CN103108512B - Electronic device - Google Patents

Abstract

An electronic device is arranged on a bearing surface and comprises a shell, an electronic component and a shock absorption foot pad. The shell defines an accommodating space and is provided with a through hole. The electronic assembly is connected to the shell and located in the accommodating space. The shock-absorbing foot pad penetrates through the through hole and comprises a foot pad body which is exposed out of the shell and is abutted against the bearing surface, and a connecting part which is connected between the foot pad body and the electronic component, wherein the shock-absorbing foot pad can transmit the shock generated by the electronic component during action to the bearing surface so as to reduce the transmission of the shock of the electronic component to other components of the electronic device through the shell.

Description

Electronic installation

Technical field

The present invention relates to a kind of electronic installation, the vibrations that its electronic building brick produces when the action can be reduced be transferred to the electronic installation of remaining component particularly to a kind of。

Background technology

General loudspeaker device is provided with shock-absorbing pad in fixed structure, the vibrations that shock-absorbing pad produces when the action in order to absorb loudspeaker device are to avoid produced vibrations to be transferred to other elements and affect other element movement, as U.S. patent Nos discloses the content disclosed by No. 2009/0242322A1 " DAMPERANDFIXINGDEVICEUSINGTHESAME "。But, still can be transferred to, via the base arranged for loudspeaker device, other elements of being arranged on base by vibrations unabsorbed after shock-absorbing pad, and other elements are produced impact。Therefore, how developing a kind of electronic installation, shock energy produced by its loudspeaker device (or other can produce the electronic building brick of vibrations) is effectively absorbed to avoid affecting other assemblies, will become the theme that the present invention to inquire into further。

Summary of the invention

Therefore, the purpose of the present invention, namely providing a kind of can minimizing produced by electronic building brick, to shake the electronic installation being transferred to other assemblies。

Then, electronic installation of the present invention, it is arranged at a loading end, this electronic installation comprises a housing, an electronic building brick and a shock-absorbing callosity。This housing defines an accommodation space, and this housing is formed with a perforation。This electronic building brick is connected to this housing and is positioned at this accommodation space。This shock-absorbing callosity is arranged in this perforation, this shock-absorbing callosity includes one and exposes to this housing and be connected to the callosity body of this loading end, and one be connected to connecting portion between this callosity body and this electronic building brick, the vibrations that this electronic building brick can be produced when the action by this shock-absorbing callosity are transferred to this loading end。

This shock-absorbing callosity also includes an elastomer being arranged at this connecting portion, and the coefficient of elasticity of this elastomer is less than this callosity body and this connecting portion。

This connecting portion is column, and this connecting portion axially caves in away from the end face of this callosity body and is formed with a storage tank, and this elastomer is to be placed in this storage tank。

This electronic building brick has a lug, this lug is formed with a draw-in groove, this connecting portion is column and includes one and be connected to the first paragraph of this callosity body, a second segment, and one be connected to necking segment between this first paragraph and second segment, the external diameter of this necking segment is less than this first paragraph and second segment, and this necking segment can be sticked in this draw-in groove and make this lug be connected between this first paragraph and second segment。

This callosity body includes a disk body, and one is connected between this disk body and this first paragraph and external diameter is less than the cylinder of this disk body, and this disk body has the inner surface of an annular, and this inner surface is bonding on outer surface this perforation place contiguous of this housing。

Or, this callosity body also includes a bulge loop being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and this bulge loop。

The inner surface of this disk body is provided with multiple damping projection。

Or, this callosity body also includes multiple convex wing being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and multiple convex wing。The inner surface of this disk body is provided with multiple damping projection。

Or, this elastomer is to be sticked in this necking segment and have one first elastic, one second elastic, and the cervical region connecting this first elastic and this second elastic, this cervical region can be sticked in this draw-in groove, and makes this lug be connected between this first elastic and this second elastic。

This callosity body includes a disk body, and one is connected between this disk body and this first paragraph and external diameter is less than the cylinder of this disk body, and this disk body has the inner surface of an annular。

