CN102999110A - Hard disk fixing structure - Google Patents

Abstract

The invention relates to a hard disk fixing structure which is used for fixing a hard disk in a chassis of a server and comprises a support part, a bearing frame and a plurality of buffer members. The support part is fixedly arranged on a base portion of the chassis, the hard disk is suitable for being assembled on the bearing frame, and the support part is connected between the base portion and the bearing frame to support the bearing frame and the hard disk on the base portion. The buffer members are embedded in the bearing frame and butt against the hard disk, and the hard disk leans against parts of the buffer members protruding out of the bearing frame.

Description

Hard disk fixation structure

Technical field

The present invention relates to a kind of hard disk fixation structure, relate in particular to the hard disk fixation structure in the cabinet that is used in servomechanism.

Background technology

Servomechanism is the core computer of serving each computer in the network system, and the functions such as networking the user magnetic disc that needs and the service of prining can be provided, and also can share each other the interior every resource of networking environment for each user side simultaneously.The basic framework of servomechanism and general PC are roughly the same, formed by parts such as central processing unit (CPU), memory body (Memory) and I/O (I/O) equipment, and connected in inside by bus-bar (Bus), see through the north bridge wafer and connect central processing unit and memory body, connect input-output apparatus etc. and see through the south bridge wafer.Servomechanism has approximately experienced three evolution process by casing structure: from early stage tower case to emphasize to concentrate the rack of performance, again to the blade servomechanism of high density account form.

Take rack server as example, rack server is the servomechanism that a kind of outward appearance designs according to unified standard at this, cooperates the unified use of rack.Can say that rack is a kind of tower servomechanism of optimizing structure, its design aim mainly is in order to reduce as far as possible taking of servomechanism space.A lot of professional network equipments all are the structures that adopts rack, and it mostly is flat, just as drawer.For example switch, router, hardware fire wall these.The width of rack server is 19 inches, and height has 1U, 2U, 3U, 4U, 5U, the servomechanism of several standards of 7U usually take U as unit (1U=1.75 inch=44.45 millimeter).

Generally speaking, the electronic installation of rack server in cabinet, common with the base portion of planar configuration at cabinet such as main board module, hard disk module etc., and this measure causes heat radiation to be difficult for easily and can't produce to the inner space of cabinet better utilizability, thereby layout type how to think deeply the related elements in the cabinet just becomes the problem that the related personnel is worth discussion to improve the problems referred to above.

Summary of the invention

The invention provides a kind of hard disk fixation structure, have better layout, operability and radiating effect.

One embodiment of the invention propose a kind of hard disk fixation structure, in order to a hard disk is fixed in the cabinet of a servomechanism.Hard disk fixation structure comprises a support component, a carrier and a plurality of bolster.Support component is installed on the base portion of cabinet.Hard disk is suitable for being assembled on the carrier, and support component is connected between base portion and the carrier, so that carrier and hard disk are supported on the base portion top.Bolster is embedded in carrier and against hard disk, and hard disk is to bear against on the part of the outstanding carrier of bolster.

In one embodiment of this invention, above-mentioned support component comprises a plurality of support columns, and carrier has a plurality of pilot holes.One end of each support column is vertical to be located on the base portion.The other end clip of each support column is in the pilot hole of correspondence.

In one embodiment of this invention, above-mentioned support component is a vertical bracing frame that is located on the base portion, and carrier is configured on the bracing frame.

In one embodiment of this invention, each above-mentioned support column has one first blocking part.Each pilot hole has one and runs through section and one second blocking part.Move towards the second blocking part after each first blocking part passes the section of running through, with the first blocking part clip in the second blocking part.

In one embodiment of this invention, the aperture area of the above-mentioned section of running through is greater than the aperture area of the second blocking part, and the aperture area of the second blocking part is greater than the sectional area of the first blocking part.

In one embodiment of this invention, also comprise a plurality of the first locking parts, pass respectively corresponding bolster and secure to hard disk, so that hard disk is fixed on the carrier.

In one embodiment of this invention, above-mentioned bolster is a collar (Grommet) that is embedded on carrier.

In one embodiment of this invention, above-mentioned carrier also has a locking part, and above-mentioned hard disk fixation structure also comprises a projection and one second locking part.Projection is installed on the base portion and has a screw.The second locking part passes the locking part and is locked in the screw, so that carrier is fixed on the base portion.

In one embodiment of this invention, the orthogonal projection of above-mentioned hard disk on carrier is not overlapped in the locking part.

