CN2786751Y - Thin hard disk installing structure with electromagnetic wave screen - Google Patents

Abstract

The utility model relates to a thin type hard disk installing structure with an electromagnetic wave screen, which is used for positioning and combining a thin type hard disk in a hard disk bearing and containing slot of a computer device and has the function of shielding electromagnetic wave. When assembled, the thin type hard disk is firstly placed and combined in a hard disk load-bearing support frame, and the configuring surface of a circuit substrate of the thin type hard disk faces toward a bearing plate of the hard disk load-bearing support frame and is combined and positioned in the hard disk load-bearing support frame to achieved the effect of shielding the electromagnetic wave through the metal casing of the thin type hard disk. In addition, the part of bearing plate surface of the hard disk load-bearing support frame, which faces toward hard disk bearing slot of the computer device, is plated and covered with metal material. A corresponding vertical side plate is formed on the lateral margin corresponding to the bearing plate of the hard disk load-bearing support frame. An L-shaped back covering curtain board which convexly extends out is formed on the back end margin of the bearing plate. When the thin type hard disk is placed behind the bearing plate, the thin type hard disk, the hard disk load-bearing support frame and the back covering curtain plate form a closed shielding structure.

Description

Slim hard disk groups assembling structure with electromagnetic wave shielding

[technical field]

The utility model is about a kind of slim hard disk groups assembling structure, be meant a kind of slim hard disk groups assembling structure especially with electromagnetic wave shielding, so that this slim hard disk is except can be in conjunction with in the hard disk bearing groove that is positioned at a computer apparatus, and provide the electromagnetic wave shielding function.

[background technology]

In traditional computer module structure, all be in the inner space of a computer chassis, to cook up for example CD-ROM drive, hard disk, floppy drive, motherboard, power supply unit ... etc. various Unit Installation groove seats, again these devices are locked with screw assembly and put, and finish the assembling of whole computer at predetermined groove seat.And in the assembling structure of general notebook computer, major part is to offer a recess groove seat in the bottom surface of notebook computer casing, installs for the bearing of hard disk.

After in the intended groove seat of this hard disk bearing,, generally all can fix this hard disk with screw or buckle structure in order to make firmly combination of hard disk at this computer apparatus.

The fixed form of tradition notes type computer hard disc, its design has following shortcoming usually, for example in the bottom of this hard disk when if other circuit arrangement or circuit module are installed, then generally all must increase a casket lid or lid in addition, cover this bottom section.This kind practice also is easy in assembling process except expending the more artificial time, increasing the assembly cost, because of operating personnel's carelessness or misoperation damages various device or computer chassis.And in the future if hard disk need be pulled down when keeping in repair, inspect, testing or changing, then must one by one the casket lid or the lid of each locking be dismantled, could take out this hard disk smoothly.So, quite unfavorable for user or dealer at aspects such as the follow-up maintenance of product or replacings.

In addition, in the package assembly of all types of notebook computer hard disks, though can reach the fixing purpose of assembling, various structural designs differ and reach easy operation, effect simple in structure surely, and institute increases the device that designs and can not prevent making electromagnetic interference (EMI) effectively.

[summary of the invention]

Fundamental purpose of the present utility model is to provide a kind of hard disk groups assembling structure of computer apparatus, no matter can be so that for example the assembling of slim hard disk and dismounting all can be very easy, quick when making assembling or dismounting in the future.

For reaching above-mentioned purpose, the utility model is being combined in the first bearing of a slim hard disk in the one hard disk bearing support, and the circuit substrate configuration plane of this slim hard disk is towards the carrier plate of this hard disk bearing support and in conjunction with being positioned in this hard disk bearing support, reaching shielding electromagnetic waves, and metal material is arranged at the part coating surface that the carrier plate of this hard disk bearing support is intended for the hard disk bearing groove of computer apparatus by the metal shell of this slim hard disk itself.

Another purpose of the present utility model is to provide a kind of slim hard disk groups assembling structure with electromagnetic wave shielding, by special structural design, makes this slim hard disk possess good electromagnetic wave shielding function.

For reaching above-mentioned purpose, the part coating surface that is intended for the hard disk bearing groove of computer apparatus at the carrier plate of this hard disk bearing support has metal material.

Compared to prior art, by structural design of the present utility model, no matter make the slim hard disk of computer apparatus when making assembling or dismounting in the future, all can be very easy, quick.And the utility model provides the slim hard disk groups assembling structure with electromagnetic wave shielding, makes this slim hard disk except can be in conjunction with in the hard disk bearing groove that is positioned at a computer apparatus, and possesses good electromagnetic wave shielding function and higher-security.In addition only be the part owing to select the zone of sputter, and make this slim hard disk in bearing in hard disk bracket and when being assembled in the hard disk bearing groove of computer apparatus, can effectively prevent the short circuit of electronic package.