This callosity body also includes multiple convex wing being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and multiple convex wing。

Or, this callosity body also includes a bulge loop being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and this bulge loop。The inner surface of this disk body is provided with multiple damping projection。

The inner surface of this disk body is provided with multiple damping projection。

Or, this callosity body is formed with a slot, and this connecting portion is inserted in this slot separably。

This connecting portion includes one in the connecting portion body of column and at least one locating convex block being formed at this connecting portion body outer surface, and this callosity body is formed with this slot of at least one connection and to should the locating slot of locating convex block。

This electronic building brick has a lug, and this lug is formed with a draw-in groove, and this connecting portion also includes at least two-phase and alternately forms in the locating ring of this connecting portion body outer surface, and the cylinder of this connecting portion can be sticked in this draw-in groove and make this lug be connected between multiple locating ring。

This callosity body includes a disk body, and one is connected to this disk body and the external diameter cylinder less than this disk body, this slot and this locating slot and is formed at this cylinder, and this disk body has the inner surface of an annular。

This callosity body also includes a bulge loop being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and this bulge loop。

Or, this callosity body also includes multiple convex wing being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and multiple convex wing。

The inner surface of this disk body is provided with multiple damping projection。

This electronic building brick is a loudspeaker device, a fan or a storage device。

Effect of the present invention is in that to be arranged in housing by shock-absorbing callosity and be connected to electronic building brick, the shock energy that electronic building brick produces when action is made to be transferred to loading end via shock-absorbing callosity, thus reducing the unabsorbed vibrations of shock-absorbing callosity to be transferred to other assemblies via housing。

Accompanying drawing explanation

Fig. 1 is a three-dimensional exploded view of the first embodiment of electronic installation of the present invention；

Fig. 2 is a sectional view of this first embodiment；

Fig. 3 is an axonometric chart of a shock-absorbing callosity of this first embodiment；

Fig. 4 is an axonometric chart of the shock-absorbing callosity of the second embodiment of electronic installation of the present invention；

Fig. 5 is a sectional view of this second embodiment；

Fig. 6 is an axonometric chart of the shock-absorbing callosity of the 3rd embodiment of electronic installation of the present invention；

Fig. 7 is an axonometric chart of the 3rd embodiment；

Fig. 8 is a three-dimensional exploded view of the shock-absorbing callosity of the 4th embodiment of electronic installation of the present invention；

Fig. 9 is a sectional view of the 4th embodiment；

Figure 10 is a three-dimensional exploded view of the 5th embodiment of electronic installation of the present invention；

Figure 11 is a three-dimensional exploded view of the sixth embodiment of electronic installation of the present invention；

Figure 12 is a sectional view of this sixth embodiment；

Figure 13 is a three-dimensional exploded view of the shock-absorbing callosity of this sixth embodiment；

Figure 14 is a three-dimensional exploded view of the 7th embodiment of electronic installation of the present invention；

Figure 15 is a three-dimensional exploded view of the 8th embodiment of electronic installation of the present invention；And

Figure 16 is a sectional view of the 9th embodiment of electronic installation of the present invention。

Wherein, description of reference numerals is as follows:

100 electronic installations

1 housing

11 accommodation spaces

Twelve punch

13 guide grooves

2 electronic building bricks

21 lugs

211 draw-in grooves

3 shock-absorbing callosities

31 callosity bodies

311 disk bodies

312 inner surfacies

313 cylinders

314 damping projections

315 bulge loops

The 316 convex wings

317 slots

318 locating slots

32 connecting portions

321 storage tanks

322 first paragraphs

323 second segments

324 necking segment

325 connecting portion bodies

326 locating convex blocks

327 locating rings

33 elastomers

331 first elastic

332 second elastic

333 cervical regions

4 electronic building bricks

41 lugs

411 draw-in grooves

200 loading ends

Detailed description of the invention

For the present invention aforementioned and other technology contents, feature and effect, coordinate with reference in the detailed description of nine embodiments of accompanying drawing following, can clearly present。

Before the present invention is described in detail, it is noted that, in the following description content, similar element is to be identically numbered to represent。