Based on above-mentioned, in the above embodiment of the present invention, by support column and the formed fixed sturcture of carrier, and hard disk groups is contained in the top of the base portion of cabinet, this measure reduces the impact by the butt of bolster between hard disk and the carrier except allowing, also allow hard disk utilize said structure and be able to frame and be higher than in the cabinet, and allow servomechanism change into the spatial layout by the plane formula layout, use the space utilization that helps in the cabinet.Moreover, because hard disk and other electronic installations in the cabinet of being configured on the carrier in height present the each other position relationship of dislocation, also help radiating airflow to flow through respectively electronic installation to improve the radiating effect of cabinet inside.

For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and cooperate appended graphic being described in detail below.

Description of drawings

Fig. 1 is the synoptic diagram according to a kind of hard disk fixation structure of one embodiment of the invention.

Fig. 2 is the assembling synoptic diagram of hard disk fixation structure in servomechanism of Fig. 1.

Fig. 3 is that the carrier of Fig. 1 is in the synoptic diagram at another visual angle.

The main element symbol description:

100: servomechanism

110: cabinet

112: base portion

120: support column

121: the first cylinders

122: the second cylinders

123: the three cylinders

124: the first blocking parts

130: carrier

132: pilot hole

132a: run through section

132b: the second blocking part

134: the locking part

140: electronic installation

150A, 150B: bolster

160: the first locking parts

170: projection

172: screw

180: the second locking parts

Embodiment

Fig. 1 is the synoptic diagram according to a kind of hard disk fixation structure of one embodiment of the invention.Fig. 2 is that the hard disk fixation structure of Fig. 1 is assembled in the assembling synoptic diagram in the servomechanism.Please also refer to Fig. 1 and Fig. 2, in the present embodiment, servomechanism 100 comprises a cabinet 110, a plurality of support column 120, a plurality of carrier 130 and a plurality of electronic installation 140, wherein electronic installation 140 for example is the hard disk module, it is configured in the cabinet 110 in array, and only present embodiment is not as limit.As representative, technical characterictic of the present invention is applicable in arbitrary cabinet 110 in the servomechanism 100 at this wherein cabinet 110 that only illustrates servomechanism 100.Moreover, below only with a carrier 130 wherein and on electronic installation 140 (hard disk module) describe as example.

Cabinet 110 has a base portion 112, and support column 120 is configured on the base portion 112.Carrier 130 has respectively a plurality of pilot holes 132 of corresponding support column 120, and an end clip of support column 120 is in the pilot hole 132 of correspondence, to allow carrier 130 removably be assembled to support column 120 by pilot hole 132.Electronic installation 140 is configured on the carrier 130, to allow support column 120 carrier 130 and electronic installation 140 are supported on the top of base portion 112.This, electronic installation 140 is just utilized carrier 130 and support column 120 formed fixed sturctures, and reaches the effect that is fixed in the cabinet 110.Only illustrating three support columns 120 at this is supported between carrier 130 and the base portion 112, must condition to allow carrier 130 and electronic installation 140 can maintain minimum on the plane that is parallel to base portion 112, the present invention does not limit the quantity of support column 120, and the deviser can dispose and suitably adjust according to inner space and the related elements of cabinet 110.In addition, the present invention does not also limit the pattern of support column 120, that is the deviser can be supported on electronic installation 140 and carrier 130 on the base portion 112 of cabinet 110 by any supporting construction.

Specifically, each support column 120 has one first cylinder 121, one second cylinder 122 and one the 3rd cylinder 123 coaxially to each other, wherein 122 of the second cylinders are between the first cylinder 121 and the 3rd cylinder 123, and 122 sectional areas of the second cylinder less than the sectional area of the sectional area of the first cylinder 121 and the 3rd cylinder 123 (at this, the cross section of above-mentioned cylinder 121 to 123 all is the sections take the axle of cylinder as normal), have one first blocking part 124 of " worker " character form structure with formation.

Moreover, each pilot hole 132 has one and runs through the 132a of section and one second blocking part 132b, wherein run through the aperture area of the 132a of section greater than the aperture area of the second blocking part 132b, and compare down with above-mentioned support column 120, the sectional area of the first blocking part 124 of support column 120 is greater than the aperture area of the second blocking part 132b of pilot hole 132.

In other words, the frontal projected area of above-mentioned each position on base portion 112 is sequentially from large to small and runs through the 132a of section, the first cylinder 121, the 3rd cylinder 123, the second blocking part 132b and the second cylinder 122.Accordingly, support column 120 passes with the second cylinder 122 and the 3rd cylinder 123 and moves towards the second blocking part 132b after running through the 132a of section, so that the first blocking part 124 and the second blocking part 132b interfere mutually, and allow carrier 130 be able to be fixed on the base portion 112 of cabinet 110 by support column 120.

