CN105511568A - Hard disk bearing assembly - Google Patents

Abstract

The invention discloses a hard disk bearing assembly comprising a housing piece, a hard disk holder piece, a clamp structure and a stop structure; the housing piece comprises a housing side wall; the housing side wall comprises slide slots and bosses; the hard disk holder piece comprises a chassis and a holder sidewall; the chassis is used for bearing the hard disk; the holder sidewall is arranged on one side of the chassis, and detachably connected with the slide slots of the housing sidewall; the clamp structure is arranged on one side, far away from the chassis, of the holder sidewall, and is configured to selectively clamp the bosses or move to the holder sidewall so as to disengage from the bosses. The stop structure is arranged on the holder sidewall, and configured to selectively move to a position between the holder sidewall and the clamp structure, or to depart from the position between the holder sidewall and the clamp structure; when the stop structure is arranged between the holder sidewall and the clamp structure, the stop structure can stop the clamp structure from moving to the holder sidewall. The existing hard disk holder piece can depart from the housing piece when the hard disk bearing assembly is hit; the novel hard disk bearing assembly can prevent or reduce the said problems.

Description

Hard disk bearing assembly

Technical field

The invention relates to a kind of hard disk bearing assembly, relate to the hard disk bearing assembly of Easy dismountable especially.

Background technology

The hard disk bearing assembly of existing Easy dismountable is designed with the mechanism for assembling-disassembling of non-locking type mostly for convenience of dismounting, for example, similarly be the trip etc. of push type.If collision object or after dropping and ground collide with each other in the process that the hard disk bearing assembly of Easy dismountable is dropped from eminence, the then mechanism for assembling-disassembling of non-locking type, in the process of collision, easily there is the mechanism for assembling-disassembling deflection because of non-locking type excessive, make the assembly in hard disk bearing assembly produce the risk come off separated from one another.Thus, the hard disk bearing assembly be separated after coming off cannot play the complete function of protection hard disk, and allow the hard disk by its protection be exposed in the risk of damage.

Therefore, in order to avoid, the assembly of hard disk bearing assembly is separated from one another to come off, and must limit the deflection of the mechanism for assembling-disassembling of non-locking type, similarly is increase position limiting structure etc. on opponent's part of the mechanism for assembling-disassembling of non-locking type.But, position limiting structure is arranged at problem opponent's part having fit on, as opponent's part and non-locking type mechanism for assembling-disassembling between tolerance, the problem matched each other with installing may be caused.Even, consider Easy dismountable hard disk bearing assembly can device on different machines, and have difference between different machines, not each machine all has enough space installing opponent's parts or arrange position limiting structure on opponent's part.

As can be seen here, obviously still there is inconvenience and defect, and need to be further improved in above-mentioned existing framework.In order to solve the problem, association area there's no one who doesn't or isn't seeks solution painstakingly, but has no applicable mode for a long time always and completed by development.Therefore, how can effectively solve the problem, one of current important research and development problem of real genus, also becomes the target that current association area needs improvement badly.

Summary of the invention

A technical scheme of the present invention relates to a kind of hard disk bearing assembly, and it has Stop structure and optionally moves between bracket sidewall and snap-in structure or by between bracket sidewall and snap-in structure and leave.When Stop structure is by when leaving between bracket sidewall and snap-in structure, snap-in structure optionally engages projection or moves towards bracket sidewall and depart from projection.When Stop structure moves between bracket sidewall and snap-in structure, block snap-in structure moves towards bracket sidewall, makes snap-in structure to depart from projection.Because Stop structure is between bracket sidewall and snap-in structure, can avoid or reduce when hard disk bearing assembly is dropped, snap-in structure be departed from projection because hard disk bearing assembly is collided.Thus, can avoid or reduce hard disk support bracket part and be departed from housing component because hard disk bearing assembly is collided, the hard disk protected in hard disk support bracket part is sustained damage.In addition, the design of Stop structure allows hard disk bearing assembly singlehanded be deviate from hard disk bearing assembly by hard disk support bracket part.