Consult the first embodiment that Fig. 1, Fig. 1 are electronic installations of the present invention。Electronic installation 100 is arranged at a loading end 200 (see Fig. 2), and electronic installation 100 comprises housing 1, electronic building brick 2 and a shock-absorbing callosity 3。In the present embodiment, electronic building brick 2 is a loudspeaker device。Electronic building brick 2 can also be the assembly that a fan or a storage device etc. need to be combined with housing 1 by shock-damping structure。Electronic installation 100 can be notebook computer or the desktop computer with loudspeaker device and other electronic building brick (not shown)。

Consulting Fig. 1 to Fig. 3, housing 1 defines an accommodation space 11, and housing 1 is formed with a perforation 12。Electronic building brick 2 is connected to housing 1 and is positioned at accommodation space 11。Electronic building brick 2 has a lug 21, and lug 21 is formed with a draw-in groove 211。

Shock-absorbing callosity 3 is arranged in perforation 12, and it includes one and exposes to housing 1 and be connected to the connecting portion 32 that the callosity body 31, of loading end 200 is connected between callosity body 31 and electronic building brick 2, and an elastomer 33 being arranged at connecting portion 32。Callosity body 31 includes a disk body 311, and one be connected to disk body 311 and the external diameter cylinder 313 less than disk body 311, disk body 311 has the inner surface 312 of an annular, inner surface 312 can be bonding on the contiguous perforation of outer surface 12 places of housing 1 by colloid (not shown), makes shock-absorbing callosity 3 be arranged at housing 1。Connecting portion 32 is in column and includes first paragraph 322, second segment 323 being connected to callosity body 31 cylinder 313, and one be connected to necking segment 324 between first paragraph 322 and second segment 323, the external diameter of necking segment 324 is less than first paragraph 322 and second segment 323, and necking segment 324 can be sticked in the draw-in groove 211 on lug 21 and make lug 21 be connected between first paragraph 322 and second segment 323。Connecting portion 32 away from callosity body 31 end face axial cave in and be formed with a storage tank 321, elastomer 33 is to be placed in storage tank 321。Elastomer 33 in column and its coefficient of elasticity less than the coefficient of elasticity of callosity body 31 and connecting portion 32。In the present embodiment, elastomer 33, callosity body 31 and connecting portion 32 are all make with rubber for material, and its elastomer 33 is to make less than the soft rubber of callosity body 31 and connecting portion 32 with coefficient of elasticity, so as to promoting the effect absorbing vibrations。Therefore, shock-absorbing callosity 3 not only provides the function of general callosity, shock-absorbing callosity 3 absorbs, also by elastomer 33, the vibrations that electronic building brick 2 produces when the action, and by connecting portion 32 and callosity body 31, the vibrations not absorbed by elastomer 33 are transferred to loading end 200, thus reduce the vibrations being transferred to housing 1 to avoid affecting other electronic building brick (not shown)。In time assembling, first connecting portion 32 stretched into perforation 12 and disk body 311 inner surface 312 is bonding on the contiguous perforation of housing 1 outer surface 12 places, then the lug 21 of electronic building brick 2 being mutually clamped with connecting portion 32 necking segment 324 and namely complete to assemble。

Consult the second embodiment that Fig. 4 and Fig. 5, Fig. 4 and Fig. 5 are electronic installations of the present invention。Second embodiment is close with first embodiment, and its Main Differences illustrates as follows。

In the present embodiment, callosity body 31 also includes a bulge loop 315 being formed at cylinder 313 outer surface, and cylinder 313 can be sticked in housing 1 contiguous perforation 12 places and make the contiguous perforation of housing 1 12 places be connected between the inner surface 312 of disk body 311 and bulge loop 315。Whereby, the callosity body 31 in the present embodiment does not need to be arranged at housing 1 by colloid (not shown), and can pass through bulge loop 315 and be sticked in housing 1。