Fig. 3 is that the carrier of Fig. 1 is in the synoptic diagram at another visual angle.Please also refer to Fig. 1 to Fig. 3, in the present embodiment, servomechanism 100 also comprises a plurality of bolster 150A, 150B and a plurality of the first locking part 160, wherein bolster 150A for example is a collar (Grommet), its be embedded in carrier 130 and be resisted against electronic installation 140 and carrier 130 between.In other words, the electronic installation 140 of present embodiment is to bear against on the part of the outstanding carrier 130 of bolster 150A, to allow bolster 150A provide buffering effect to electronic installation 140.

On the other hand, bolster 150B carries out the formed convex closure structure of Sheet Metal Forming Technology to carrier 130, to be resisted against on the electronic installation 140.This two all can utilize its structural damping characteristics, and provide certain shock-proof effect to the electronic installation 140 that is configured on the carrier 130.In addition, the first locking part 160 passes respectively corresponding bolster 150A or 150B and secures to electronic installation 140, so that electronic installation 140 is fixed on the carrier 130.

In addition, carrier 130 also has the position in a locking part 134 at lateral margin place, and the orthogonal projection of electronic installation 140 on carrier 130 be not overlapped in locking part 134, that is locking part 134 is to protrude from carrier 130 in order to outside the scope of carrying electronic installation 140.Servomechanism 100 also comprises a projection 170 and one second locking part 180, and wherein projection 170 is installed on the base portion 112 and has a screw 172.Based on above-mentioned, behind the top of carrier 130 by the base portion 112 that is configured in cabinet 110 with support column 120 mutual clips, the user just can pass locking part 134 and is locked in the screw 172 of projection 170 with the second locking part 180, and carrier 130 is fixed on the projection 170, use to finish that carrier 130 is fixed on technique on the base portion 112.

In sum, in the above embodiment of the present invention, by support column and the formed fixed sturcture of carrier, and with the hard disk module group assembling above the base portion of cabinet, this measure allows the hard disk module utilize said structure and is able to frame and is higher than in the cabinet, and allow servomechanism change into the spatial layout by the plane formula layout, use the space utilization that helps in the cabinet.Moreover, because hard disk module and other electronic installations in the cabinet of being configured on the carrier in height present the each other position relationship of dislocation, also help radiating airflow to flow through respectively electronic installation to improve the radiating effect of cabinet inside.

Although the present invention discloses as above with embodiment; but it is not to limit the present invention, technician in any affiliated technical field, without departing from the spirit and scope of the present invention; when doing a little change and retouching, so protection scope of the present invention should be as the criterion with the scope that claim was defined.

Claims (9)

1. hard disk fixation structure, in order to a hard disk is fixed in the cabinet of a servomechanism, this hard disk fixation structure comprises:

One support component, this support component are installed on the base portion of this cabinet;

One carrier, this hard disk is suitable for being assembled on this carrier, and this support component is connected between this base portion and this carrier, so that this carrier and this hard disk are supported on this base portion; And

A plurality of bolsters are embedded in this carrier and are resisted against this hard disk, and this hard disk is to bear against on the part of outstanding this carrier of this bolster.

2. hard disk fixation structure according to claim 1, this support component comprises a plurality of support columns, and this carrier has a plurality of pilot holes, and respectively an end of this support column is vertical is located on this base portion, and respectively the other end clip of this support column is in this pilot hole of correspondence.

3. hard disk fixation structure according to claim 1, wherein this support component is a vertical bracing frame that is located on this base portion, and this carrier is configured on this bracing frame.

4. hard disk fixation structure according to claim 2, wherein respectively this support column has one first blocking part, and respectively this pilot hole has one and runs through section and one second blocking part, this support column passes with this first blocking part and moves towards this second blocking part after this runs through section, with this first blocking part clip in this second blocking part.

5. hard disk fixation structure according to claim 4, wherein this runs through the aperture area of section greater than the aperture area of this second blocking part, and the aperture area of this second blocking part is less than the sectional area of this first blocking part.

6. hard disk fixation structure according to claim 1 also comprises:

A plurality of the first locking parts pass respectively those corresponding bolsters and secure to this hard disk, so that this hard disk is fixed on this carrier.

7. hard disk fixation structure according to claim 6, wherein respectively this bolster is a collar that is embedded on this carrier.

8. hard disk fixation structure according to claim 1, wherein this carrier also has a locking part, and this hard disk fixation structure also comprises:

One projection is installed on this base portion and has a screw; And

One second locking part passes this locking part and is locked in this screw, so that this carrier is fixed on this base portion.

9. hard disk fixation structure according to claim 8, wherein the orthogonal projection of this hard disk on this carrier is not overlapped in this locking part.

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