CN204302856U - A kind of shock-damping structure, support and electronic equipment - Google Patents

Abstract

The utility model discloses a kind of shock-damping structure, support and electronic equipment, shock-damping structure comprises: main body, damping part and underlying component; Wherein, between described main body and described underlying component, there is described damping part at interval, and described underlying component contacts with the supporting surface at described shock-damping structure place.In embodiment of the present utility model, by arranging damping part between supporting surface and main body or equipment, with reduce even avoid main body occur vibrations or by the equipment be connected with main body cause shake time caused supporting surface vibrations, improve Consumer's Experience thus.

Description

A kind of shock-damping structure, support and electronic equipment

Technical field

The utility model relates to device structure technical field, particularly a kind of shock-damping structure, support and electronic equipment.

Background technology

Along with the development of electronics technology, the application of the standoff terminal device of tool is more and more extensive, as having the all-in-one, pad etc. of supporting structure, equipment has support and housing, and one end of support is connected with housing, can rotate around its junction, when equipment is placed in desktop, the other end of support can slide on the table, and ensure that device screen can be in different display planes, adding users is experienced.

Current equipment is when starting, and the hardware such as the hard disk in its housing can produce vibrations to a certain degree usually, very likely produce the resonance of equipment thus, and then are delivered to user's desktop by the support of equipment, bring poor Consumer's Experience to user.

Utility model content

The purpose of this utility model is to provide a kind of shock-damping structure, support and electronic equipment, in order to solve in prior art equipment when starting, the vibrations that can produce because of hardware in its housing, bring the resonance of equipment, and then be delivered to user's desktop by the support of equipment, the technical problem of poor Consumer's Experience is brought to user.

The utility model provides a kind of shock-damping structure, comprising:

Main body, damping part and underlying component;

Wherein, between described main body and described underlying component, there is described damping part at interval, and described underlying component contacts with the supporting surface at described shock-damping structure place.

Above-mentioned shock-damping structure, preferably, described damping part is arranged on the sunk area of described main body, and described underlying component is arranged on described damping part.

Above-mentioned shock-damping structure, preferably, described underlying component is the modular construction setting that hardness is more than or equal to default value.

Above-mentioned shock-damping structure, preferably, described damping part comprises rubber components or TPUE parts.

Above-mentioned shock-damping structure, preferably, described underlying component comprises polyformaldehyde parts or membrane sheet advanced in years.

The utility model additionally provides a kind of support, and described support comprises support bar, and the first end of described support bar is provided with the shock-damping structure as described in above-mentioned any one, and between the supporting surface at described support bar and described support place, there is described shock-damping structure at interval.

The utility model additionally provides a kind of electronic equipment, comprising: apparatus casing and support described above, in described support, the second end of support bar is connected with described apparatus casing.

From such scheme, a kind of shock-damping structure, support and electronic equipment that the utility model provides, by being to arrange damping part between supporting surface and main body or equipment, with reduce even avoid main body occur vibrations or by the equipment be connected with main body cause shake time caused supporting surface vibrations, improve Consumer's Experience thus.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiment of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The structural representation of a kind of shock-damping structure embodiment one that Fig. 1 provides for the utility model;

The structural representation of a kind of shock-damping structure embodiment two that Fig. 2 provides for the utility model;

Fig. 3 is the application example figure of the utility model embodiment;

The structural representation of a kind of stent embodiment three that Fig. 4 provides for the utility model;

The structural representation of a kind of electronic equipment embodiment four that Fig. 5 provides for the utility model;

Fig. 6 is another structural representation of the utility model embodiment four.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

With reference to figure 1, for the structural representation of a kind of shock-damping structure embodiment one that the utility model provides, wherein, described shock-damping structure can be applied in various equipment or product, the equipment caused by vibrations of equipment or product or the vibrations of product support surface are even avoided with reduction, reduce the frictional force between shock-damping structure and supporting surface simultaneously, improve Consumer's Experience thus.

Shock-damping structure in the present embodiment can comprise and forming with lower component:

Main body 1, damping part 2 and underlying component 3.

Wherein, between described centrum 1 and described underlying component 3, there is described damping part 2 at interval, and described underlying component 3 contacts with the supporting surface 4 at described shock-damping structure place.