[description of drawings]

Fig. 1 is the three-dimensional exploded view that the utlity model has the slim hard disk groups assembling structure of electromagnetic wave shielding.

Fig. 2 is the three-dimensional assembly diagram that the utlity model has the slim hard disk groups assembling structure of electromagnetic wave shielding.

Fig. 3 the utlity model has the slim hard disk groups assembling structure of electromagnetic wave shielding in the three-dimensional assembly diagram of another view directions.

Fig. 4 the utlity model has the slim hard disk groups assembling structure of electromagnetic wave shielding and the three-dimensional exploded view of computer apparatus.

Fig. 5 the utlity model has the slim hard disk groups assembling structure of electromagnetic wave shielding and the three-dimensional assembly diagram of computer apparatus.

Fig. 6 be the utlity model has electromagnetic wave shielding the bearing of slim hard disk groups assembling structure in computer apparatus, and cover the three-dimensional assembly diagram of shield compacting location after with the hard disk bearing support by a ㄇ shape clamping piece.

[embodiment]

Consult Fig. 1, Fig. 2 and Fig. 3, the slim hard disk groups assembling structure that the utlity model has electromagnetic wave shielding is in order to be positioned at slim hard disk 2 bearings in the one hard disk bearing support 1, this hard disk bearing support 1 has a carrier plate 11, corresponding lateral margin at this carrier plate 11 is formed with corresponding perpendicular side plate 12, and offer at least one perforation 121 respectively, can connect for screw 13.In addition, the end edge of this carrier plate 11 be formed with one protrude out L shaped after cover shield 14, cover shield 14 after this also simultaneously as compacting end plate of the present utility model.

This slim hard disk 2 is bearable on this carrier plate 11, and after can connecting the perforation 121 of perpendicular side plate 12 of hard disk bearing supports 1 by screw 13, be screwed together in the screw 21 that is formed on these slim hard disk 2 sidewalls, and make these slim hard disk 2 strong fixs at this carrier plate 11 and between two perpendicular side plate 12 of this hard disk bearing support 1.

In design of the present utility model, this slim hard disk 2 is when bearing is combined in the carrier plate 11 of hard disk bearing support 1, the circuit substrate configuration plane of this slim hard disk 2 (promptly disposing the one side of circuit substrate) is towards the carrier plate 11 of this hard disk bearing support 1, to reach shielding electromagnetic waves by these slim hard disk 2 metal shells own.Once more, when this slim hard disk 2 is positioned in the hard disk bearing support 1 by bearing after, this slim hard disk 2, hard disk bearing support 1, with after cover the structure that shield 14 forms a lock shield.

In addition, this slim hard disk 2 at one end edge place is formed with an interface connector 22, can be for being plugged in the corresponding plug socket of computer apparatus.So that slim hard disk 2 can be done being connected of electric signal with computer apparatus via this interface connector 22.

Consult Fig. 4, after finishing the combining of above-mentioned hard disk bearing support 1 and slim hard disk 2, can be in the predetermined hard disk bearing groove 31 of a computer apparatus 3 with the bearing of whole unitized construction body.

In computer apparatus 3 default hard disk bearing groove 31 structures, it includes a carrier plate 311, and has a vacancy section 312 in this carrier plate 311.Be formed with the blocking plate 32 of a pair of level at an end of two corresponding sidewalls of this hard disk bearing groove 31.

And be combined with a ㄇ shape clamping piece 33 at the middle section position place of this hard disk bearing groove 31, but the jack-post 34 of its two corresponding sidewalls by being formed on this hard disk bearing groove 31 and turn be combined in this about middle section position place, hard disk bearing groove 31 tops.

When desire is combined in hard disk bearing support 1 in the hard disk bearing groove 31 of this computer apparatus 3 together with slim hard disk 2, at first be to put between the blocking plate 32 of this hard disk bearing groove 31 of planting with the end cunning that this slim hard disk 2 has an interface connector 22, consult shown in Figure 5ly, and the interface connector 22 of this slim hard disk 2 firmly is plugged in the predetermined plug socket (not icon) of this hard disk bearing groove 31.

