Summary of the invention
One purpose of the embodiment of the present invention is to provide a kind of new solution of assembling-disassembling structure, in order to fast assemble and disassemble.
According to the first aspect of the invention, a kind of assembling-disassembling structure is provided, comprising: first shell and for described the
The second shell of one shell assembly and disassembly together;
At least one first magnet, the dismounting end face of the second shell are provided on the dismounting end face of the first shell
On be provided at least one for second magnet for being attached together with first magnet;
At least one the axially outwardly extending arched ribs, and the arc are provided on the dismounting end face of the first shell
The outer wall of muscle is equipped with the protrusion that extends radially outwardly, offered on the dismounting end face of the second shell for the arched ribs
The groove of cooperation is formed with for matching with protrusion to limit the arched ribs in the groove on the cell wall of the groove
The recess of radial rotating.
Optionally, two group of first magnet is relatively set on the dismounting end face of the first shell, and, the second shell
Two group of second magnet is relatively set on the dismounting end face of body, wherein the first magnet of each group is configured as and wherein one group second
Magnet is attached together.
Optionally, two group of first magnet, for absorption a pole polarity on the contrary, and, two group of second magnetic
Iron, for a pole of absorption polarity it is opposite.
Optionally, first magnet and second magnet are single magnet, alternatively, first magnet and described the
Two magnet are the magnet mould group for including identical quantity.
Optionally, there are two arched ribs for setting on the dismounting end face of the first shell, and, on the cell wall of the groove
Recess there are two being formed, wherein each recess with corresponding protrusion for matching to limit corresponding arched ribs described
Radial rotating in groove.
Optionally, the first shell is the shell for accommodating battery, and the second shell is for accommodating mainboard
Shell.
Optionally, the assembling-disassembling structure further include: two electrodes and two battery spring laminations, wherein
It is opened up on the dismounting end face of the first shell there are two through-hole, each electrode is arranged in corresponding through-hole, each electricity
One end of pole is electrically connected with the battery respectively,
The battery spring lamination is fixed on the dismounting end face of the second shell, and each battery spring lamination is electric with the mainboard respectively
Property connection,
Under assembly mode, the other end of each electrode is in contact with corresponding battery spring lamination respectively so that circuit is connected.
Optionally, the battery spring lamination includes erection part and turn-up portion, wherein the angle of the erection part and turn-up portion is
Acute angle, the erection part are vertically fixed on the dismounting end face of the second shell, and the turn-up portion of described two battery spring laminations is not
The direction for being connected with one end of the erection part is opposite.
Optionally, the component that the arched ribs and the first shell are integrally formed.
According to the second aspect of the invention, a kind of AR glasses are provided, including any assembling-disassembling structure of first aspect.
The beneficial effect of one embodiment of the present of invention is, convenient to disassembly, under assembly mode, first shell and
Second shell limits axial activity by the first magnet and attracting each other for the second magnet, is stuck in groove by the protrusion of arched ribs
Recess realization on cell wall is radially fixed, in disassembly, is detached from the protrusion of arched ribs in groove
Recess on cell wall, then first shell is moved along the direction far from second shell by external force, to complete first shell
With the disassembly of second shell.
By referring to the drawings to the detailed description of exemplary embodiment of the present invention, other feature of the invention and its
Advantage will become apparent.
Specific embodiment
Carry out the various exemplary embodiments of detailed description of the present invention now with reference to attached drawing.It should also be noted that unless in addition having
Body explanation, the unlimited system of component and the positioned opposite of step, numerical expression and the numerical value otherwise illustrated in these embodiments is originally
The range of invention.
Be to the description only actually of at least one exemplary embodiment below it is illustrative, never as to the present invention
And its application or any restrictions used.
Technology, method and apparatus known to person of ordinary skill in the relevant may be not discussed in detail, but suitable
In the case of, the technology, method and apparatus should be considered as part of specification.
It is shown here and discuss all examples in, any occurrence should be construed as merely illustratively, without
It is as limitation.Therefore, other examples of exemplary embodiment can have different values.
