CN117111692A - Mounting mechanism for improving read-write stability of solid state disk and mounting method thereof - Google Patents

Abstract

The invention discloses a mounting mechanism for improving read-write stability of a solid state disk, wherein a side frame comprises a first angle iron and a second angle iron, and the first angle iron and the second angle iron are reversely and reversely arranged in an inverted mode and are connected to form a Z-shaped side frame; the side part of the hard disk main body is fixedly connected with the corresponding second angle iron through bolts; more than two lower support leg interfaces are respectively arranged on two sides of the hard disk support, each upper support leg interface is connected to the corresponding lower support leg interface through a flexible support rod, one side supporting rocker is further arranged on two sides of the hard disk support, a push rod interface is arranged on the top of the side supporting rocker, one side push rod is assembled at the push rod interface, a flexible side top is arranged on the side push rod, and the flexible side top is movably propped against the side frame. The hard disk is installed and fixed through the hard disk support with the flexible supporting structure, so that vibration transmission between the computer case and the solid state disk can be reduced, and the read-write stability of the solid state disk is improved.

Description

Mounting mechanism for improving read-write stability of solid state disk and mounting method thereof

Technical Field

The invention relates to the technical field of solid state disks, in particular to an installation mechanism for improving the read-write stability of a solid state disk and an installation method thereof.

Background

The solid state disk is a hard disk made of a solid state electronic memory chip array, a flash memory is used as a storage medium, the reading speed is faster than that of a mechanical hard disk, the solid state disk does not need a magnetic head, the seek time is almost zero, the continuous writing speed is very striking, and the solid state disk is generally installed inside a computer through an installation bracket.

However, the traditional solid state disk and the mounting bracket are usually fixed through screws, and the fixing mode is time-consuming and labor-consuming, not convenient enough, and meanwhile, when the mounting bracket and the computer are installed in the computer to shake, the vibration-proof performance of the mounting bracket is poor, the damage to the solid state disk is large, and the read-write stability of the solid state disk is affected.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide an installation mechanism and an installation method for improving the read-write stability of a solid state disk, so that vibration transmission between a computer case and the solid state disk is reduced, and the read-write stability of the solid state disk is improved; and the assembly method of the solid state disk is optimized, and the installation difficulty of the solid state disk is reduced.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the mounting mechanism comprises a hard disk main body and a hard disk bracket, wherein the hard disk bracket comprises a bottom frame and two side frames, the side frames comprise first angle irons and second angle irons, and the first angle irons and the second angle irons are reversely and reversely arranged in an inverted mode and are connected to form Z-shaped side frames; the side part of the hard disk main body is fixedly connected with the corresponding second angle iron through bolts; more than two lower support leg interfaces are respectively arranged on two sides of the hard disk support, each upper support leg interface is connected to the corresponding lower support leg interface through a flexible support rod, one side supporting rocker is further arranged on two sides of the hard disk support, a push rod interface is arranged on the top of the side supporting rocker, one side push rod is assembled at the push rod interface, a flexible side top is arranged on the side push rod, and the flexible side top is movably propped against the side frame.

In a further technical scheme, the flexible supporting rod comprises a supporting rod body made of a soft rubber material, two ends of the supporting rod body are respectively provided with a limiting screw rod, and a limiting buckle gap is formed between the top of a cap of the limiting screw rod and the side surface of the supporting rod body; the limiting buckle gap is respectively clamped with the corresponding upper support leg interface or lower support leg interface.

In a further technical scheme, the lower support leg interface comprises two crossed buckling holes, the inner diameters of the two buckling holes are different, and the inner diameter of the buckling hole at the inner side is larger than the inner diameter of the buckling hole at the outer side; when the flexible support rods are connected and assembled, the limit screw rod is respectively in locking fit or unlocking fit with the two buckling holes.

In a further technical scheme, a vibration sensing unit is arranged on the abutting matching surface of the top of the flexible side, and the vibration sensing unit is matched with the side frame in a triggering manner and is used for sensing the vibration state of the hard disk main body in operation.

