CN201247428Y - Damping cover for notebook-type computer hard disk - Google Patents

Abstract

The utility model discloses a shock-absorbing sleeve of a notebook computer hard disk, which belongs to the technical field of notebook computer hardware. The shock-absorbing sleeve comprises a shock-absorbing sleeve main body, an upper surface shock-absorbing body and a lower surface shock-absorbing body, wherein the upper surface and the lower surface shock-absorbing bodies have elasticity, are located on the upper surface and the lower surface of the shock-absorbing sleeve main body, and are one or more columnar or horizontal bar salient which are evenly or unevenly distributed. The upper surface shock-absorbing body and the lower surface shock-absorbing body are located on the upper surface and the lower surface of the notebook computer hard disk when the shock-absorbing sleeve is used, and the shock-absorbing sleeve main body can be further equipped with a side surface shock-absorbing body, a front surface shock-absorbing body and a rear surface shock-absorbing body which all have elasticity. The shock-absorbing sleeve can simplify the structure of a grove position of the notebook computer hard disk, omits an iron support of the hard disk, saves cost, and increases assembly performance. Simultaneously, because of using the shock-absorbing body, the upper surface and the lower surface of the hard disk can be formed into space, thereby increasing the heat dissipation performance of the hard disk.

Description

A kind of notebook computer hard disk shock-absorbing cover

Technical field

The utility model relates to a kind of notebook computer hard disk shock-absorbing cover, belongs to notebook computer hardware technology field.

Background technology

Notebook computer follows the user to use in the travelling process because of its light and handy convenience more, so its environment for use mostly is mobile status, and the damping of notebook computer hard disk is had relatively high expectations.

But because the notebook computer inner space is narrow and small, change conveniently in order to assemble, the many put by means of screw by ironware of notebook computer hard disk fixed, so damping effect is relatively poor, when automobile or train etc. use in than the pitchpole environment, easily cause the recessive damage of hard disk, reduce serviceable life, also can cause physical damage when serious, in addition, phenomenons such as notebook also easily falls cause hard disk corruptions, cause irremediable data degradation to the user.

Therefore, develop a kind of notebook computer hard disk that is applicable to, can reduce or absorb the vibrations of hard disk effectively, can address this problem preferably with the device that guarantees the hard disk smooth working.

The utility model content

The purpose of this utility model is to provide a kind of notebook computer hard disk shock-absorbing cover.

The utility model shock-absorbing sleeve comprises shock-absorbing sleeve main body and upper and lower surface shock reducing structure, described upper and lower surface shock reducing structure has elasticity, being positioned at the upper and lower surface of shock-absorbing sleeve main body, is the column or the horizontal stripe shape projection of even distribution of one or more even distributions or part or uneven distribution.Described upper and lower surface shock reducing structure is positioned at the upper and lower surface of described notebook computer hard disk when described shock-absorbing sleeve uses.

Preferably, described shock-absorbing sleeve main body also can have side surface shock reducing structure and front and rear surfaces shock reducing structure, all has elasticity, lay respectively at the side surface and the front and rear surfaces of shock-absorbing sleeve main body, be the column or the horizontal stripe shape projection of even distribution of one or more even distributions or part or uneven distribution, they lay respectively at the side surface and the front and rear surfaces of described notebook computer hard disk when described shock-absorbing sleeve uses.

Preferably, described shock-absorbing sleeve main body is rectangular parallelepiped, and a lateral opening can insert the notebook computer hard disk.Described shock-absorbing sleeve main body can have or not have elasticity.

In addition, for fixing notebook computer hard disk, described shock-absorbing sleeve also can comprise fixed screw holes, and described fixed screw holes is positioned at the side surface of described shock-absorbing sleeve main body and the fixed orifice position of notebook computer hard disk side surface is complementary.When notebook computer adopted the ironware Fixed disk, fixed orifice herein can be used as the beam of fixed screw, is similar to the pad of screw.

Further, described shock-absorbing sleeve also can comprise the auxiliary projection of installing, and the described auxiliary projection of installing is positioned at the end of the upper and lower surface of described shock-absorbing sleeve main body near front and rear surfaces, and its height is a little more than the height of described shock reducing structure.Projection should auxiliaryly be installed when hard disk is installed, reduce the resistance that hard disk slides in hdd slot, so-called " a little more than " can not touch the hdd slot bottom surface to satisfy hard disk its lower surface shock reducing structure when sliding, and hard disk is installed back lower surface shock reducing structure can touch the hdd slot bottom surface, while upper surface shock reducing structure can touch the hdd slot lid and exceed, and is generally about 0.1 to 0.2 centimetre.Described auxiliary installation projection is preferably the horizontal stripe shape, and its width is preferably the width that is slightly less than described shock-absorbing sleeve main body upper and lower surface.

Further, described upper and lower surface shock reducing structure, side surface shock reducing structure and front and rear surfaces shock reducing structure, even whole shock-absorbing sleeve, preferably by rubber, such as nitrile rubber, silica gel, or EAR (EAR) material, (can reference: http://www.earshockandvibe.com) make such as CF-40-EG.