It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi
It is defined in a attached drawing, then in subsequent attached drawing does not need that it is further discussed.
Fig. 1 is the decomposition diagram of assembling-disassembling structure according to an embodiment of the invention.Fig. 2 is assembly and disassembly knot shown in fig. 1
The diagrammatic cross-section of structure.
According to Fig. 1, which includes first shell 100 and is used for the assembly and disassembly of first shell 100 together
Second shell 200.
At least one first magnet 300 is provided on the assembly and disassembly end face of first shell 100.The assembly and disassembly end of second shell 200
At least one second magnet 400 for being attached together with the first magnet 300 is provided on face.
At least one arched ribs 110 is provided on the dismounting end face of first shell 100.Arched ribs 110 stretch out first shell
100 dismounting end face, and perpendicular to the end face.
According to Fig.2, the outer wall of arched ribs 110 is equipped with the protrusion 111 to extend radially outwardly.Second shell 200 is torn open
The groove 210 for cooperating with arched ribs 110 is offered on dress end face.It is formed on the cell wall of groove 210 and is used for protrusion 111
It matches to limit the recess 211 of the radial rotating in groove 210 of arched ribs 110.
Assembling-disassembling structure provided in an embodiment of the present invention, it is convenient to disassembly.Under assembly mode, first shell 100 and
Two shells 200 limit axial activity by the first magnet 300 and attracting each other for the second magnet 400, pass through the convex of arched ribs 110
It is radially fixed to play the recess realization that 111 are stuck on 210 cell wall of groove, in disassembly, arched ribs are made by way of rotation
110 protrusion 111 is detached from the recess on 210 cell wall of groove, then makes first shell 100 along far from second shell by external force
The direction of body 200 is mobile, to complete the disassembly of first shell 100 and second shell 200.
In one embodiment of the invention, the component that first shell 100 and arched ribs 110 are integrally formed.First shell
Body 100 and arched ribs 110 are formed using plastic material.
In the embodiment of the present invention, first shell 100 and second shell 200 pass through 300 He of the first magnet when being assembled
After the attracting each other of second magnet 400 limits axial activity, the protrusion 111 of arched ribs 110 may be stuck on 210 cell wall of groove
Recess, it is also possible to the recess not being stuck on 210 cell wall of groove.It is not stuck in 210 slot of groove in the protrusion 111 of arched ribs 110
When recess on wall, by way of rotating first shell 100, so that the protrusion 111 of arched ribs 110 is stuck in 210 slot of groove
Recess on wall, to prevent first shell 100 relative to the radial rotating of second shell 200.
Fig. 2 shows being oppositely arranged on the dismounting end face of first shell 100, there are two arched ribs 110, each arched ribs
110 outer wall is equipped with protrusion 111, and correspondingly, there are two recessed for the formation of groove 210 opened up on the dismounting end face of second shell 200
Fall into 211.Under assembly mode, each recess 211 is used for and corresponding raised 111 phase for first shell 100 and second shell 200
Cooperation is to limit corresponding arched ribs 110 radial rotating in groove 210.
Fig. 2 shows the numbers of arched ribs 110 be only an example, in the embodiment of the present invention, first shell 100 is torn open
The arched ribs 110 being arranged on dress end face can also be other quantity.
In one embodiment of the invention, the groove 210 opened up on the dismounting end face of second shell 200 can be blind
Slot, or through-hole.
According to Fig. 1, two group of first magnet 300 is relatively set on the dismounting end face of first shell 100.Second shell
Two group of second magnet 400 is relatively set on 200 dismounting end face.First shell 100 and second shell 200 are in assembly mode
Under, each group of the first magnet 300 is attached together with wherein one group of second magnet 400.
It should be noted that the quantity and second shell of the first magnet 300 being arranged on the dismounting end face of first shell 100
Be not limited in two groups of the quantity for the second magnet 400 being arranged on 200 dismounting end face, can also be other quantity.
In one embodiment of the invention, the first magnet 300 and the second magnet 400 are single magnet.Alternatively, the first magnetic
Iron 300 and the second magnet 400 are the magnet mould group for including identical quantity magnet.
