CN209560462U - A kind of fixed structure being conducive to M.2 Hard disk heat radiation - Google Patents

Abstract

The utility model discloses a kind of fixed structures for being conducive to M.2 Hard disk heat radiation, including mainboard, the mainboard is equipped with fan mould group, CPU module and memory bar, it further include the PCIE interface being arranged on mainboard and M.2 Hard disc module, M.2 hard disk is fixed on mainboard with the memory bar by the way that M.2 Hard disc module is parallel, by the way that PCIE interface is arranged in parallel with memory bar, keep the M.2 Hard disc module being mounted on PCIE interface parallel with memory bar, the distinguished and admirable of fan mould group on mainboard is set to flow through M.2 Hard disc module behind the gap for passing through memory bar, keep the heat dissipation that M.2 Hard disc module is preferably enjoyed on mainboard distinguished and admirable, improve the radiating efficiency of M.2 hard disk, to guarantee the stability of M.2 R/W speed of hard disc and server operation.

Description

A kind of fixed structure being conducive to M.2 Hard disk heat radiation

Technical field

The utility model relates to server hard disc installation and technical field of heat dissipation, and in particular to one kind is conducive to M.2 hard disk The fixed structure of heat dissipation.

Background technique

With the development of data storage technology and seagate, SSD hard disk is shockproof as a kind of high-speed, high life, height The new era product of drop resistant, low-power consumption, low weight, low noise etc., using more and more extensive, wherein M.2 hard disk can be used PCIE interface is also widely used using NVME agreement in the middle and high-end markets such as computer and server.

In the prior art, M.2 hard disk is usually parallel with mainboard installs, and M.2 this makes hard disk one side adjacent with mainboard can not It is distinguished and admirable adequately to enjoy heat dissipation, so that M.2 hard disk fever is serious；Occur adding the mode of cooling fin for M.2 hard disk at present to mention The heat dissipation effect of high M.2 hard disk, but since the M.2 power consumption of hard disk and calorific value are higher, the heat dissipation that can not still solve M.2 hard disk is asked Topic.

Utility model content

The utility model in order to overcome the deficiencies of the above existing technologies, provides a kind of M.2 Hard disk heat radiation of being conducive to Fixed structure makes M.2 Hard disc module and the memory being mounted on PCIE interface by the way that PCIE interface to be arranged in parallel with memory bar Item is parallel, so that the distinguished and admirable of fan mould group on mainboard is flowed through M.2 Hard disc module behind the gap for passing through memory bar, to make M.2 The heat dissipation that Hard disc module is preferably enjoyed on mainboard is distinguished and admirable, improves the radiating efficiency of M.2 hard disk.

The technical solution adopted by the utility model to solve its technical problems is that:

A kind of fixed structure being conducive to M.2 Hard disk heat radiation, including mainboard, the mainboard are equipped with fan mould group, CPU mould Block and memory bar further include the PCIE interface being arranged on mainboard and M.2 Hard disc module, and M.2 hard disk passes through with the memory bar M.2 Hard disc module is fixed on mainboard in parallel, and the PCIE interface is arranged in parallel with the memory bar, the M.2 Hard disc module It is equipped with PCIE plug, the M.2 Hard disc module is mounted on mainboard by PCIE plug and PCIE Interference fit.

Preferably, the M.2 Hard disc module includes riser card, pedestal, M.2 hard disk, fixing buckle and cooling fin, the bottom Seat includes bottom plate and both side plate, and the both side plate is arranged in parallel, and one end of both side plate is connected by bottom plate, and both side plate is equipped with Several buckles for clamping cooling fin, the one side of the M.2 hard disk are connect with the plate upper surface, and M.2 hard disk is another Face is connect by heat conductive silica gel with the bottom surface of the cooling fin, and the two sides of the cooling fin pass through the buckle and pedestal on pedestal Connection；

M.2 one end of the hard disk is equipped with M.2 hard disk plug, and the other end is equipped with fixed groove, and the fixed groove is half It is round；The riser card is equipped with the M.2 hard disk connector matched with the M.2 hard disk plug and matches with fixed groove The through-hole of conjunction, riser card bottom end are equipped with the PCIE plug that matches with the PCIE interface, the M.2 hard disk plug with it is described M.2 hard disk connector is electrically connected, and the other end passes through the fixed groove, the through-hole and fixing buckle cooperation and the riser card Connection, the PCIE plug of riser card are electrically connected with the PCIE interface on mainboard.

