CN201156218Y - Vibrating isolation buffering element and notebook computer - Google Patents

Abstract

The utility model relates to a vibration isolating buffer element and a notebook computer. The vibration isolating buffer element comprises a body and a damping lining frame which is embedded in the body. The body has the same shape as the damping lining frame. The body is made from rubber and is provided with a plurality of constraint faces which are connected with each other. The damping lining frame is made from damping alloy and is provided with a plurality of lining frame lateral plates which are connected with each other. The lining frame lateral plates are reed arrays, porous plates or components consisting of thin casing ribs. The vibration isolating buffer element is provided with a plurality of installing holes running through the body and the damping lining frame. The damping lining frame is embedded into the body in the form of thermal compression molding. The vibration isolating buffer element consists of the body made from adhesive elastic material and the damping lining frame made from the damping alloy and has the comprehensive characteristics of the adhesive elastic material and the damping alloy of isolating and damping, and the vibration isolating buffer element keeps good vibration isolating buffer effect within the temperature range of 30 DEG C below zero to 60 DEG C. The notebook computer is equipped with the vibration isolating buffer elements at every corner.

Description

Anti-vibration and shock element and notebook computer

Technical field

The utility model relates to a kind of buffer element, particularly relates to a kind of have the anti-vibration and shock element of high damping properties and the notebook computer with this anti-vibration and shock element.

Background technology

At present, notebook computer is used widely owing to its good travelling performance obtains ten minutes, and is often carried by the user.Thereby, increased the risk that meets with vibration, collides or fall.In order to improve the effective protection of notebook computer when falling, some technology is to add elastic buffer component in eight corners of notebook computer, perhaps adds the vibrationproof inner liner in notebook computer inside.The design people finds following problem in exploitation buffer element process, existing anti-vibration element generally adopts the elastic caoutchouc manufacturing, and less being difficult to of the damping of this rubber material satisfies the demand, and the damping capacity temperature influence is bigger, and its vibration-isolating effect is undesirable under high temperature or low temperature condition.

Because the defective that above-mentioned existing buffer element exists, the design people is studied innovation, in the hope of founding a kind of anti-vibration and shock element of new structure, makes it have more practicality.

Summary of the invention

The purpose of this utility model is, overcome the defective that existing buffer element exists, one embodiment of the present of invention provide a kind of new anti-vibration and shock element, technical matters to be solved is to make it be provided with damping lining frame, in wider temperature range, have good damping and anti-vibration and shock performance, thus practical more.

According to a kind of anti-vibration and shock element that an embodiment of the present utility model proposes, it comprises: body; And damping lining frame, embed above-mentioned body.

The purpose of this utility model and solve its technical matters and can also be further achieved by the following technical measures.

Preferably, aforesaid anti-vibration and shock element, wherein said body is identical with the shape of damping lining frame.

Preferably, aforesaid anti-vibration and shock element, wherein said body have a plurality of interconnective containment surfaces.

Preferably, aforesaid anti-vibration and shock element, wherein said damping lining frame has a plurality of interconnective lining frame side plates.

Preferably, aforesaid anti-vibration and shock element, wherein said lining frame side plate are reed array, porous plate or the member that is made of the shell muscle.

Preferably, aforesaid anti-vibration and shock element, wherein said damping lining frame is a plurality of each containment surfaces that embed body respectively.

Preferably, aforesaid anti-vibration and shock element, wherein said anti-vibration and shock element have a plurality of mounting holes that run through described body and described damping lining frame.

Preferably, aforesaid anti-vibration and shock element, the material of wherein said damping lining frame is a damping alloy, and the material of described damping alloy is CuZnAl alloy, MnCu alloy, MnNi alloy, CuAl alloy, Fe-Cr-Mo alloy or foam Zn alloy, and preferable is the CuZnAl alloy.

According to a kind of notebook computer that an embodiment of the present utility model proposes, it comprises: a display is used for video data; One main body is connected with described display, is used for that described display is handled and transferred to data and shows; Described main body comprises: frame and be arranged at chip, storage medium, data bus in the described frame; At least one anti-vibration and shock element is arranged in the described frame; Wherein, each described at least one anti-vibration and shock element comprises: body; Damping lining frame is embedded in the above-mentioned body.Damping lining frame wherein adopts damping alloy to make.