The invention provides a kind of hard disk bearing assembly, comprise housing component, hard disk support bracket part, snap-in structure and Stop structure.Housing component comprises at least one housing sidewall.Housing sidewall comprises chute and projection.Hard disk support bracket part comprises chassis and at least one bracket sidewall.Chassis is in order to carry hard disk.Bracket sidewall is arranged on the side on chassis, and is removably connected the chute of housing sidewall.Snap-in structure is arranged at the side of bracket sidewall away from chassis, and is configured to optionally engage projection or move towards bracket sidewall and depart from projection.Stop structure is arranged on bracket sidewall, and is configured to optionally move between bracket sidewall and snap-in structure or by between bracket sidewall and snap-in structure and leaves.When Stop structure is between bracket sidewall and snap-in structure, Stop structure block snap-in structure moves towards bracket sidewall.

In one or more embodiment of the present invention, above-mentioned snap-in structure comprises the first elastic arm portion, connects snap-in structure in bracket sidewall in the one end away from chassis, and between being configured to allow snap-in structure flexibly travel to and fro between engaging projection and moving towards bracket sidewall.

In one or more embodiment of the present invention, above-mentioned Stop structure comprises limiting section and press section.Limiting section is arranged at bracket sidewall towards away from the side on chassis.Limiting section is configured to lean on snap-in structure phase Arrived, and block snap-in structure moves towards bracket sidewall.Press section is connected to limiting section.Press section is configured to optionally interlocked limited portion and, between bracket sidewall and snap-in structure, or limiting section is left by between bracket sidewall and snap-in structure.

In one or more embodiment of the present invention, above-mentioned Stop structure also comprises the second elastic arm portion, is connected between limiting section and bracket sidewall.Second elastic arm portion is configured to allow limiting section flexibly travel to and fro between and leaves between bracket sidewall and snap-in structure and reply between bracket sidewall and snap-in structure.

In one or more embodiment of the present invention, above-mentioned bracket sidewall also comprises at least one guide structure, is arranged at bracket sidewall one end away from chassis, and extends towards near the side of snap-in structure.When hard disk support bracket part opposite housing member slides, guide structure can slide in chute by opposite housing member.

The present invention provides a kind of hard disk bearing assembly in addition, comprises housing component, hard disk support bracket part, snap-in structure, the first Stop structure and pressing structure.Housing component comprises at least one housing sidewall.Housing sidewall comprises chute and projection.Hard disk support bracket part comprises chassis and at least one bracket sidewall.Chassis is in order to carry hard disk.Bracket sidewall is arranged on the side on chassis, and is removably connected the chute of housing sidewall.Snap-in structure is arranged at the side of bracket sidewall away from chassis, and is configured to optionally engage projection or move towards bracket sidewall and depart from projection.First block vibrational power flow on bracket sidewall, and extends towards the side of snap-in structure.First block structural allocation is with when the first Stop structure is between snap-in structure and bracket sidewall, and block snap-in structure moves towards bracket sidewall.Pressing structure is arranged at the side of snap-in structure away from bracket sidewall.Pressing structure is configured to optionally move snap-in structure in the direction of parallel carrier sidewall, makes the first Stop structure between bracket sidewall and snap-in structure, or allows snap-in structure that bracket sidewall is provided with one end of the first Stop structure.When snap-in structure is provided with one end of the first Stop structure away from bracket sidewall, snap-in structure optionally engages projection or moves towards bracket sidewall and depart from projection.

In one or more embodiment of the present invention, above-mentioned snap-in structure also comprises the second Stop structure, is arranged at the side of snap-in structure near bracket sidewall.Second block structural allocation to work as the first Stop structure between snap-in structure and bracket sidewall, and when snap-in structure moves towards bracket sidewall, leans with the first Stop structure.

In one or more embodiment of the present invention, above-mentioned snap-in structure comprises elastic arm portion, connects snap-in structure in one end away from chassis of bracket sidewall, and between being configured to allow snap-in structure flexibly travel to and fro between engaging projection and moving towards bracket sidewall.

In one or more embodiment of the present invention, the elastic arm portion of above-mentioned snap-in structure is also configured to allow snap-in structure flexibly travel to and fro between the direction of parallel carrier sidewall, make the first Stop structure between bracket sidewall and snap-in structure, or allow snap-in structure that bracket sidewall is provided with one end of the first Stop structure.

In one or more embodiment of the present invention, above-mentioned bracket sidewall also comprises at least one guide structure, is arranged at bracket sidewall one end away from chassis, and extends towards near the side of snap-in structure.When hard disk support bracket part opposite housing member slides, guide structure can slide in chute by opposite housing member.