In a further technical scheme, the side ejector rod comprises a side buffer body made of a soft rubber material, one side of the side buffer body is provided with a side ejector assembly screw, and another limit buckle gap is reserved between the top of a cap of the side ejector assembly screw and the side surface of the side buffer body and is clamped with a corresponding ejector rod interface; the side buffer bodies are arranged inwards and movably propped against the corresponding side frames, and the vibration sensing units are fixed on the propping matching surfaces of the side buffer bodies.

In a further technical scheme, a concave assembly groove is formed in the abutting matching surface of the side buffer body, the vibration sensing unit is embedded and installed in the assembly groove, and a wiring duct penetrating through the inside and the outside is formed in the side buffer body and penetrates through the assembly groove; the axis position of the side top assembly screw rod is provided with a threading hole which penetrates through the inside and the outside, and the threading hole is communicated with the wiring hole and is used as a signal wire for arranging the vibration sensing unit.

In a further aspect, the vibration sensing unit comprises an eddy current sensor, an inductive sensor or a capacitive sensor.

In a further technical scheme, the middle position of the underframe is provided with a radiator fan assembly part, and the radiator fan assembly part comprises an air inlet and fan connecting holes which are formed in the middle position of the underframe, and the fan connecting holes are uniformly distributed at the edge of the air inlet.

In a further technical scheme, two sides of the underframe are provided with assembling side edges which are tilted upwards; more than two assembly threaded holes are formed in the assembly side edges.

An installation method for improving the read-write stability of a solid state disk comprises the following steps:

s1, preassembling the side ejector rods and the flexible supporting rods on the underframe, wherein each side ejector rod is respectively assembled on the corresponding side supporting rocker and is respectively arranged inwards; each flexible strut is respectively assembled with the corresponding lower leg interface.

S2, installing the underframe preloaded with the side ejector rod on the computer case through bolts;

s3, connecting and assembling the second angle irons of the side frames to two sides of a hard disk main body through bolts respectively;

s4, putting the hard disk main body assembled with the side frame into a case, respectively clamping the upper support leg interfaces of the first angle iron at the tops of the corresponding flexible support rods, and simultaneously ensuring that the side frame is in abutting fit with the side support rods;

s5, respectively outwards snapping each flexible supporting rod, so that the limit screw at the lower part of each flexible supporting rod is in fastening fit with the lower supporting leg interface, and the installation of the solid state disk is completed.

By adopting the structure, compared with the prior art, the invention has the following advantages: the invention provides a mounting mechanism for improving the read-write stability of a solid state disk and a mounting method thereof, wherein a mounting structure with a flexible support is arranged between the solid state disk and a computer case, so that the vibration transmission of the solid state disk and the computer case is reduced, the working stability of the solid state disk is improved, and the read-write stability of the solid state disk is improved; the user does not need to install bolts in the case, and the fastening installation of the solid state disk is completed through the fastening cooperation of the flexible support rod and the support leg interface, so that the difficulty in the disassembly and the installation of the solid state disk is reduced, and the usability of the equipment is improved; the heat dissipation assembly structure is reserved, so that an active heat dissipation fan can be assembled, the working operation temperature of the solid state disk is reduced, and the read-write stability of the solid state disk is further improved; the vibration sensing mechanism is arranged, so that the vibration effect received by the solid state disk can be detected in real time, the damage of environmental vibration to the solid state disk and a computer host is reduced, and the stability and the service life of equipment are further improved.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the hard disk main body in the present invention in a separated state.

Fig. 3 is an exploded view of the hard disk holder in the present invention.

Fig. 4 is a schematic view of the structure of the flexible strut of the present invention.

Fig. 5 is a schematic view of the structure of the side ejector in the present invention.

Detailed Description

The following are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention.