Additionally, the inner surface 312 of disk body 311 is provided with multiple damping projection 314。Damping projection 314 can reduce the contact area of callosity body 31 and housing 1, and then reduces the vibrations being transferred to housing 1 via callosity body 31。Furthermore, when loading end 200 makes electronic installation 100 be in jiggly state, damping projection 314 can produce to regulate the effect of height。

Consult the 3rd embodiment that Fig. 6 and Fig. 7, Fig. 6 and Fig. 7 are electronic installations of the present invention。3rd embodiment is close with the second embodiment, and simply bulge loop 315 (see Fig. 4) is to replace with multiple convex wings 316 being located on cylinder 313 outer surface。In the present embodiment, the number of the convex wing 316 is two, and is respectively formed in two opposition sides of cylinder 313, and housing 1 is formed with two communication bores 12 and the guide groove 13 of the corresponding convex wing 316。In time assembling, the convex wing 316 can be directed at guide groove 13 ground and connecting portion 32 is stretched into perforation 12 until inner surface 312 is connected to housing 1 outer surface, then rotate shock-absorbing callosity 3 and make the convex wing 316 be connected to housing 1 inner surface, callosity body 31 can be sticked in housing 1。Supplementary notes, owing to the convex wing 316 is little compared with the contact area of bulge loop 315 (see Fig. 4) Yu housing 1 with the contact area of housing 1, therefore also can reduce the vibrations being transferred to housing 1 via shock-absorbing callosity 3。The aforementioned convex wing 316 is only one embodiment of the invention with the quantity of corresponding guide groove 13, but the present invention is not limited, for instance three convex wings 316 are also applicable with corresponding three guide grooves 13。

Consult the 4th embodiment that Fig. 8 and Fig. 9, Fig. 8 and Fig. 9 are electronic installations of the present invention。4th embodiment is close with the 3rd embodiment, and simply elastomer 33 is different with connecting portion 32。

In the present embodiment, elastomer 33 is to be sticked in necking segment 324, and the vertical profile tangent plane of elastomer 33 substantially becomes " I " shape and has one first elastic 331,1 second elastic 332, and the cervical region 333 connecting the first elastic 331 and the second elastic 332, cervical region 333 can be sticked in draw-in groove 211, makes lug 21 be connected between the first elastic 331 and the second elastic 332。It is to say, the connecting portion 32 of the present embodiment is to be engaged with each other by elastomer 33 and lug 21, therefore the first paragraph 322 of the present embodiment is different with the ratio of necking segment 324 and the 3rd embodiment。Owing to the elastomer 33 of the present embodiment is directly to be connected to lug 21, therefore, it is possible to promote the effect of shock-absorbing further。

Consult the 5th embodiment that Figure 10, Figure 10 are electronic installations of the present invention。5th embodiment is close with the 4th embodiment, and simply the convex wing 316 in the 4th embodiment replaces with bulge loop 315。

Consult the sixth embodiment that Figure 11 to Figure 13, Figure 11 to Figure 13 are electronic installations of the present invention。The difference main with previous embodiment is, callosity body 31 and the connecting portion 32 of the first to the 5th embodiment are integrally formed, and callosity body 31 and the connecting portion 32 of the present embodiment are then be mutually assembled by snap-in structure。

Connecting portion 32 includes a connecting portion body 325, two in column and is formed at the locating convex block 326 of connecting portion body 325 outer surface, and at least two-phase alternately forms the locating ring 327 (number of locating ring 327 is two in the present embodiment) in connecting portion body 325 outer surface。Locating convex block 326 and locating ring 327 points are formed at connecting portion body 325 and are positioned at the end of two opposition sides。The cylinder 313 of callosity body 31 is formed with a slot 317 planted for connecting portion body 325 away from the sunken end face of disk body 311, and cylinder 313 is also formed with two connection slots 317 locating slot 318 of corresponding locating convex block 326。In time assembling, first callosity body 31 is assembled in housing 1, and connecting portion 32 is assembled in electronic building brick 2, wherein, callosity body 31 is to be arranged in the contiguous perforation of housing 1 12 places by bulge loop 315, connecting portion 32 is the draw-in groove 211 that connecting portion body 325 is sticked in lug 21, and makes lug 21 be connected between the plurality of locating ring 327；Then, connecting portion body 325 is formed in the slot 317 that callosity body 31 is stretched in the end of locating convex block 326, and makes locating convex block 326 stretch in locating slot 318 so that connecting portion 32 is assembled in callosity body 31 together with electronic building brick 2, so far namely complete to assemble。By the structural design that connecting portion 32 and callosity body 31 can assemble mutually, it is possible to decrease assembling procedure, reduce the time and cost that produce。Aforementioned locating convex block 326 is only one embodiment of the invention with the quantity of corresponding locating slot 318, but the present invention is not limited, such as a locating convex block 326 and corresponding locating slot 318, or three locating convex blocks 326 are also applicable with corresponding three locating slots 318。