Compared with prior art, the present invention has following beneficial effect: the present invention has Stop structure and optionally moves between bracket sidewall and snap-in structure or by between bracket sidewall and snap-in structure and leave.When Stop structure is by when leaving between bracket sidewall and snap-in structure, snap-in structure optionally engages projection or moves towards bracket sidewall and depart from projection.When Stop structure moves between bracket sidewall and snap-in structure, block snap-in structure moves towards bracket sidewall, makes snap-in structure to depart from projection.Because Stop structure is between bracket sidewall and snap-in structure, can avoid or reduce when hard disk bearing assembly is dropped, snap-in structure be departed from projection because hard disk bearing assembly is collided.Thus, can avoid or reduce hard disk support bracket part and be departed from housing component because hard disk bearing assembly is collided, the hard disk protected in hard disk support bracket part is sustained damage.In addition, the design of Stop structure allows hard disk bearing assembly singlehanded be deviate from hard disk bearing assembly by hard disk support bracket part.

Accompanying drawing explanation

For the above and other object of the present invention, feature, advantage and embodiment can also be become apparent, being described as follows of institute's accompanying drawings:

Fig. 1 represents the stereographic map of the hard disk bearing assembly according to the multiple embodiment of the present invention.

Fig. 2 represents that in the hard disk bearing assembly according to the multiple embodiment of the present invention, hard disk support bracket part, snap-in structure and Stop structure are along the side cutaway view of 1-1 ' line segment in Fig. 1.

Fig. 3, according to the hard disk support bracket part of the hard disk bearing assembly in Fig. 2, snap-in structure and Stop structure, represents the side cutaway view of Stop structure block snap-in structure towards the movement of bracket sidewall.

Fig. 4, according to the hard disk support bracket part of the hard disk bearing assembly in Fig. 2, snap-in structure and Stop structure, represents that Stop structure leaves by between bracket sidewall and snap-in structure, allows snap-in structure can towards the side cutaway view of bracket sidewall movement.

Fig. 5 represents the stereographic map of the hard disk bearing assembly according to the other multiple embodiment of the present invention.

Fig. 6 represents that in the hard disk bearing assembly according to the other multiple embodiment of the present invention, hard disk support bracket part, snap-in structure, the first Stop structure and pressing structure are along the side cutaway view of 2-2 ' line segment in Fig. 5.

Fig. 7, according to the hard disk support bracket part of the hard disk bearing assembly in Fig. 6, snap-in structure, the first Stop structure and pressing structure, represents the side cutaway view of the first Stop structure block snap-in structure towards the movement of bracket sidewall.

Fig. 8 is according to the hard disk support bracket part of the hard disk bearing assembly in Fig. 6, snap-in structure, the first Stop structure and pressing structure, represent that snap-in structure is provided with one end of the first Stop structure away from bracket sidewall, allow snap-in structure can towards the side cutaway view of bracket sidewall movement.

Unless otherwise indicated, identical in different drawings number and symbol are taken as corresponding parts usually.Clear the relevant of those embodiments of expression that be expressed as of those diagrams associates but not represents this physical size.

100: hard disk bearing assembly

120: housing component

122: housing sidewall

124: chute

126: projection

140: hard disk support bracket part

142: chassis

144: bracket sidewall

160: snap-in structure

162: the first elastic arm portions

180: Stop structure

182: limiting section

184: press section

186: the second elastic arm portions

200: hard disk bearing assembly

220: housing component

222: housing sidewall

224: chute

226: projection

240: hard disk support bracket part

242: chassis

244: bracket sidewall

260: snap-in structure

262: pressing structure

264: elastic arm portion

266: the second Stop structures

280: the first Stop structures

1-1 ': line segment

2-2 ': line segment

Embodiment

Below will with graphic exposure a plurality of embodiment of the present invention, as clearly stated, the details in many practices will be explained in the following description.But should be appreciated that, the details in these practices is not applied to limit the present invention.That is, in some embodiments of the present invention, the details in these practices is non-essential.In addition, for the purpose of simplicity of illustration, some known usual structures and assembly represent in the mode simply illustrated in the drawings.

When an assembly be called as " ... on " time, it can make a general reference this assembly directly on other assemblies, and also can be has other assemblies to be present among both.On the contrary, when an assembly is called as " directly existing " another assembly, it to have other assemblies to be present in both centres.As used herein, vocabulary " and/or " contain one or more any combination in the associated item listed.