In order to solve the problems of instability and difficult installation of the installation structure of the solid state disk in the prior art, the inventor provides an installation mechanism for improving the read-write stability of the solid state disk, as shown in fig. 1 to 5, the installation mechanism comprises a hard disk main body 3 and a hard disk bracket, the hard disk bracket comprises a bottom frame 1 and two side frames 2, the side frames 2 comprise a first angle iron 21 and a second angle iron 22, and the first angle iron 21 and the second angle iron 22 are reversely and reversely arranged and are connected to form a Z-shaped side frame 2; the side part of the first angle iron 21 is provided with more than two upper support leg interfaces 210, and the side part of the hard disk main body 3 is fixedly connected with the corresponding second angle iron 22 through bolts; more than two lower support leg interfaces 101 are respectively arranged on two sides of the hard disk support, each upper support leg interface 210 is respectively connected to the corresponding lower support leg interface 101 through a flexible support rod 31, one side supporting rocker 12 is further arranged on two sides of the hard disk support, a push rod interface 120 is arranged on the top of the side supporting rocker 12, one side push rod 32 is assembled at the push rod interface 120, a flexible side top is arranged on the side push rod 32, and the flexible side top is movably propped against the side frame 2. The mounting structure with the flexible support is arranged between the solid state disk and the computer case, so that vibration transmission of the solid state disk and the computer case is reduced, and the working stability of the solid state disk is improved, and the read-write stability of the solid state disk is improved.

Specifically, the flexible supporting rod 31 includes a supporting rod body 311 made of a soft plastic material, two ends of the supporting rod body 311 are respectively provided with a limiting screw 312, and a limiting fastening gap 313 is formed between the top of the cap of the limiting screw 312 and the side surface of the supporting rod body 311; the limiting buckle gap 313 is respectively clamped to the corresponding upper leg interface 210 or lower leg interface 101.

Specifically, the lower leg joint 101 includes two intersecting fastening holes, the fastening holes having different inner diameters, the fastening hole on the inner side having an inner diameter larger than that of the fastening hole on the outer side; when the flexible supporting rod 31 is connected and assembled, the limit screw 312 is respectively in locking fit or unlocking fit with the two buckling holes. The user need not to carry out the bolt installation in quick-witted incasement portion, through the fastening cooperation of flexible support rod 31 and stabilizer blade interface, accomplishes the fastening installation of solid state disk, reduces the dismantlement of solid state disk and the degree of difficulty of installation, improves the ease of use of equipment. In the actual operation process, the lower end of the flexible supporting rod 31 is in limit fit with a buckling hole with larger inner diameter in the lower supporting leg interface 101; during locking, the flexible supporting rod 31 is outwards broken, so that the limit screw 312 is opened and buckled to a buckling hole with smaller inner diameter in the lower support leg interface 101, and locking is realized. The solid state disk can be fastened and installed without auxiliary tools, and the installation difficulty is further reduced.

Specifically, the abutting surface of the top of the flexible side is provided with a vibration sensing unit 322, and the vibration sensing unit 322 is in trigger fit with the side frame 2 and is used for sensing the vibration state of the hard disk main body 3 during operation.

Specifically, the side ejector rod 32 includes a side buffer body 321 made of a soft rubber material, one side of the side buffer body 321 is provided with a side top assembly screw 323, another limiting buckle gap 313 is left between the cap top of the side top assembly screw 323 and the side surface of the side buffer body 321, and the limiting buckle gap 313 is clamped to the corresponding ejector rod interface 120; the side buffer body 321 is disposed inward and movably abuts against the corresponding side frame 2, and the vibration sensing unit 322 is fixed to an abutting mating surface of the side buffer body 321.

Specifically, the abutting matching surface of the side buffer body 321 is provided with a concave assembly groove, the vibration sensing unit 322 is embedded and installed in the assembly groove, a wiring duct 3221 penetrating inside and outside is formed in the side buffer body 321, and the wiring duct 3221 penetrates to the through assembly groove; an axis position of the side-top assembly screw 323 is provided with a threading hole 3231 penetrating inside and outside, and the threading hole 3231 is communicated with the wiring hole 3221 and is used as a signal line for arranging the vibration sensing unit 322.

Preferably, the vibration sensing unit 322 in this embodiment is an eddy current sensor, and vibration monitoring is achieved by triggering cooperation between the eddy current sensor and the side frame 2. The vibration displacement or amplitude of the object is measured by the change in distance between the end of the eddy current sensor and the side frame 2. The eddy current sensor has the advantages of wide frequency range (0-10 kHZ), large linear working range, high sensitivity, non-contact measurement and the like.

