CN214788087U - SSD heat dissipation mechanism of all-in-one machine - Google Patents

SSD heat dissipation mechanism of all-in-one machine Download PDF

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Publication number
CN214788087U
CN214788087U CN202022997496.8U CN202022997496U CN214788087U CN 214788087 U CN214788087 U CN 214788087U CN 202022997496 U CN202022997496 U CN 202022997496U CN 214788087 U CN214788087 U CN 214788087U
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heat dissipation
dissipation mechanism
hole
rod
jack
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尚洪财
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Tongnuo Ezhou Electronics Co ltd
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Tongnuo Ezhou Electronics Co ltd
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Abstract

The utility model relates to a SSD heat dissipation technical field specifically is an all-in-one SSD heat dissipation mechanism, including the mounting panel, one side fixed mounting of mounting panel has micro motor, micro motor's output rotates and is connected with the pivot, one side fixed mounting that micro motor was kept away from to the mounting panel has the shell, the surface of pivot is provided with complementary unit, complementary unit includes the jack, the jack has been seted up to the surface that micro motor one end was kept away from in the pivot, the inner wall fixed mounting of jack has ejecting spring, the inner wall sliding connection of jack has the inserted bar, the locating hole has been seted up to the surface of inserted bar. The utility model discloses, through setting up this complementary unit, can clear up the wind-guiding hole automatically, ensure that the wind-guiding hole can ventilate smoothly when heat dissipation mechanism uses, avoided because the wind-guiding hole blocks up, the condition that leads to the radiating efficiency decline of whole mechanism takes place, guaranteed heat dissipation mechanism's normal use.