Fig. 1 represents the stereographic map of the hard disk bearing assembly 100 according to the multiple embodiment of the present invention.As shown in Figure 1, hard disk bearing assembly 100 comprises housing component 120, hard disk support bracket part 140, snap-in structure 160 and Stop structure 180.Housing component 120 comprises at least one housing sidewall 122.Housing sidewall 122 comprises chute 124 and projection 126.Hard disk support bracket part 140 comprises chassis 142 and at least one bracket sidewall 144.Chassis 142 is in order to carry hard disk.Bracket sidewall 144 is arranged on the side on chassis 142, and is removably connected the chute 124 of housing sidewall 122.Snap-in structure 160 is arranged at the side of bracket sidewall 144 away from chassis 142, and is configured to optionally engage projection 126 or move towards bracket sidewall 144 and depart from projection 126 (see Fig. 4).Stop structure 180 is arranged on bracket sidewall 144, and is configured to optionally move between bracket sidewall 144 and snap-in structure 160 or by between bracket sidewall 144 and snap-in structure 160 and leaves.When Stop structure 180 is between bracket sidewall 144 and snap-in structure 160, Stop structure 180 block snap-in structure 160 moves towards bracket sidewall 144.

Stop structure 180 due to hard disk bearing assembly 100 optionally moves between bracket sidewall 144 and snap-in structure 160 or by between bracket sidewall 144 and snap-in structure 160 and leaves.When Stop structure 180 is by when leaving between bracket sidewall 144 and snap-in structure 160, snap-in structure 160 is just optionally reciprocal in engaging the position of projection 126 or moving towards bracket sidewall 144 and depart from projection 126.When Stop structure 180 moves between bracket sidewall 144 and snap-in structure 160, block snap-in structure 160 moves towards bracket sidewall 144, makes snap-in structure 160 cannot depart from projection 126.Because Stop structure 180 is between bracket sidewall 144 and snap-in structure 160, can avoid or reduce when hard disk bearing assembly 100 is dropped, snap-in structure 160 be departed from projection 126 because hard disk bearing assembly 100 is collided.Thus, can avoid or reduce hard disk support bracket part 140 and be departed from housing component 120 because hard disk bearing assembly 100 is collided, the hard disk protected in hard disk support bracket part 140 is sustained damage.In addition, the design of Stop structure 180 allows hard disk bearing assembly 100 singlehanded be deviate from hard disk bearing assembly 100 by hard disk support bracket part 140.

Fig. 2 represents that in the hard disk bearing assembly 100 according to the multiple embodiment of the present invention, hard disk support bracket part 140, snap-in structure 160 and Stop structure 180 are along the side cutaway view of 1-1 ' line segment in Fig. 1.Fig. 3, according to the hard disk support bracket part 140 of the hard disk bearing assembly 100 in Fig. 2, snap-in structure 160 and Stop structure 180, represents the side cutaway view of Stop structure 180 block snap-in structure 160 towards bracket sidewall 144 movement.Fig. 4 is according to the hard disk support bracket part 140 of the hard disk bearing assembly 100 in Fig. 2, snap-in structure 160 and Stop structure 180, represent that Stop structure 180 leaves by between bracket sidewall 144 and snap-in structure 160, allow snap-in structure 160 can towards the side cutaway view of bracket sidewall 144 movement.With reference to Fig. 2, in multiple embodiment, snap-in structure 160 comprises the first elastic arm portion 162, connects snap-in structure 160 in bracket sidewall 144 in the one end away from chassis 142, and between being configured to allow snap-in structure 160 flexibly travel to and fro between engaging projection 126 and moving towards bracket sidewall 144.

In multiple embodiment, Stop structure 180 comprises limiting section 182 and press section 184.Limiting section 182 is arranged at bracket sidewall 144 towards on the side away from chassis 142.Limiting section 182 is configured to lean on snap-in structure 160 phase Arrived, and block snap-in structure 160 moves towards bracket sidewall 144.Press section 184 is connected to limiting section 182.Press section 184 is configured to optionally between interlocked limited portion 182 to bracket sidewall 144 and snap-in structure 160, or limiting section 182 is left by between bracket sidewall 144 and snap-in structure 160.