The installation mechanism in this embodiment is provided with vibration sensing when being used for detecting the solid state disk, the vibration sensing units 322 are respectively and electrically connected to the control circuit of the computer host, when the vibration sensing units 322 detect the vibration wave larger than the preset value, the vibration sensing units 322 output alarm signals to the control circuit, and the control circuit controls the computer to perform corresponding shutdown or dormancy control so as to reduce the damage of environmental vibration to the solid state disk and the computer host, further improve the stability of the equipment and prolong the service life.

Specifically, a radiator fan assembly part 10 is disposed at the middle position of the chassis 1, and the radiator fan assembly part 10 includes an air inlet and fan connection holes formed at the middle position of the chassis 1, and the fan connection holes are uniformly distributed at the edge of the air inlet. The heat dissipation assembly structure is reserved, the active heat dissipation fan can be assembled, and the working operation temperature of the solid state disk is reduced, so that the read-write stability of the solid state disk is further improved.

Specifically, two sides of the underframe 1 are provided with assembling side edges 11, and the assembling side edges 11 are arranged in an upward warping way; the mounting side 11 is provided with more than two mounting threaded holes 110.

The invention also provides an installation method for improving the read-write stability of the solid state disk, which comprises the following steps:

s1, pre-assembling side ejector rods 32 and flexible supporting rods 31 on a chassis 1, wherein each side ejector rod 32 is respectively assembled on a corresponding side supporting rocker 12 and is respectively arranged inwards; each flexible strut 31 is fitted to a respective lower leg interface 101.

S2, installing the underframe 1 preloaded with the side ejector rods 32 on a computer case through bolts;

s3, connecting and assembling two sides of the hard disk main body 3 with second angle irons 22 of the side frames 2 through bolts respectively;

s4, placing the hard disk main body 3 assembled with the side frame 2 into a case, respectively clamping the upper leg interfaces 210 of the first angle irons 21 on the tops of the corresponding flexible supporting rods 31, and simultaneously ensuring that the side frame 2 is in abutting fit with the side supporting rods 32;

s5, respectively outwards snapping each flexible strut 31 to enable the limit screw 312 at the lower part of each flexible strut to be in fastening fit with the lower support leg interface 101, so as to complete the installation of the solid state disk.

Through the installation method, a user can pre-assemble the hard disk main body 3 by bolts outside the case without extending into the inner cavity of the case, the installation difficulty is reduced, after the preset of the hard disk bracket is completed, the user can manually complete the fastening installation of the hard disk main body 3, meanwhile, the flexible installation of the solid state disk is realized, the vibration transmission between the solid state disk and the case is reduced, and the read-write stability is improved.

The foregoing is merely exemplary of the present invention, and those skilled in the art should not be considered as limiting the invention, since modifications may be made in the specific embodiments and application scope of the invention in light of the teachings of the present invention.

Claims (10)

1. A installation mechanism for improving the read-write stability of a solid state disk, which is characterized in that: comprises a hard disk main body (3) and a hard disk bracket,

the hard disk bracket comprises a bottom frame (1) and two side frames (2), wherein the side frames (2) comprise a first angle iron (21) and a second angle iron (22), and the first angle iron (21) and the second angle iron (22) are reversely and reversely arranged in an inverted mode and are connected to form a Z-shaped side frame (2); the side part of the first angle iron (21) is provided with more than two upper support leg interfaces (210), and the side part of the hard disk main body (3) is fixedly connected with the corresponding second angle iron (22) through bolts; two sides of the hard disk bracket are respectively provided with more than two lower support leg interfaces (101), each upper support leg interface (210) is respectively connected with the corresponding lower support leg interface (101) through a flexible support rod (31),

the hard disk support is characterized in that one side supporting rocker (12) is further arranged on two sides of the hard disk support, a push rod interface (120) is arranged at the top of the side supporting rocker (12), one side push rod (32) is arranged at the push rod interface (120), the side push rod (32) is provided with a flexible side top, and the flexible side top is movably propped against the side frame (2).

2. The mounting mechanism for improving read-write stability of a solid state disk according to claim 1, wherein: the flexible support rod (31) comprises a support rod body (311) made of a soft rubber material, two ends of the support rod body (311) are respectively provided with a limit screw (312), and a limit buckle gap (313) is formed between the top of a cap of the limit screw (312) and the side surface of the support rod body (311); the limiting buckle gap (313) is respectively clamped with the corresponding upper support leg interface (210) or lower support leg interface (101).