In one embodiment of the invention, the first magnet 300 and the second magnet 400 stick in the by seccotine respectively
On the dismounting end face of one shell 100 and on the dismounting end face of second shell 200.During adhesion, by the first magnet 300 not
On the very viscous dismounting end face for being connected in first shell 100 that be used to adsorb, and, it will not be used to inhale in the second magnet 400
On the very viscous dismounting end face for being connected in second shell 200 of attached one.
According to Fig. 1, first shell 100 is arranged in when being assembled in first shell 100 and second shell 200
The first magnet 300 on the upside of dismounting end face is adsorbed on the second magnet 400 being arranged on the downside of the dismounting end face of second shell 200
Together, and, the first magnet 300 on the downside of the dismounting end face of first shell 100 is set and tearing open for second shell 200 is set
The second magnet 400 on the upside of dress end face is attached together, and first shell 100 and second shell 200 is caused to be assembled on the contrary.
In order to solve this technical problem, two group of first magnet being arranged on the dismounting end face of first shell 100 is used for
Absorption a pole polarity on the contrary, and, be arranged in second shell 200 dismounting end face on two group of second magnet, for inhaling
The polarity of an attached pole is opposite.In this manner it is ensured that each first magnet 300 on the dismounting end face of first shell 100 is arranged in
Be arranged to only with second shell 200 is set dismounting end face on the second magnet 400 of corresponding position be attached together, with
Realize the automatic capturing and fool proof in assembly.
For example, the extremely N for absorption for the first magnet 300 being arranged on the upside of the dismounting end face of first shell 100
Pole, is arranged in the extremely pole S for absorption of the first magnet 300 on the downside of the dismounting end face of first shell 100, and setting is the
The extremely pole S of one for adsorbing of the second magnet 400 on the upside of the dismounting end face of two shells 200, is arranged in first shell 100
Dismount the extremely pole N of one for adsorbing of the first magnet 300 on the downside of end face.
For another example one for adsorbing for the first magnet 300 being arranged on the upside of the dismounting end face of first shell 100 is extremely
The pole S, the extremely pole N, the setting for absorption that the first magnet 300 on the downside of the dismounting end face of first shell 100 is arranged in exist
The extremely pole N of one for adsorbing of the second magnet 400 on the upside of the dismounting end face of second shell 200, is arranged in first shell 100
Dismounting end face on the downside of the first magnet 300 the extremely pole S for absorption.
It should be noted that the first magnet and the second magnet are each magnet mould when including the magnet mould group of multiple magnet
Each of group magnet, the polarity of a pole for absorption it is identical.
In one embodiment of the invention, first shell 100 is the shell for placing battery.Second shell 200 is
For placing the shell of mainboard.Battery in first shell 100 is used for as the main board power supply in second shell 200.
For example, assembling-disassembling structure shown in fig. 1 is a temple structure of AR glasses.Second shell 200 is placed with AR glasses
Mainboard.First shell 100 is placed with for the battery for AR glasses main board power supply.The assembling-disassembling structure further includes two electrodes.
It is opened up on the dismounting end face of first shell 100 there are two through-hole, each electrode is arranged in corresponding through-hole.One end of each electrode with
Battery is electrically connected, and the other end and mainboard of each electrode are electrically connected.
Fig. 3 shows the diagrammatic cross-section of the assembling-disassembling structure of another embodiment according to the present invention.Fig. 4 is the dress shown in Fig. 3
Tear the structural schematic diagram of the first shell in structure open.Fig. 5 is the structural representation of the second shell in the assembling-disassembling structure shown in Fig. 3
Figure.
First shell 100 in assembling-disassembling structure shown in Fig. 3 can placing battery 700, second shell 200 can place mainboard
(not shown).
Assembling-disassembling structure shown in Fig. 3 further includes two electrodes 500 and two battery spring laminations 600.
According to Fig.4, through-hole 120 there are two being opened up on the dismounting end face of first shell 100a.Each setting of electrode 500 exists
In corresponding through-hole 120.One end of each electrode 500 is electrically connected with the battery 700 being placed in first shell 100a respectively.Example
Such as, each electrode 500 is electrically connected by winding displacement and battery 700.