In multiple embodiment, Stop structure 180 also comprises the second elastic arm portion 186, is connected between limiting section 182 and bracket sidewall 144.Second elastic arm portion 186 is configured to allow limiting section 182 flexibly travel to and fro between and leaves between bracket sidewall 144 and snap-in structure 160 and reply between bracket sidewall 144 and snap-in structure 160.

In multiple embodiment, bracket sidewall 144 also comprises at least one guide structure 146, is arranged at bracket sidewall 144 one end away from chassis 142, and extends towards near the side of snap-in structure 160.When hard disk support bracket part 140 opposite housing member 120 slides, guide structure 146 can slide in chute 124 by opposite housing member 120.In multiple embodiment, when hard disk support bracket part 140 towards the direction of parallel carrier sidewall 144 for departing from chute 124 time, hard disk support bracket part 140 by chute 124, is fixed in housing component 120 by guide structure 146 Ke Arrived.

Fig. 5 represents the stereographic map of the hard disk bearing assembly 200 according to the other multiple embodiment of the present invention.The present invention provides a kind of hard disk bearing assembly 200 in addition, comprises housing component 220, hard disk support bracket part 240, snap-in structure 260, first Stop structure 280 and pressing structure 262.Housing component 220 comprises at least one housing sidewall 222.Housing sidewall 222 comprises chute 224 and projection 226.Hard disk support bracket part 240 comprises chassis 242 and at least one bracket sidewall 244.Chassis 242 is in order to carry hard disk.Bracket sidewall 244 is arranged on the side on chassis 242, and is removably connected the chute 224 of housing sidewall 222.Snap-in structure 260 is arranged at the side of bracket sidewall 244 away from chassis 242, and is configured to optionally engage projection 226 or move towards bracket sidewall 244 and depart from projection 226.First Stop structure 280 is arranged on bracket sidewall 244, and extends towards the side of snap-in structure 260.First Stop structure 280 is configured to when the first Stop structure 280 is between snap-in structure 260 and bracket sidewall 244, and block snap-in structure 260 moves towards bracket sidewall 244.Pressing structure 262 is arranged at the side of snap-in structure 260 away from bracket sidewall 244.Pressing structure 262 is configured to optionally move snap-in structure 260 in the direction of parallel carrier sidewall 244, make the first Stop structure 280 between bracket sidewall 244 and snap-in structure 260, or allow snap-in structure 260 that bracket sidewall 244 is provided with one end of the first Stop structure 280.When snap-in structure 260 is provided with one end of the first Stop structure 280 away from bracket sidewall 244, snap-in structure 260 optionally engages projection 226 or moves towards bracket sidewall 244 and depart from projection 226.

Snap-in structure 260 due to hard disk bearing assembly 200 can be parallel to bracket sidewall 244 and move, and makes snap-in structure 260 optionally bracket sidewall 244 be provided with one end of the first Stop structure 280 or allow the first Stop structure 280 between snap-in structure 260 and bracket sidewall 244.When snap-in structure 260 is provided with one end of the first Stop structure 280 away from bracket sidewall 244, snap-in structure 260 is just optionally reciprocal in engaging the position of projection 226 or moving towards bracket sidewall 244 and depart from projection 226.When snap-in structure 260 move to allow the first Stop structure 280 between snap-in structure 260 and bracket sidewall 244 time, the first Stop structure 280 block snap-in structure 260 moves towards bracket sidewall 244, makes snap-in structure 260 cannot depart from projection 226.Because the first Stop structure 280 is between bracket sidewall 244 and snap-in structure 260, can avoid or reduce when hard disk bearing assembly 200 is dropped, snap-in structure 260 be departed from projection 226 because hard disk bearing assembly 200 is collided.Thus, can avoid or reduce hard disk support bracket part 240 and be departed from housing component 220 because hard disk bearing assembly 200 is collided, the hard disk protected in hard disk support bracket part 240 is sustained damage.