3. The mounting mechanism for improving read-write stability of a solid state disk according to claim 2, wherein: the lower support leg connector (101) comprises two crossed buckling holes, the inner diameters of the two buckling holes are different, and the inner diameter of the buckling hole at the inner side is larger than the inner diameter of the buckling hole at the outer side; when the flexible supporting rod (31) is connected and assembled, the limit screw (312) is respectively in locking fit or unlocking fit with the two buckling holes.

4. The mounting mechanism for improving read-write stability of a solid state disk according to claim 1, wherein: the abutting matching surface of the top of the flexible side is provided with a vibration sensing unit (322), and the vibration sensing unit (322) is matched with the side frame (2) in a triggering manner and is used for sensing the vibration state of the hard disk main body (3) in operation.

5. The mounting mechanism for improving read-write stability of a solid state disk according to claim 4, wherein: the side ejector rod (32) comprises a side buffer body (321) made of a soft rubber material, one side of the side buffer body (321) is provided with a side ejector rod assembly screw (323), another limit buckle gap (313) is reserved between the top of a cap of the side ejector rod assembly screw (323) and the side surface of the side buffer body (321), and the limit buckle gap (313) is clamped and connected with the corresponding ejector rod interface (120); the side buffer bodies (321) are arranged inwards and movably propped against the corresponding side frames (2), and the vibration sensing units (322) are fixed on the propping matching surfaces of the side buffer bodies (321).

6. The mounting mechanism for improving read-write stability of a solid state disk according to claim 5, wherein: the abutting matching surface of the side buffer body (321) is provided with a concave assembly groove, the vibration sensing unit (322) is embedded and arranged in the assembly groove,

the inside of the side buffer body (321) is provided with a wiring duct (3221) which penetrates inside and outside, and the wiring duct (3221) penetrates to the through assembly groove; an inner and outer penetrating threading hole (3231) is formed in the axis position of the side top assembly screw (323), and the threading hole (3231) is communicated with a wiring hole (3221) and is used as a signal wire for arranging the vibration sensing unit (322).

7. The mounting mechanism for improving read-write stability of a solid state disk according to claim 6, wherein: the vibration sensing unit (322) includes an eddy current sensor, an inductive sensor, or a capacitive sensor.

8. The mounting mechanism for improving read-write stability of a solid state disk according to claim 1, wherein: the middle position of the underframe (1) is provided with a radiator fan assembly part (10), the radiator fan assembly part (10) comprises an air inlet and fan connecting holes which are formed in the middle position of the underframe (1), and the fan connecting holes are uniformly distributed at the edge of the air inlet.

9. The mounting mechanism for improving read-write stability of a solid state disk according to claim 1, wherein: the two sides of the underframe (1) are provided with assembly side edges (11), and the assembly side edges (11) are tilted upwards; the assembly side (11) is provided with more than two assembly threaded holes (110).

10. An installation method for improving the read-write stability of a solid state disk is characterized by comprising the following steps of: mounting with a mounting mechanism according to any one of claims 1 to 9, comprising the steps of:

s1, preassembling the side ejector rods (32) and the flexible support rods (31) on the underframe (1), wherein each side ejector rod (32) is respectively assembled on the corresponding side supporting rocker (12) and is respectively arranged inwards; each flexible strut (31) is fitted to a respective one of the lower leg interfaces (101).

S2, installing the underframe (1) preloaded with the side ejector rod (32) on a computer case through bolts;

s3, respectively connecting and assembling two sides of the hard disk main body (3) by bolts through the second angle iron (22) of the side frame (2);

s4, placing the hard disk main body (3) assembled with the side frame (2) into a case, enabling the upper support leg interfaces (210) of the first angle iron (21) to be respectively clamped at the tops of the corresponding flexible support rods (31), and simultaneously ensuring that the side frame (2) is in abutting fit with the side ejector rods (32);

s5, respectively outwards snapping each flexible supporting rod (31) to enable the limit screw (312) at the lower part of each flexible supporting rod to be in fastening fit with the lower supporting leg interface (101) so as to finish the installation of the solid state disk.