According to Fig.3, battery spring lamination 600 is fixed on the dismounting end face of second shell 200.Each battery spring lamination 600 divides
It is not electrically connected with the mainboard being placed in second shell 200.For example, each battery spring lamination 600 is electrically connected by winding displacement and mainboard
It connects.
After first shell 100a and second shell 200 complete assembly, the other end of each electrode 500 respectively with corresponding electricity
Pond elastic slice 600 is in contact so that circuit is connected.
In one embodiment of the invention, according to Fig.5, battery spring lamination 600 includes erection part 610 and turn-up portion
620.The angle of erection part 610 and turn-up portion 620 is acute angle °.The erection part 610 of each battery spring lamination 600 is vertically fixed on second
On the dismounting end face of shell 200, and the direction of not connected one end for having erection part 610 of turn-up portion 620 of two battery spring laminations 600
On the contrary.
In the embodiment of the present invention, first shell 100 and second shell 200 pass through 300 He of the first magnet when being assembled
After the attracting each other of second magnet 400 limits axial activity, the protrusion 111 of arched ribs 110 is not it is possible that be stuck in groove 210
Recess on cell wall.At this point, by way of rotating first shell 100, so that the protrusion 111 of arched ribs 110 is stuck in groove
Recess on 210 cell walls.In rotary course, the erection part 610 of battery spring lamination 600 and the angle of turn-up portion 620 are acute angle,
Frictional resistance caused by can reduce because of battery spring lamination 600.
Based on the same inventive concept, An embodiment provides a kind of AR glasses, including any of the above-described implementation
Assembling-disassembling structure described in example.The assembling-disassembling structure is a temple of AR glasses.
The first shell 100 for being placed with battery is located at one end of temple, separate AR eyeglass.It is placed with the of mainboard
Two shells 200 are located at one end of temple, close AR eyeglass.
According to the assembling-disassembling structure shown in fig. 1 as AR eyeglasses temple arm, user is when wearing AR glasses, second shell 200
Recess 220 and user ear contacts, be placed with and the first shell 100 of battery and be placed with the second shell 200 of mainboard
It is located at the two sides of ear.It can play the role of disperse weight in this way, avoid for battery and mainboard being arranged in assembling-disassembling structure
One end cause the distribution of weight of assembling-disassembling structure uneven, cause user to wear uncomfortable problem.
Fig. 6 shows the structural schematic diagram of the second shell of AR glasses according to an embodiment of the present invention.
According to Fig.6, second shell 200 is used to place the mainboard of AR glasses.It is placed with the first shell installation of battery
In one end of second shell.
According to Fig.6, two group of second magnet 400 is relatively set on the dismounting end face of second shell 200.First shell
With second shell 200 under assembly mode, be arranged in first shell dismounting end face on two group of first magnet respectively with it is corresponding
One group of second magnet 400 be attached together.
Fluted 210 are opened up on the dismounting end face of second shell 200.It is formed on the cell wall of groove 210 with setting the
The recess that the protrusion of arched ribs on one shell dismounting end face matches, to limit arched ribs radial rotating in groove 210.
According to Fig.6, battery spring lamination 600 is fixed on the dismounting end face of second shell 200.Each battery spring lamination 600 divides
It is not electrically connected with the mainboard being placed in second shell 200.After first shell 100 and second shell 200 complete assembly, lead to
The contact of the electrode, battery spring lamination of setting on the first shell is crossed, realizes circuit conducting, so that battery is main board power supply.
All the embodiments in this specification are described in a progressive manner, same and similar portion between each embodiment
Divide cross-reference, each embodiment focuses on the differences from other embodiments, and each embodiment
It can according to need exclusive use or be combined with each other.
Although some specific embodiments of the invention are described in detail by example, the skill of this field
Art personnel it should be understood that example above merely to being illustrated, the range being not intended to be limiting of the invention.The skill of this field
Art personnel are it should be understood that can without departing from the scope and spirit of the present invention modify to above embodiments.This hair
Bright range is defined by the following claims.