Preferably, the fixing buckle includes tail portion, axle portion, head and bulge, and the tail portion, axle portion and head are circle Column structure, and the diameter on axle portion and head is respectively less than tail diameter, the head is connect by axle portion with tail portion, tail portion, axis Portion and head axes are located at same straight line, and the axle portion is equipped with the fixing buckle groove matched with the fixed groove, the head The side surrounding in portion is equipped with the bulge of several umbrellas, and the big end of the bulge is close to axle portion.

Preferably, the free ending tool on the head is tapered, and big end is close to axle portion one end.

With riser card and M.2 preferably, the sum of the thickness of hard disk matches the height of fixing buckle groove in the axle portion.

The beneficial effects of the utility model are:

1, by the way that PCIE interface and memory bar are arranged in parallel, make the M.2 Hard disc module being mounted on PCIE interface with it is interior It deposits that item is parallel, so that the distinguished and admirable of fan mould group on mainboard is flowed through M.2 Hard disc module behind the gap for passing through memory bar, to make M.2 the heat dissipation that Hard disc module is preferably enjoyed on mainboard is distinguished and admirable, improves the radiating efficiency of M.2 hard disk, to guarantee that M.2 hard disk is read Writing rate and the stability of server operation.

2, the M.2 hard disk M.2 in Hard disc module is fixedly clamped by cooling fin and pedestal, in the integral heat sink wind for enjoying mainboard While stream, radiating efficiency is further increased by increasing cooling fin；Fixing buckle is convenient for the fixation and installation of cooling fin, makes to radiate M.2, piece and pedestal hard disk firm grip, heat conductive silica gel will improve the contact area of M.2 hard disk and cooling fin, improve radiating efficiency.

3, fixing buckle groove is arranged by the axle portion in fixing buckle, in the anchor that fixing buckle groove is pushed into M.2 hard disk By riser card and M.2, hard disk is clamped when slot, guarantees the stable connection of M.2 hard disk and riser card, at the same the big end of bulge and Riser card is in contact on one side, increases the frictional force between fixing buckle and riser card, prevents falling off for fixing buckle.

4, the free ending tool on head is tapered, convenient for the handling of fixing buckle.

With riser card and M.2 5, the sum of the thickness of hard disk matches the height of fixing buckle groove in axle portion, guarantees riser Card is securely clamped with M.2 hard disk.

6, by this structure, keep the M.2 hard disk on mainboard parallel with memory bar, at the same guarantee M.2 hard disk and memory bar it Between distinguished and admirable other devices by M.2 Hard disc module of without hindrance fan mould group, so that the distinguished and admirable of fan mould group on mainboard be made to wear M.2 Hard disc module is flowed through after crossing the gap of memory bar, guarantees the heat dissipation effect of M.2 hard disk；At the same time, M.2 riser card is realized Hard disk is electrically connected with mainboard, and the fixing means of fixing buckle is simple and easy, guarantees that M.2 hard disk is parallel with memory bar, and by It is fixedly secured on mainboard.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram one of M.2 Hard disc module；

Fig. 3 is the structural schematic diagram two of M.2 Hard disc module；

Fig. 4 is the structural schematic diagram one of fixing buckle；

Fig. 5 is the structural schematic diagram two of fixing buckle；

In figure: 1, mainboard, 11, PCIE interface, 2, fan mould group, 3, CPU module, 4, memory bar, 5, M.2 Hard disc module, 51, riser card, 511, M.2 hard disk connector, 512, through-hole, 513, PCIE plug, 52, pedestal, 521, bottom plate, 522, side plate, 5221, it buckles, 53, M.2 hard disk, 531, M.2 hard disk plug, 532, fixed groove, 54, fixing buckle, 541, tail portion, 542, axis Portion, 543, head, 544, bulge, 5421, fixing buckle groove, 55, cooling fin.

Specific embodiment

The utility model in order to better understand explains in detail the embodiments of the present invention with reference to the accompanying drawing.