When this slim hard disk 2 when bearing is in this hard disk bearing groove 31 reposefully, operate this ㄇ shape clamping piece 33 again, making this ㄇ shape clamping piece 33 is rotation center and turn presses down with jack-post 34, consult shown in Figure 6, make at last 33 compactings of this ㄇ shape clamping piece live this hard disk bearing support 1 after cover shield 14, this slim hard disk 2 is positioned in this hard disk bearing groove 31 together with hard disk bearing support 1 bearing firmly.

When this slim hard disk 2 is positioned in this hard disk bearing groove 31 together with hard disk bearing support 1 bearing firmly after, several electromagenetic wave radiation protective sheet 35 that are arranged in the hard disk bearing groove 31 will be pressed the bottom surface that is contacted with this hard disk bearing support 1.

In the design of the present utility model, the surface of this hard disk bearing support 1 is made sputter with metal material and is handled, and so makes this hard disk bearing support 1 and hard disk bearing groove 31 inside of computer apparatus 3 just not need metallic shield of special in addition making again to be covered the problem of covering anti-system electromagnetic wave to leak.

And when the surperficial sputter that carries out this hard disk bearing support 1 is handled, bottom surface (promptly being intended for the one side of the default hard disk bearing of computer apparatus groove 31) at the carrier plate 11 of its hard disk bearing support 1 is hidden spray, to form sputter zone 15 (consulting shown in Figure 3) partly, wherein at the sputter zone 15 metal-coated materials of the carrier plate 11 of this hard disk bearing support 1.And this sputter zone 15 only is the regional area of bottom surface of the carrier plate 11 of hard disk bearing support 1, on the bottom surface of the carrier plate 11 of this hard disk bearing support 1 and then be not electrically insulated by the zone of sputter, so can be so that this hard disk bearing support 1 when being bonded to the hard disk bearing groove 31 of computer apparatus 3, can preventing and be configured in the problem that the electronic package of these hard disk bearing groove 31 bottoms may be short-circuited.

In addition, when the surperficial sputter that carries out this hard disk bearing support 1 is handled, the interior sidewall surface of the end face (promptly being intended for the one side of slim hard disk 2 bearings) of the carrier plate 11 of this hard disk bearing support 1, two corresponding perpendicular side plate 12 and after to cover the interior sidewall surface of shield 14 all covered and be not sputtered to.So can be so that these slim hard disk 2 bearings when being positioned at the carrier plate 11 of this hard disk bearing support 1, also can prevent the problem that the electronic package of the circuit substrate of this slim hard disk 2 is short-circuited.

Claims (5)

1. slim hard disk groups assembling structure with electromagnetic wave shielding, in order to this slim hard disk combination is positioned in the hard disk bearing groove of a computer apparatus, and provide the electromagnetic wave shielding function, it is characterized in that: this slim hard disk is combined in the hard disk bearing support by bearing earlier, and the circuit substrate configuration plane of this slim hard disk is towards the carrier plate of this hard disk bearing support and in conjunction with being positioned in this hard disk bearing support, to reach shielding electromagnetic waves by the metal shell of this slim hard disk itself.

2. the slim hard disk groups assembling structure with electromagnetic wave shielding according to claim 1 is characterized in that: on this hard disk bearing support and at the part coating surface that the carrier plate of this hard disk bearing support is intended for the hard disk bearing groove of computer apparatus metal material is arranged.

3. the slim hard disk groups assembling structure with electromagnetic wave shielding according to claim 1, it is characterized in that: the corresponding lateral margin of the carrier plate of this hard disk bearing support is formed with corresponding perpendicular side plate, the end edge of this carrier plate be formed with one protrude out L shaped after cover shield, when this slim hard disk bearing after this carrier plate, this slim hard disk, hard disk bearing support, with after cover the structure that shield forms a lock shield.

4. the slim hard disk groups assembling structure with electromagnetic wave shielding according to claim 3, it is characterized in that: this hard disk bearing support is positioned in the hard disk bearing groove of this computer apparatus by bearing together with hard disk after, by a ㄇ shape clamping piece that is incorporated into this hard disk bearing groove suppress this hard disk bearing support after cover shield, this slim hard disk is positioned in the hard disk bearing groove of this computer apparatus together with the bearing of hard disk bearing support.

5. the slim hard disk groups assembling structure with electromagnetic wave shielding according to claim 1, it is characterized in that: be formed with a plurality of electromagenetic wave radiation protective sheet in the hard disk bearing groove of this computer apparatus, when this slim hard disk was positioned in this hard disk bearing groove together with the bearing of hard disk bearing support after, each electromagenetic wave radiation protective sheet was pressed the bottom surface that is contacted with this hard disk bearing support.

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