Fig. 6 represents that in the hard disk bearing assembly 200 according to the other multiple embodiment of the present invention, hard disk support bracket part 240, snap-in structure 260, first Stop structure 280 and pressing structure 262 are along the side cutaway view of 2-2 ' line segment in Fig. 5.Fig. 7, according to the hard disk support bracket part 240 of the hard disk bearing assembly 200 in Fig. 6, snap-in structure 260, first Stop structure 280 and pressing structure 262, represents the side cutaway view of the first Stop structure 280 block snap-in structure 260 towards bracket sidewall 244 movement.Fig. 8 is according to the hard disk support bracket part 240 of the hard disk bearing assembly 200 in Fig. 6, snap-in structure 260, first Stop structure 280 and pressing structure 262, represent that snap-in structure 260 is provided with one end of the first Stop structure 280 away from bracket sidewall 244, allow snap-in structure 260 can towards the side cutaway view of bracket sidewall 244 movement.In multiple embodiment, snap-in structure 260 also comprises the second Stop structure 266, is arranged at the side of snap-in structure 260 near bracket sidewall 244.Second Stop structure 266 is configured to when the first Stop structure 280 is between snap-in structure 260 and bracket sidewall 244, and when snap-in structure 260 moves towards bracket sidewall 244, leans with the first Stop structure 280.

In multiple embodiment, snap-in structure 260 comprises elastic arm portion 264, connect snap-in structure 260 in one end away from chassis 242 of bracket sidewall 244, and between being configured to allow snap-in structure 260 flexibly travel to and fro between engaging projection 226 and moving towards bracket sidewall 244.

In multiple embodiment, the elastic arm portion 264 of snap-in structure 260 is also configured to allow snap-in structure 260 flexibly travel to and fro between the direction of parallel carrier sidewall 244, make the first Stop structure 280 between bracket sidewall 244 and snap-in structure 260, or allow snap-in structure 260 that bracket sidewall 244 is provided with one end of the first Stop structure 280.

In multiple embodiment, bracket sidewall 244 also comprises at least one guide structure 246, is arranged at bracket sidewall 244 one end away from chassis 242, and extends towards near the side of snap-in structure 260.When hard disk support bracket part 240 opposite housing member 220 slides, guide structure 246 can slide in chute 224 by opposite housing member 220.In multiple embodiment, when hard disk support bracket part 240 towards the direction of parallel carrier sidewall 244 for departing from chute 224 time, hard disk support bracket part 240 by chute 224, is fixed in housing component 220 by guide structure 246 Ke Arrived.

In sum, the invention provides a kind of hard disk bearing assembly, comprise housing component, hard disk support bracket part, snap-in structure and Stop structure.Housing component comprises at least one housing sidewall.Housing sidewall comprises chute and projection.Hard disk support bracket part comprises chassis and at least one bracket sidewall.Chassis is in order to carry hard disk.Bracket sidewall is arranged on the side on chassis, and is removably connected the chute of housing sidewall.Snap-in structure is arranged at the side of bracket sidewall away from chassis, and is configured to optionally engage projection or move towards bracket sidewall and depart from projection.Stop structure is arranged on bracket sidewall, and is configured to optionally move between bracket sidewall and snap-in structure or by between bracket sidewall and snap-in structure and leaves.When Stop structure is between bracket sidewall and snap-in structure, Stop structure system block snap-in structure moves towards bracket sidewall.By Stop structure between bracket sidewall and snap-in structure, can avoid or reduce when hard disk bearing assembly is dropped, snap-in structure be departed from projection because hard disk bearing assembly is collided.Thus, can avoid or reduce hard disk support bracket part and be departed from housing component because hard disk bearing assembly is collided, the hard disk protected in hard disk support bracket part is sustained damage.In addition, the design of Stop structure allows hard disk bearing assembly singlehanded be deviate from hard disk bearing assembly by hard disk support bracket part.

Although the present invention discloses as above with embodiment; so itself and be not used to limit the present invention, anyly have the knack of this those skilled in the art, without departing from the spirit and scope of the present invention; when being used for a variety of modifications and variations, therefore protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.

Claims (10)

1. a hard disk bearing assembly, is characterized in that, comprises:

One housing component, comprises at least one housing sidewall, and this housing sidewall comprises a chute and a projection;

One hard disk support bracket part, comprises:

One chassis, is configured to carrying one hard disk; And

At least one bracket sidewall, is arranged on the side on this chassis, and is removably connected this chute;

One snap-in structure, is arranged at the side of this bracket sidewall away from this chassis, and is configured to optionally engage this projection or move towards this bracket sidewall and depart from this projection; And

One Stop structure, be arranged on this bracket sidewall, and be configured to optionally move between this bracket sidewall and this snap-in structure or by between this bracket sidewall and this snap-in structure and leave, wherein when this Stop structure is between this bracket sidewall and this snap-in structure, this this snap-in structure of Stop structure block moves towards this bracket sidewall.

