this flexible snap-in structure, or, it is arranged in a platform base.

3. flexible snap-in structure as claimed in claim 2, it is characterised in that this platform base is end point Sale device.

4. flexible snap-in structure as claimed in claim 1, it is characterised in that these two ends of this magnetic part are The top and bottom of one magnetic texure body, this upper end be the first permanent magnet poles magnetic absorption or mutual magnetic repulsion in This electromagnetic assembly, and this lower end is second permanent magnet poles different from the magnetic pole of this first permanent magnet poles；Wherein, One upper surface magnetic absorption of this upper end or mutual magnetic repulsion in this electromagnetic assembly, and a upper side of this upper end with One downside of this lower end should displacement and with this permanent magnet poles structure magnetic of this sliding part absorption or magnetic mutual Scold.

5. flexible snap-in structure as claimed in claim 4, it is characterised in that this clamping close device also includes sliding Rail, this slide rail includes vertical slide rail and horizontal slide rail；Wherein, this magnetic part is arranged at this vertical slide rail Interior and along this vertical slide rail channeling direction moves up and down, and this sliding part is arranged in this horizontal slide rail And move left and right along the channeling direction of this horizontal slide rail.

6. flexible snap-in structure as claimed in claim 5, it is characterised in that this slide rail is hole, groove One of which with passage.

7. flexible snap-in structure as claimed in claim 5, it is characterised in that when this of this sliding part is permanent The magnetic pole of field structure, time different from the magnetic pole of the one in this upper side and this downside, this permanent magnetic Electrode structure and this person in this upper side and this downside be magnetic absorption because magnetic pole is different, makes this sliding part It is positioned at this clamping close device；Otherwise, on the downside of the magnetic pole of this permanent magnet poles structure, with this upper side and this When the magnetic pole of the another one in face is identical, this permanent magnet poles structure and being somebody's turn to do in this upper side and this downside Another one is mutual magnetic repulsion because magnetic pole is identical, makes this other end of this sliding part stretch out this of this clamping close device outer Lateral margin.

8. flexible snap-in structure as claimed in claim 5, it is characterised in that this clamping close device is connected together One external device (ED), when this upper surface magnetic absorption is in this electromagnetic assembly, it should this permanent magnet poles of sliding part Structure is adjacent to this lower end of this magnetic part, and this lower end is identical with the magnetic pole of this permanent magnet poles structure, and then Produce a magnetic repulsion, make this sliding part stretch out this clamping close device towards one first moving direction and stretch into this outside dress Put, make this clamping close device be connected together this external device (ED).

9. flexible snap-in structure as claimed in claim 8, it is characterised in that when this upper surface and this electromagnetism Assembly should electric power signal this magnetic pole magnetic mutual exclusion produced time, this magnetic part is separated with this electromagnetic assembly And producing this displacement, this displacement makes this upper end be adjacent to this permanent magnet poles structure of this sliding part, and this upper end Different from the magnetic pole of this permanent magnet poles structure, so produce a magnetic attraction make this sliding part towards one second side of movement To regaining this clamping close device, and this external device (ED) is made to separate with this clamping close device.

10. flexible snap-in structure as claimed in claim 9, it is characterised in that this external device (ED) is a tool There is the screen of end points marketing function.

11. the most flexible snap-in structures, it is characterised in that this electromagnetic assembly also includes Suction sheet, this suction sheet is arranged between this electromagnetic assembly and this clamping close device.

12. 1 kinds of flexible snap-in structures, it is characterised in that at least include:

Electromagnetic assembly；And

Clamping close device, magnetic couples this electromagnetic assembly, and this clamping close device includes:

Magnetic part, its two ends are different magnetic poles；And

Sliding part, one end of this sliding part has a permanent magnet poles structure, and this permanent magnet poles structure should One displacement of this magnetic part and carry out relative movement, and the other end of this sliding part adjoins outside this clamping close device Lateral margin；

Wherein, it should whether electromagnetic assembly is energized and makes this magnetic part magnetic absorption or mutual magnetic repulsion in this electricity Magnetic assembly, this magnetic part then makes this sliding part stretch out or regains in this clamping close device.

13. 1 kinds of flexible snap-in structures, it is characterised in that at least include:

Structure；

Electromagnetic assembly；

Magnetic part, its two ends are different magnetic poles；And

Sliding part, one end of this sliding part has a permanent magnet poles structure, and this permanent magnet poles structure should magnetic One displacement of property part and carry out relative movement；

Wherein, it should whether electromagnetic assembly is energized and makes this magnetic part magnetic absorption or mutual magnetic repulsion in this electricity Magnetic assembly, this magnetic part then makes this sliding part stretch out or regains in this structure.