As shown in Figs. 1-5, a kind of fixed structure being conducive to M.2 Hard disk heat radiation, including mainboard 1, the mainboard 1 are equipped with Fan mould group 2, CPU module 3 and memory bar 4, further include the PCIE interface 11 being arranged on mainboard 1 and M.2 Hard disc module 5, M.2 Hard disk 53 is fixed on mainboard 1 with the memory bar 4 by the way that M.2 Hard disc module 5 is parallel, the PCIE interface 11 and the memory Item 4 is arranged in parallel, and the M.2 Hard disc module 5 is equipped with PCIE plug 513, and the M.2 Hard disc module 5 passes through PCIE plug 513 It is fitted on mainboard 1 with PCIE interface 11.

By the way that PCIE interface 11 and memory bar 4 to be arranged in parallel, make M.2 Hard disc module 5 being mounted on PCIE interface 11 It is parallel with memory bar 4, so that the distinguished and admirable of fan mould group 2 on mainboard 1 is flowed through M.2 Hard disc module behind the gap for passing through memory bar 4 5, to keep the heat dissipation that M.2 Hard disc module 5 is preferably enjoyed on mainboard 1 distinguished and admirable, the radiating efficiency of M.2 hard disk 53 is improved, thus Guarantee the stability of M.2 53 read or write speed of hard disk and server operation.

M.2 the Hard disc module includes riser card 51, pedestal 52, M.2 hard disk 53, fixing buckle 54 and cooling fin 55, described Pedestal 52 includes bottom plate 521 and both side plate 522, and the both side plate 522 is arranged in parallel, and one end of both side plate 522 passes through bottom plate 521 are connected, and both side plate 522 is equipped with several buckles 5221 for clamping cooling fin 55, one side and the institute of the M.2 hard disk 53 The connection of 521 upper surface of bottom plate is stated, M.2 the another side of hard disk 53 is connect by heat conductive silica gel with the bottom surface of the cooling fin 55, institute The two sides for stating cooling fin 55 are connect by the buckle 5221 on pedestal 52 with pedestal 52；

M.2 one end of the hard disk 53 is equipped with M.2 hard disk plug 531, and the other end is equipped with fixed groove 532, the fixation Groove 532 is semicircle；The riser card 51 is equipped with the M.2 hard disk connector matched with the M.2 hard disk plug 531 511 and the through-hole 512 that matches with fixed groove 532,51 bottom end of riser card is equipped with to be matched with the PCIE interface 11 PCIE plug 513, the M.2 hard disk plug 531 are electrically connected with the M.2 hard disk connector 511, and the other end passes through the fixation Groove 532, the through-hole 512 and fixing buckle 54 cooperation is connect with the riser card 51, the PCIE plug 513 of riser card 51 and PCIE interface 11 on mainboard 1 is electrically connected.

M.2 the M.2 hard disk 53 in Hard disc module 5 is fixedly clamped by cooling fin 55 and pedestal 52, in the entirety for enjoying mainboard 1 While radiating distinguished and admirable, radiating efficiency is further increased by increasing cooling fin 55；Fixing buckle 54 is convenient for the fixation of cooling fin 55 And installation, so that cooling fin 55 and pedestal 52 M.2 53 firm grip of hard disk, heat conductive silica gel will be improved M.2 hard disk 53 and cooling fin 55 Contact area, improve radiating efficiency.

The fixing buckle 54 includes tail portion 541, axle portion 542, head 543 and bulge 544, the tail portion 541, axle portion 542 and head 543 be cylindrical structure, and the diameter on axle portion 542 and head 543 is respectively less than 541 diameter of tail portion, the head 543 are connect by axle portion 542 with tail portion 541, and tail portion 541, axle portion 542 and 543 axis of head are located at same straight line, the axle portion 542 are equipped with the fixing buckle groove 5421 matched with the fixed groove 532, and the side surrounding on the head 543 is equipped with several The bulge 544 of umbrella, the big end of the bulge 544 is close to axle portion 542.

By the axle portion 542 in fixing buckle 54, fixing buckle groove 5421 is set, it is M.2 hard fixing buckle groove 5421 to be pushed into By riser card 51 and M.2, hard disk 53 is clamped when the fixed groove 532 of disk 53, guarantees the connection of M.2 hard disk 53 and riser card 51 It is firm, while the big end of bulge 544 is in contact on one side with riser card 51, increases the friction between fixing buckle 54 and riser card 51 Power prevents falling off for fixing buckle 54.