Consult the 7th embodiment that Figure 14, Figure 14 are electronic installations of the present invention。7th embodiment is close with sixth embodiment, and simply the inner surface 312 of disk body 311 is provided with multiple damping projection 314。

Consult the 8th embodiment that Figure 15, Figure 15 are electronic installations of the present invention。8th embodiment is close with the 7th embodiment, and simply the bulge loop 315 in the 7th embodiment replaces with the convex wing 316。

Consult the 9th embodiment that Figure 16, Figure 16 are electronic installations of the present invention。9th embodiment is close with sixth embodiment。In the present embodiment, electronic installation also comprises another and is connected to housing 1 and is positioned at accommodation space 11 electronic building brick 4。Electronic building brick 4 has a lug 41, and lug 41 is formed with a draw-in groove 411。The number of the locating ring 327 of connecting portion 32 is three。In time assembling, connecting portion body 325 is the draw-in groove 411 of draw-in groove 211 lug 41 being sticked in lug 21, makes lug 21 and lug 41 be connected between two between locating ring 327。Whereby, connecting portion 32 can in order to connect multiple assembly。

In sum, electronic installation of the present invention is connected to electronic building brick 2 by shock-absorbing callosity 3, the shock energy that electronic building brick 2 produces when action is made to absorb via by shock-absorbing callosity 3, and unabsorbed shock energy is transferred to the loading end 200 of outside via shock-absorbing callosity 3, and then it is affected by vibrations to avoid all the other to be arranged on the assembly of housing 1 to reduce the vibrations being transferred to housing 1；Additionally, by the shock-absorbing effect that can promote shock-absorbing callosity 3 that arranges of elastomer 33, and can reduce, by the structural design of damping projection 314, the vibrations being transferred to housing 1；Furthermore, production process can be reduced to reduce cost by assemblnig callosity body 31 with connecting portion 32, therefore really can reach the purpose of the present invention。

What said above, it is only embodiments of the invention, when not limiting scope of the invention process with this, the simple equivalence namely generally made according to the claims in the present invention scope and invention description content changes and modifies, and all still remains within the scope of the patent。

Claims (19)

1. an electronic installation, is arranged at a loading end, it is characterised in that this electronic installation comprises:

One housing, defines an accommodation space and is formed with a perforation；

One electronic building brick, is connected to this housing and is positioned at this accommodation space；And

One shock-absorbing callosity, it is arranged in this perforation of this housing, this shock-absorbing callosity includes this housing exposing to this electronic installation and is connected to the callosity body of this loading end, and one be connected to connecting portion between this callosity body and this electronic building brick, the vibrations that this electronic building brick can be produced when the action by this shock-absorbing callosity are transferred to arrange this loading end of this electronic installation。

2., according to the electronic installation described in claim 1, wherein, this shock-absorbing callosity also includes an elastomer being arranged at this connecting portion, and the coefficient of elasticity of this elastomer is less than the coefficient of elasticity of this callosity body and this connecting portion。

3., according to electronic installation described in claim 2, wherein, this connecting portion is column, this connecting portion away from this callosity body end face axial cave in and be formed with a storage tank, this elastomer is to be placed in this storage tank。