It should be noted that, aforementioned body 1, described damping part 2 can be as shown in Figure 1 with the syndeton of described underlying component 3, the side of described damping part 2 is connected with described main body 1, the opposite side of described damping part 2 is connected with described underlying component 3, thus, when there are vibrations in described main body 1, vibrations in described main body 1 can disappear through the damping effect of described damping part 2, described underlying component 3 is made to there will not be any vibrations, and then make the supporting surface 4 that contacts with this underlying component 3 there will not be vibrations, can not occur because shaking the noise caused thus, or user can not experience vibrations equally when contacting this supporting surface 4.

In addition, in specific implementation, because described damping part 2 is generally flexible material, if make, described damping part 2 is directly contacted with described supporting surface 4, the frictional force between described shock-damping structure and described supporting surface 4 can be caused larger, be unfavorable for the smooth and easy movement of described shock-damping structure on described supporting surface 4, therefore, in the present embodiment, between described damping part 2 and described supporting surface 4, there is described underlying component 3 at interval, the device of underlying component 3 described damping part 2 for material is different from thus, make it possible to the frictional force suitably reduced between described shock-damping structure and described supporting surface 4, ensure the smooth and easy movement of described shock-damping structure on described supporting surface 4.

From such scheme, a kind of shock-damping structure embodiment one that the utility model provides, by being to arrange damping part between supporting surface and main body or equipment, with reduce even avoid main body occur vibrations or by the equipment be connected with main body cause shake time caused supporting surface vibrations, and by arranging underlying component, frictional force between suitable reduction shock-damping structure and supporting surface, is convenient to the smooth and easy movement of shock-damping structure on its supporting surface, improves Consumer's Experience thus.

With reference to figure 2, for the structural representation of a kind of shock-damping structure embodiment two that the utility model provides, wherein, for saving space in described shock-damping structure, sunk area can be dug out in its main body 1, in order to arrange damping part 2 and underlying component, that is, as shown in Figure 2, described damping part 2 is arranged in the sunk area 5 of described main body 1, and described underlying component 3 is arranged on described damping part 2.

It should be noted that, be positioned on the damping part 2 of described main body 1 sunk area 5 although described underlying component 3 is arranged, but described underlying component 3 is not connected with described main body 1 or contacts, therefore, can in the effect ensureing damping in the present embodiment, save taking up room and material cost of shock-damping structure, reduce the frictional force etc. between shock-damping structure and supporting surface simultaneously.

In actual applications, place to ensure that shock-damping structure can be stablized on described supporting surface 4 or support and ensure that described shock-damping structure and supporting surface 4 carry out the relative motion of contact smoothly, as shown in Figure 3, the utility model is when specific implementation, the modular construction that described underlying component 3 adopts hardness to be more than or equal to default value can be arranged, underlying component 3 is made to have certain degree of hardness, and ensure that its surface texture is smooth structure, ensure that main body or equipment can move smoothly while supporting surface stable support on described supporting surface, ensure the practicality of the utility model institute application apparatus.

It should be noted that, here in underlying component 3, surface texture is smooth structure, not traditional skidding implication, not containing the structure of frictional force, in the present embodiment, the surface of described underlying component 3 can have frictional force, to ensure that described shock-damping structure can be static on described supporting surface, and when described underlying component 3 needs to slide at described supporting surface 4, make the frictional force between described underlying component 3 and described supporting surface 4 be unlikely to excessive, and cause it not slide.Here smooth structure refers to for the rigid structure that has some setbacks relative to the movement that such as flexible material such as sponge or silica gel causes.Such as, during the rigid structure of described underlying component 3 is arranged, described default value can be set to consistent with the hardness values of described main body, that is, described underlying component 3 can be the rigid structure identical with described main body 1, or also can be the structure higher than described main body 1 hardness.

In each embodiment above-mentioned, described damping part 2 can adopt rubber components or TPUE parts etc., ensures its damping effect.

Accordingly, described underlying component 3 can adopt the realization such as polyformaldehyde parts or membrane sheet advanced in years, to ensure its smooth and easy movement relative to described supporting surface 4.

In concrete implementation, described shock-damping structure can be realized by following structure: main body, rubber components and polyformaldehyde parts, between described main body and described polyformaldehyde parts, there is described rubber components at interval, and described polyformaldehyde parts contact with the supporting surface at described shock-damping structure place;

Described shock-damping structure also can be realized by following structure: main body, rubber components and membrane sheet advanced in years, and between described main body and described membrane sheet advanced in years, there is described rubber components at interval, and described membrane sheet advanced in years contacts with the supporting surface at described shock-damping structure place;

Described shock-damping structure also can be realized by following structure: main body, TPUE parts and membrane sheet advanced in years, between described main body and described membrane sheet advanced in years, there are described TPUE parts at interval, and described membrane sheet advanced in years contacts with the supporting surface at described shock-damping structure place;

Described shock-damping structure also can be realized by following structure: main body, TPUE parts and polyformaldehyde parts, between described main body and described polyformaldehyde parts, there are described TPUE parts at interval, and described polyformaldehyde parts contact with the supporting surface at described shock-damping structure place;

Etc..