By technique scheme, the technical scheme of the utility model embodiment has following advantage at least: its body and damping lining frame that adopts resilient material and damping alloy to make of the utility model anti-vibration and shock element constitutes, it has the damping and the isolation characteristics of damping alloy and resilient material, simultaneously, this anti-vibration and shock element has good anti-vibration and shock effect in-30 ℃～60 ℃ temperature range, thereby practical more.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding ins and outs of the present utility model, and can be implemented according to the content of instructions, below with preferred embodiment of the present utility model and conjunction with figs. describe in detail as after.

Description of drawings

Fig. 1 is the schematic perspective view of the utility model embodiment anti-vibration and shock element.

Fig. 2 is an exploded perspective view embodiment illustrated in fig. 1.

Fig. 3 is cut-open view and a partial enlarged drawing embodiment illustrated in fig. 1.

Fig. 4 is the stereographic map of another embodiment of the utility model.

Fig. 5 is the stereographic map of the another embodiment of the utility model.

Fig. 6 is the schematic perspective view of notebook computer of the present utility model.

Embodiment

Below in conjunction with accompanying drawing and preferred embodiment, to according to its embodiment of anti-vibration and shock element, structure, feature and the effect thereof that the utility model proposes, describe in detail as after.

See also Fig. 1 to shown in Figure 3, Fig. 1 is the schematic perspective view of the utility model embodiment, and Fig. 2 is an exploded perspective view embodiment illustrated in fig. 1, and Fig. 3 is a cut-open view embodiment illustrated in fig. 1.

The anti-vibration and shock element that embodiment of the present utility model proposes, the damping lining frame 2 that it comprises body 1 and embeds this body 1.This body 1 is made by the rubber material, can select the suitable rubber of parameter such as Shao Shi hardness as required.In the present embodiment, described body 1 has three interconnective containment surfaces, and each containment surfaces is used for cooperating with protected equipment.The quantity of containment surfaces also can be two or one, perhaps is designed to a plurality of containment surfaces according to protected device shaped.This damping lining frame 2 is made by damping alloy, and its shape is identical with the shape of body 1, dimensionally less than this body 1.In the present embodiment, damping lining frame 2 has three interconnective lining frame side plates, and each lining frame side plate is made of a plurality of reeds arranged side by side 21, forms the reed array.Damping lining frame 2 is to be embedded on this body 1, and its embedded mode adopts the hot compression molding mode.Three above-mentioned lining frame side plates also can be independently, and each lining frame side plate is a damping lining frame, can embed respectively in each containment surfaces of body 1.Also be provided with mounting hole 4 on this anti-vibration and shock unit, each mounting hole 4 is convenient to installing in use of this anti-vibration and shock unit through body 1 and damping lining frame 2.The material that above-mentioned damping lining frame 2 adopts is a damping alloy, is CuZnAl alloy, MnCu alloy, MnNi alloy, CuAl alloy, Fe-Cr-Mo alloy or foam Zn alloy, and preferable is the CuZnAl alloy.

The anti-vibration and shock element of the utility model embodiment, it adopts the scheme of hot compression molding combination to make body and damping lining frame reliable connection, can effectively prevent to get loose.And, make isolation and damping capacity all good owing to be that damping alloy combines with resilient material (as rubber), and have the characteristics of anti-adverse environment, can adapt to small-sized electronic product, especially the needs of notebook computer vibrationproof buffering.Above-mentioned reed array structure makes the parameter index of anti-vibration and shock be easy to control, regulate.With reed is a basic parameter unit, change reed, at interval geometric configuration and quantity, make element characteristic be easy to regulate with " method of superposition ".Mainly be that physical dimension and the quantity that changes reed and interval is come the quick adjustment damping.In addition, the anti-vibration and shock element that adopts two parts to constitute has increased the interior frictional damping of faying face newly.And single material does not have this kind damping, have only two or more material to adopt the reed array structure in conjunction with " faying face " and " the interior frictional damping of faying face " just occurring, effective faying face 3 between the two is increased, the faying face 3 of mutually perpendicular several directions, the interior frictional damping on composition surface is increased, help improving vibration isolating effect.The utility model embodiment has damping and isolates the effect that merges, and it has remedied the one-sidedness of damping alloy performance: the damping alloy advantage only is that damping is bigger, and wide temperature characteristics is good.But it is unilateral that performance also shows.It is with after viscoelastic material combines, and has incorporated viscoelastic material hardness, rigidity and frequency characteristic and has been easy to the advantage that changes and control, has formed a damping and has isolated all good, more comprehensive anti-vibration and shock elements of performance.The anti-vibration and shock element of the utility model embodiment, even under unusual service condition, as inner reed fracture takes place because of overload, distortion, because the viscoelastic property of rubber can not take place than major break down (flying out as reed) yet, thus minimum to the vibration isolating effect influence.This anti-vibration and shock element is because the array reed of damping alloy is embedded in rubber parts inside, and damping alloy is basic and external environment is isolated, and the corrosion resistivity of (in the environment such as chemistry and humidity, salt fog, mould and sand and dust) improves in rugged surroundings.And the temperature characterisitic of this anti-vibration and shock element is better, and with respect to the isolated component of traditional viscoelastic material, this anti-vibration and shock element has good vibration isolating effect in-30 ℃～60 ℃ temperature range.