4. according to the electronic installation described in claim 2, wherein, this electronic building brick has a lug, this lug is formed with a draw-in groove, this connecting portion be column and include one being connected to the first paragraph of this callosity body, a second segment and is connected to the necking segment between this first paragraph and second segment, the external diameter of this necking segment is less than this first paragraph and second segment, and this necking segment can be sticked in this draw-in groove and make this lug be connected between this first paragraph and second segment。

5. according to the electronic installation described in claim 4, wherein, this callosity body includes a disk body, and one is connected between this disk body and this first paragraph and external diameter is less than the cylinder of this disk body, this disk body has the inner surface of an annular, and this inner surface is bonding on outer surface this perforation place contiguous of this housing。

6. according to the electronic installation described in claim 4, wherein, this callosity body includes a disk body, and one be connected between this disk body and this first paragraph and external diameter is less than the cylinder of this disk body, this disk body has the inner surface of an annular, this callosity body also includes a bulge loop being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and this bulge loop。

7. according to the electronic installation described in claim 4, wherein, this callosity body includes a disk body, and one be connected between this disk body and this first paragraph and external diameter is less than the cylinder of this disk body, this disk body has the inner surface of an annular, this callosity body also includes multiple convex wing being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and the plurality of convex wing。

8., according to the electronic installation described in claim 6 or 7, wherein, the inner surface of this disk body is provided with multiple damping projection。

9. according to the electronic installation described in claim 4, wherein, this elastomer is to be sticked in this necking segment and have one first elastic, one second elastic, and the cervical region connecting this first elastic and this second elastic, this cervical region can be sticked in this draw-in groove, and makes this lug be connected between this first elastic and this second elastic。

10. according to the electronic installation described in claim 9, wherein, this callosity body includes a disk body, and one be connected between this disk body and this first paragraph and external diameter is less than the cylinder of this disk body, this disk body has the inner surface of an annular, this callosity body also includes multiple convex wing being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and the plurality of convex wing。

11. according to the electronic installation described in claim 9, wherein, this callosity body includes a disk body, and one be connected between this disk body and this first paragraph and external diameter is less than the cylinder of this disk body, this disk body has the inner surface of an annular, this callosity body also includes a bulge loop being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and this bulge loop。

12. according to the electronic installation described in claim 10 or 11, wherein, the inner surface of this disk body is provided with multiple damping projection。

13. according to the electronic installation described in claim 1, wherein, this callosity body is formed with a slot, and this connecting portion is inserted in this slot separably。

14. according to the electronic installation described in claim 13, wherein, this connecting portion includes one in the connecting portion body of column and at least one locating convex block being formed at this connecting portion body outer surface, and this callosity body is formed with this slot of at least one connection and to should the locating slot of locating convex block。

15. according to the electronic installation described in claim 14, wherein, this electronic building brick has a lug, this lug is formed with a draw-in groove, this connecting portion also includes at least two-phase and alternately forms in the locating ring of this connecting portion body outer surface, and this this physical ability of connecting portion is sticked in this draw-in groove and makes this lug be connected between the plurality of locating ring。

16. according to the electronic installation described in claim 15, wherein, this callosity body includes a disk body, and one be connected to this disk body and the external diameter cylinder less than this disk body, this slot and this locating slot are formed at this cylinder, this disk body has the inner surface of an annular, and this callosity body also includes a bulge loop being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and this bulge loop。

17. according to the electronic installation described in claim 15, wherein, this callosity body includes a disk body, and one be connected to this disk body and the external diameter cylinder less than this disk body, this slot and this locating slot are formed at this cylinder, this disk body has the inner surface of an annular, and this callosity body also includes multiple convex wing being formed at this cartridge outer surface, and this cylinder can be sticked in this perforation place contiguous of this housing and make this perforation place contiguous of this housing be connected between the inner surface of this disk body and the plurality of convex wing。

18. according to the electronic installation described in claim 16 or 17, wherein, the inner surface of this disk body is provided with multiple damping projection。

19. according to the electronic installation described in claim 1, wherein, this electronic building brick is a loudspeaker device, a fan or a storage device。