Compared with prior art, the utility model can be simplified the structure at notebook computer hdd slot position, omits hard disk ironware support, saves cost, improves assembleability.Owing to the use of shock reducing structure, can form the space simultaneously, thereby improve the heat dispersion of hard disk in the hard disk upper and lower surface.

Description of drawings

Fig. 1 is an embodiment shock-absorbing sleeve three-dimensional view 1;

Fig. 2 is an embodiment shock-absorbing sleeve three-dimensional view 2;

Fig. 3 is embodiment shock-absorbing sleeve and hard disk assembling synoptic diagram;

Fig. 4 is embodiment shock-absorbing sleeve and hard disk assembling back synoptic diagram;

Wherein:

1-shock-absorbing sleeve main body; 2-upper and lower surface shock reducing structure; 3-side surface shock reducing structure;

4-front and rear surfaces shock reducing structure, 5-fixed screw holes; 6-auxiliary the projection of installing.

Embodiment

Lower surface describes in further detail utility model with embodiment in conjunction with the accompanying drawings.

Present embodiment hard disk shock-absorbing cover is made by EAR, as Fig. 1, shown in 2.

Shock-absorbing sleeve main body 1 is rectangular-shaped, and a side surface opening is used to insert the side surface portion of notebook computer hard disk.Shock-absorbing sleeve main body upper and lower surface is provided with upper and lower surface shock reducing structure 2, and they are right cylinder, is evenly arranged into two row.Upper and lower surface shock reducing structure 2 both sides just are respectively equipped with the auxiliary projection 6 of installing near the two ends of front and rear surfaces, are the horizontal stripe shape, and width is slightly less than the upper and lower surface width, and height is greater than 0.2 millimeter of the height of upper and lower surface shock reducing structure 2.

Be respectively equipped with side surface shock reducing structure 3 and front and rear surfaces shock reducing structure 4 on shock-absorbing sleeve side surface and the front and rear surfaces.Be the horizontal stripe shape, also can regard the groove shape as, wherein the horizontal stripe on the side surface is parallel to upper and lower surface, and the horizontal stripe on the front and rear surfaces is parallel to side surface.

Also be provided with two fixed screw holes 5 on the shock-absorbing sleeve side surface, be used for the notebook hard disk on ironware fix.

Fig. 3 and 4 has shown the synoptic diagram after present embodiment hard disk shock-absorbing cover and hard disk assembling and the assembling respectively, is appreciated that the present embodiment shock-absorbing sleeve needs to use in pairs.

Claims (9)

1. notebook computer hard disk shock-absorbing cover, it is characterized in that, comprise shock-absorbing sleeve main body and upper and lower surface shock reducing structure, described upper and lower surface shock reducing structure has elasticity, be positioned at the upper and lower surface of shock-absorbing sleeve main body, described upper and lower surface shock reducing structure is positioned at the upper and lower surface of described notebook computer hard disk when described shock-absorbing sleeve uses.

2. shock-absorbing sleeve as claimed in claim 1 is characterized in that, described upper and lower surface shock reducing structure is the column or the horizontal stripe shape projection of even distribution of one or more even distributions or part or uneven distribution.

3. shock-absorbing sleeve as claimed in claim 1, it is characterized in that, described shock-absorbing sleeve main body has the side surface shock reducing structure, described side surface shock reducing structure has elasticity, be positioned at the side surface of shock-absorbing sleeve main body, described side surface shock reducing structure is positioned at the side surface of described notebook computer hard disk when described shock-absorbing sleeve uses.

4. as claim 1 or 3 described shock-absorbing sleeves, it is characterized in that, described shock-absorbing sleeve main body has the front and rear surfaces shock reducing structure, described front and rear surfaces shock reducing structure has elasticity, be positioned at the front and rear surfaces of shock-absorbing sleeve main body, described front and rear surfaces shock reducing structure is positioned at the front and rear surfaces of described notebook computer hard disk when described shock-absorbing sleeve uses.

5. shock-absorbing sleeve as claimed in claim 4 is characterized in that, described side surface shock reducing structure and front and rear surfaces shock reducing structure are simultaneously or be not that one or more even distributions or part evenly distribute or the column or the horizontal stripe shape projection of uneven distribution simultaneously.

6. shock-absorbing sleeve as claimed in claim 1 is characterized in that, described shock-absorbing sleeve main body is rectangular parallelepiped, has or do not have elasticity.

7. shock-absorbing sleeve as claimed in claim 1 is characterized in that described shock-absorbing sleeve also comprises fixed screw holes, and described fixed screw holes is positioned at the side surface of described shock-absorbing sleeve main body and the fixed orifice position of notebook computer hard disk side surface is complementary.

8. shock-absorbing sleeve as claimed in claim 1, it is characterized in that, described shock-absorbing sleeve also comprises the auxiliary projection of installing, and the described auxiliary projection of installing is positioned at the end of the upper and lower surface of described shock-absorbing sleeve main body near front and rear surfaces, and it highly is slightly larger than the height of described upper and lower surface shock reducing structure.

9. shock-absorbing sleeve as claimed in claim 8 is characterized in that, in the scope of the described auxiliary height that projection is installed greater than 0.1 to 0.2 centimetre of the height of described shock reducing structure.

10. shock-absorbing sleeve as claimed in claim 1 is characterized in that described shock-absorbing sleeve is made by rubber or EAR.

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