The free ending tool on the head 543 is tapered, and big end is close to 542 one end of axle portion, convenient for the handling of fixing buckle 54.

The height of fixing buckle groove 5421 and riser card 51 and M.2 the sum of thickness of hard disk 53 matching in the axle portion 542 It closes, guarantees that riser card 51 is securely clamped with M.2 hard disk 53.

By this structure, keep the M.2 hard disk 53 on mainboard 1 parallel with memory bar 4, while guaranteeing M.2 hard disk 53 and memory Distinguished and admirable other devices by M.2 Hard disc module 5 of without hindrance fan mould group 2 between item 4, to make fan mould group 2 on mainboard 1 It is distinguished and admirable that M.2 Hard disc module 5 are flowed through behind the gap for passing through memory bar 4, guarantee the heat dissipation effect of M.2 hard disk 53；At the same time, Riser card 51 realizes being electrically connected for M.2 hard disk 53 and mainboard 1, and the fixing means of fixing buckle 54 is simple and easy, and guarantee is M.2 hard Disk 53 is parallel with memory bar 4, and is securely held on mainboard 1, substantially increases the heat dissipation effect of M.2 hard disk 3.

For the ordinary skill in the art, introduction according to the present utility model is not departing from the utility model Principle and spirit in the case where, the changes, modifications that are carried out to embodiment, replacement and variant still fall within the utility model Within protection scope.

Claims (5)

1. a kind of fixed structure for being conducive to M.2 Hard disk heat radiation, including mainboard, the mainboard is equipped with fan mould group, CPU module And memory bar, which is characterized in that further include the PCIE interface being arranged on mainboard and M.2 Hard disc module, M.2 hard disk with it is described interior Item is deposited to be fixed on mainboard in parallel by M.2 Hard disc module, the PCIE interface is arranged in parallel with the memory bar, it is described M.2 Hard disc module is equipped with PCIE plug, and the M.2 Hard disc module is mounted on mainboard by PCIE plug and PCIE Interference fit.

2. a kind of fixed structure for being conducive to M.2 Hard disk heat radiation as described in claim 1, which is characterized in that the M.2 hard disk Component includes riser card, pedestal, M.2 hard disk, fixing buckle and cooling fin, and the pedestal includes bottom plate and both side plate, the two sides Plate is arranged in parallel, and one end of both side plate is connected by bottom plate, and both side plate is equipped with several buckles for clamping cooling fin, institute It states the M.2 one side of hard disk to connect with the plate upper surface, M.2 the another side of hard disk passes through heat conductive silica gel and the cooling fin Bottom surface connection, the two sides of the cooling fin are connect by the buckle on pedestal with pedestal；

M.2 one end of the hard disk is equipped with M.2 hard disk plug, and the other end is equipped with fixed groove；The riser card is equipped with and institute The M.2 hard disk connector that M.2 hard disk plug matches is stated, is additionally provided with the through-hole matched with fixed groove on riser card, Riser card bottom end is equipped with the PCIE plug matched with the PCIE interface, and the M.2 hard disk plug and the M.2 hard disk connect Device electrical connection is connect, the other end is connected by the fixed groove, the through-hole and fixing buckle cooperation with the riser card, riser The PCIE plug of card is electrically connected with the PCIE interface on mainboard.

3. a kind of fixed structure for being conducive to M.2 Hard disk heat radiation as claimed in claim 2, which is characterized in that the fixing buckle Including tail portion, axle portion, head and bulge, the tail portion, axle portion and head are cylindrical structure, and axle portion and head is straight Diameter is respectively less than tail diameter, and the head is connect by axle portion with tail portion, and tail portion, axle portion and head axes are located at same straight line, The axle portion is equipped with the fixing buckle groove matched with the fixed groove, and the side surrounding on the head is equipped with several umbrellas Bulge, the big end of the bulge is close to axle portion.

4. a kind of fixed structure for being conducive to M.2 Hard disk heat radiation as claimed in claim 3, which is characterized in that the head Free ending tool is tapered, and big end is close to axle portion one end.

5. a kind of fixed structure for being conducive to M.2 Hard disk heat radiation as claimed in claim 4, which is characterized in that in the axle portion With riser card and M.2, the sum of the thickness of hard disk matches the height of fixing buckle groove.