With reference to figure 4, for the structural representation of a kind of stent embodiment three that the utility model provides, wherein, described support comprises support bar 6, the first end of described support bar 6 is provided with the shock-damping structure 7 as described in each embodiment above-mentioned, and between the supporting surface 4 at described support bar 6 and described support place, there is described shock-damping structure 7 at interval.

Wherein, the structure that realizes of described shock-damping structure 7 with reference to the structure realization such as described in aforementioned any embodiment, no longer can describe in detail herein.

It should be noted that, by the support in the present embodiment, vibrations on the bracket or because of coupled equipment vibrations caused by resonance occur time, described support can produce damping effect by the shock-damping structure on its support bar, to make the supporting surface at described support place there will not be vibrations, reduce the frictional force between described shock-damping structure 7 and described supporting surface 4 simultaneously, improve the experience of user.

With reference to figure 5, for the structural representation of a kind of electronic equipment embodiment four that the utility model provides, wherein, described electronic equipment can be the standoff devices of tool such as mobile phone, pad and all-in-one, as shown in Figure 5, described electronic equipment includes: apparatus casing 8 and the support as described in above-described embodiment 9, and in described support 9, the second end of support bar 6 is connected with described apparatus casing 8, and the first end of described support bar 6 is contacted with described supporting surface 4 by described shock-damping structure 7.Described shock-damping structure 7 includes main body 1, damping part 2 and underlying component 3, described shock-damping structure 7 is contacted with described supporting surface 4 by its underlying component 3, and main body 1 in described support bar 6 and described shock-damping structure 7 is equal and between described underlying component 3, there is described damping part 2 at interval, makes interval between described support 9 and described underlying component have described damping part 2.

Wherein, in the present embodiment, syndeton between described support 9 and described apparatus casing 8 can as shown in Figure 5, the connection of described supporting surface 4 and apparatus casing 8 described in described support 9 common support, and in angle a1 between described apparatus casing 8 and described support 9.In above, in described support 9, the first end of support bar 6 is contacted with described supporting surface 4 by described shock-damping structure 7, and containing the damping part 2 with damping efficacy in described shock-damping structure 7, make the vibrations meeting of generation on described support 9 on described damping part 2 by damping even shock absorbing, vibrations can not be delivered on described supporting surface 4, improve Consumer's Experience.

And in the present embodiment, the position that described shock-damping structure 7 contacts with described supporting surface 4 is provided with underlying component 3, the hardness property of this underlying component 3 can reduce the frictional force between described supporting surface 4, when making the angle between described apparatus casing 8 and described support 9 be transformed to a2, the smooth and easy slip of described support 9 endpoint location on described supporting surface 4 can be ensured, as shown in Figure 6, in the present embodiment, a2 is greater than a1, and in other realize, a2 also can be less than a1.

Above a kind of shock-damping structure provided by the utility model, support and electronic equipment are described in detail, apply specific case herein to set forth principle of the present utility model and embodiment, the explanation of above embodiment just understands core concept of the present utility model for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (7)

1. a shock-damping structure, comprising:

Main body, damping part and underlying component;

Wherein, between described main body and described underlying component, there is described damping part at interval, and described underlying component contacts with the supporting surface at described shock-damping structure place.

2. shock-damping structure according to claim 1, is characterized in that, described damping part is arranged on the sunk area of described main body, and described underlying component is arranged on described damping part.

3. shock-damping structure according to claim 1, is characterized in that, described underlying component is the modular construction setting that hardness is more than or equal to default value.

4. the shock-damping structure according to claim 1,2 or 3, is characterized in that, described damping part comprises rubber components or TPUE parts.

5. shock-damping structure according to claim 4, is characterized in that, described underlying component comprises polyformaldehyde parts or membrane sheet advanced in years.

6. a support, described support comprises support bar, and the first end of described support bar is provided with as the shock-damping structure in claim 1 to claim 5 as described in any one, and between the supporting surface at described support bar and described support place, there is described shock-damping structure at interval.

7. an electronic equipment, comprising: apparatus casing and support as claimed in claim 6, in described support, the second end of support bar is connected with described apparatus casing.