2. hard disk bearing assembly as claimed in claim 1, it is characterized in that, wherein this snap-in structure comprises one first elastic arm portion, connect this snap-in structure in one end away from this chassis of this bracket sidewall, and between being configured to allow this snap-in structure flexibly travel to and fro between this projection of engaging and moving towards this bracket sidewall.

3. hard disk bearing assembly as claimed in claim 1, it is characterized in that, wherein this Stop structure comprises:

One limiting section, be arranged at this bracket sidewall towards away from this side on this chassis, be configured to lean on this snap-in structure phase Arrived, this snap-in structure of block moves towards this bracket sidewall; And

One press section, is connected to this limiting section, and is configured to optionally this limiting section of interlock and, between this bracket sidewall and this snap-in structure, or this limiting section is left by between this bracket sidewall and this snap-in structure.

4. hard disk bearing assembly as claimed in claim 3, it is characterized in that, wherein this Stop structure also comprises one second elastic arm portion, be connected between this limiting section and this bracket sidewall, and be configured to allow this limiting section flexibly travel to and fro between and leave between this bracket sidewall and this snap-in structure and reply between this bracket sidewall and this snap-in structure.

5. hard disk bearing assembly as claimed in claim 1, it is characterized in that, wherein this bracket sidewall comprises at least one guide structure, be arranged at this bracket sidewall one end away from this chassis, and extend towards near the side of this snap-in structure, wherein when this housing component slides this hard disk support bracket part relatively, this guide structure can slide in this chute by this housing component relatively.

6. a hard disk bearing assembly, is characterized in that, comprises:

One housing component, comprises at least one housing sidewall, and this housing sidewall comprises a chute and a projection;

One hard disk support bracket part, comprises:

One chassis, is configured to carrying one hard disk; And

At least one bracket sidewall, is arranged on the side on this chassis, and is removably connected this chute;

One snap-in structure, is arranged at the side of this bracket sidewall away from this chassis, and is configured to optionally engage this projection or move towards this bracket sidewall and depart from this projection;

One first Stop structure, is arranged on this bracket sidewall, and extends towards the side of this snap-in structure, and be configured to when this first Stop structure is between this snap-in structure and this bracket sidewall, this snap-in structure of block moves towards this bracket sidewall; And

One pressing structure, be arranged at the side of this snap-in structure away from this bracket sidewall, and be configured to optionally move this snap-in structure in the direction of this bracket sidewall parallel, make this first Stop structure between this bracket sidewall and this snap-in structure, or allow this snap-in structure that this bracket sidewall is provided with one end of this first Stop structure, wherein when this snap-in structure is provided with one end of this first Stop structure away from this bracket sidewall, this snap-in structure optionally engages this projection or moves towards this bracket sidewall and depart from this projection.

7. hard disk bearing assembly as claimed in claim 6, it is characterized in that, wherein this snap-in structure also comprises one second Stop structure, be arranged at the side of this snap-in structure near this bracket sidewall, be configured to when this first Stop structure is between this snap-in structure and this bracket sidewall, and this snap-in structure is when moving towards this bracket sidewall, lean with this first Stop structure.

8. hard disk bearing assembly as claimed in claim 6, it is characterized in that, wherein this snap-in structure also comprises an elastic arm portion, connect this snap-in structure in one end away from this chassis of this bracket sidewall, and between being configured to allow this snap-in structure flexibly travel to and fro between this projection of engaging and moving towards this bracket sidewall.

9. hard disk bearing assembly as claimed in claim 8, it is characterized in that, wherein this elastic arm portion is also configured to allow this snap-in structure flexibly travel to and fro between the direction of this bracket sidewall parallel, make this first Stop structure between this bracket sidewall and this snap-in structure, or allow this snap-in structure that this bracket sidewall is provided with one end of this first Stop structure.

10. hard disk bearing assembly as claimed in claim 6, it is characterized in that, wherein this bracket sidewall comprises at least one guide structure, be arranged at this bracket sidewall one end away from this chassis, and extend towards near this side of this snap-in structure, wherein when this housing component slides this hard disk support bracket part relatively, this guide structure can slide in this chute by this housing component relatively.