Seeing also Fig. 4 and shown in Figure 5, is the stereographic map of two other embodiment of the utility model.Different is for these embodiment and the above embodiments, and the structure of the damping lining frame 5 of one of them embodiment is the structure of porous plate, and the damping lining frame 8 of another embodiment is the member of shell muscle formation.And the embedded mode of above-mentioned damping lining frame still adopts the hot compression molding mode.Adopt the damping lining frame of perforated plate construction, it can make body and the good combination of damping lining frame, improves in conjunction with reliability.Adopt member that the shell muscle constitutes to have reliable, frivolous, material-saving, rigidity, all good effects of intensity as damping lining frame, the quantity by design shell muscle physical dimension and shell subregion is easy to the controlled frequency characteristic.

Seeing also shown in Figure 6ly, is the schematic perspective view of notebook computer of the present utility model.This notebook computer 6 comprises: a display is used for video data; One main body is connected with described display, is used for that described display is handled and transferred to data and shows.Described main body comprises: frame and be arranged at chip, storage medium, data bus in the described frame; At least one anti-vibration and shock element 7 is arranged in the described frame; Wherein, each described at least one anti-vibration and shock element comprises: body; Damping lining frame is embedded in the above-mentioned body.The structure of described anti-vibration and shock element can be as the described structure of above-mentioned arbitrary embodiment, by using screw to pass mounting hole 4 anti-vibration and shock element 7 is installed on the frame of notebook computer.Because have the protection of anti-vibration and shock element, the security of this notebook computer improves greatly, thereby enlarge range of application, be suitable for practicality more.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, though the utility model with the preferred embodiment introduction as above, yet be not in order to limit the utility model, any those skilled in the art, in the scope that does not break away from technical solutions of the utility model, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be not break away from the technical solutions of the utility model content, foundation technical spirit of the present utility model is to above any simple modification that embodiment did, equivalent variations and modification all still belong in the scope of technical solutions of the utility model.

Claims (9)

1, a kind of anti-vibration and shock element is characterized in that it comprises:

Body; And

Damping lining frame embeds above-mentioned body.

2, anti-vibration and shock element according to claim 1 is characterized in that described body is identical with the shape of damping lining frame.

3, anti-vibration and shock element according to claim 1 is characterized in that described body has a plurality of interconnective containment surfaces.

4, anti-vibration and shock element according to claim 1 is characterized in that described damping lining frame has a plurality of interconnective lining frame side plates.

5, require 4 described anti-vibration and shock elements according to power, it is characterized in that described lining frame side plate is reed array, porous plate or the member that is made of the shell muscle.

6, anti-vibration and shock element according to claim 3 is characterized in that described damping lining frame is a plurality of each containment surfaces that embed body respectively.

7, anti-vibration and shock element according to claim 1 is characterized in that described anti-vibration and shock element has a plurality of mounting holes that run through described body and described damping lining frame.

8, according to arbitrary described anti-vibration and shock element in the claim 1 to 7, the material that it is characterized in that described damping lining frame is a damping alloy, and the material of described damping alloy is CuZnAl alloy, MnCu alloy, MnNi alloy, CuAl alloy, Fe-Cr-Mo alloy or foam Zn alloy.

9, a kind of notebook computer is characterized in that, comprising:

One display is used for video data;

One main body is connected with described display, is used for that described display is handled and transferred to data and shows;

Described main body comprises:

Frame and be arranged at chip, storage medium, data bus in the described frame;

At least one anti-vibration and shock element is arranged in the described frame;

Wherein, each described at least one anti-vibration and shock element comprises:

Body;

Damping lining frame is embedded in the above-mentioned body.

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