Description

SSD heat dissipation mechanism of all-in-one machine
Technical Field
The utility model relates to a SSD heat dissipation technical field especially relates to an all-in-one SSD heat dissipation mechanism.
Background
An SSD, commonly called a solid state disk, is a hard disk made of a solid state electronic memory chip array, and is widely applied to video monitoring, network terminals, navigation devices, and other fields, and when in use, the SSD needs to be continuously cooled to ensure the normal implementation of its functions, so an SSD cooling mechanism is very important.
Traditional SSD heat dissipation mechanism along with long-time use, can adhere to a large amount of dusts on the aviation baffle, owing to lack corresponding mechanism, the dust often is difficult to be cleared up, and the dust is constantly accumulated for a long time, can lead to the wind-guiding hole to appear blockking up to lead to whole aviation baffle to ventilate not smoothly, cause whole heat dissipation mechanism's radiating efficiency to descend, influence SSD's normal use.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the shortcoming that exists among the prior art, and the radiating mechanism of an all-in-one SSD that proposes.
In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an all-in-one SSD heat dissipation mechanism, includes the mounting panel, one side fixed mounting of mounting panel has micro motor, micro motor's output rotates and is connected with the pivot, one side fixed mounting that micro motor was kept away from to the mounting panel has the shell, the surface of pivot is provided with complementary unit.
The auxiliary mechanism comprises a jack, the outer surface of one end of the micro motor is far away from the rotating shaft, the jack is formed in the outer surface of the rotating shaft, an ejection spring is fixedly mounted on the inner wall of the jack, an insertion rod is slidably connected to the inner wall of the jack, a positioning hole is formed in the outer surface of the insertion rod, a sliding block is symmetrically and slidably connected to the inner wall of the positioning hole, two groups of connecting springs are fixedly mounted between one sides, opposite to each other, of the sliding block, a brush rod is fixedly mounted at one end, far away from the positioning hole, of the insertion rod, a through hole is formed in one end of the brush rod, a pressing rod is slidably connected to the inner wall of the through hole, and a limiting block is symmetrically and fixedly mounted on the outer surface of the pressing rod.
Preferably, the rotating shaft penetrates through the inside of the mounting plate and extends to the outer surface of the mounting plate, the fan blades are sleeved on the outer surface of the rotating shaft, and the air guide holes are formed in one side, away from the mounting plate, of the shell.
Preferably, the end of the inserted bar, which is far away from the brush rod, is provided with a matching hole, the press rod penetrates through the through hole and extends to the inside of the matching hole, the inner wall of the through hole is symmetrically provided with a limiting groove, and the limiting block is connected with the inner wall of the limiting groove in a sliding manner.
Preferably, the inner wall symmetry of jack has seted up the card hole, the slider is with the size of a dimension looks adaptation in card hole, the surface cover of slider is equipped with the connection pad.
Preferably, the inside of mounting panel is provided with buffer gear, buffer gear includes the ring channel, the ring channel has been seted up to the inside of mounting panel, fixed mounting has the connecting rod between the inner wall of ring channel, the surface cover of connecting rod is equipped with buffer spring, the surface cover of mounting panel is equipped with the packing ring.
Preferably, the number of connecting rods is six, six the connecting rods are circumference equidistance arrangement, the material of packing ring is rubber.
Compared with the prior art, the utility model discloses an advantage lies in with positive effect:
1. in the utility model, when the worker uses the heat dissipation mechanism, firstly, the inserted bar is aligned to the jack, then the inserted bar is inserted into the jack, the inserted bar can compress the ejection spring, meanwhile, the inner wall of the jack can extrude the slide block, two groups of slide blocks can draw close to the middle and extrude the connecting spring, when the heat dissipation mechanism moves to the final position, the slide block of the connecting spring directly bounces into the clamping hole, thereby fixedly connecting the brush bar and the rotating shaft together, then the worker opens the micro motor, the rotating shaft rotates along with the rotating shaft, the rotating shaft can drive the brush bar to move together while rotating, and the air guide hole is cleaned, thereby ensuring the normal heat dissipation of the whole mechanism, if the brush bar needs to be replaced or cleaned, only the worker needs to press the press bar, the press bar can extrude the connecting spring, the slide block can be separated from the clamping hole, then the ejection spring recovers, thereby ejecting the whole brush bar, through setting up this complementary unit, can clear up the wind-guiding hole automatically, ensure that the wind-guiding hole can ventilate smoothly when heat dissipation mechanism uses, avoided because the wind-guiding hole blocks up, the condition that leads to the radiating efficiency decline of whole mechanism takes place, guaranteed heat dissipation mechanism's normal use.
2. The utility model discloses in, when the staff is using this heat dissipation mechanism, when micro motor begins working, whole mechanism can take place vibrations this moment, if not in time handle, it is not hard up to last vibrations to lead to the component of whole mechanism to take place very easily, the staff can utilize buffer mechanism to carry out the shock attenuation this moment, when micro motor begins to function, the mounting panel can vibrate, the packing ring of mounting panel surface can receive pressure this moment, pressure can directly transmit to the ring channel in, connecting rod and buffer spring all can receive the extrusion this moment, connecting rod and buffer spring can produce reaction force simultaneously, thereby offset pressure, and then reduce the vibrations of mounting panel, through setting up this buffer mechanism, can slow down the vibrations of mounting panel effectively, avoided because vibrations lead to the not hard up condition emergence of whole mechanism component, the life of whole mechanism has been prolonged.
Drawings
Fig. 1 is an exploded view of an SSD heat dissipation mechanism of an integrated machine according to the present invention;
fig. 2 is a schematic view of an auxiliary mechanism structure of an SSD heat dissipation mechanism of the integrated machine of the present invention;
fig. 3 is a schematic structural diagram of a point a in fig. 2 of the SSD heat dissipation mechanism of the integrated machine of the present invention;
fig. 4 is a schematic structural diagram of a portion B in fig. 2 of the SSD heat dissipation mechanism of the integrated machine of the present invention;
fig. 5 is a schematic view of a buffer mechanism structure of an SSD heat dissipation mechanism of the integrated machine;
fig. 6 is the utility model provides a structure schematic diagram of C department in fig. 5 of all-in-one SSD heat dissipation mechanism.
Illustration of the drawings:
1. mounting a plate; 2. a micro motor; 3. a rotating shaft; 4. a housing; 5. an auxiliary mechanism; 6. a buffer mechanism; 501. a jack; 502. ejecting a spring; 503. inserting a rod; 504. positioning holes; 505. a slider; 506. a connecting spring; 507. a brush bar; 508. a through hole; 509. a pressure lever; 510. a limiting block; 601. an annular groove; 602. A connecting rod; 603. a buffer spring; 604. a gasket.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.
Referring to fig. 1-6, the present invention provides a technical solution: an integrated SSD heat dissipation mechanism comprises a mounting plate 1, a micro motor 2 is fixedly mounted on one side of the mounting plate 1, a rotating shaft 3 is rotatably connected to the output end of the micro motor 2, a shell 4 is fixedly mounted on one side of the mounting plate 1, which is far away from the micro motor 2, an auxiliary mechanism 5 is arranged on the outer surface of the rotating shaft 3, which comprises a jack 501, a jack 501 is arranged on the outer surface of one end of the rotating shaft 3, which is far away from the micro motor 2, an ejection spring 502 is fixedly mounted on the inner wall of the jack 501, an insertion rod 503 is slidably connected to the inner wall of the jack 501, a positioning hole 504 is arranged on the outer surface of the insertion rod 503, sliders 505 are symmetrically and slidably connected to the inner wall of the positioning hole 504, a connecting spring 506 is fixedly mounted between the opposite sides of the two sets of sliders 505, a brush rod 507 is fixedly mounted at one end of the insertion rod 503, which is far away from the positioning hole 504, a through hole 508 is arranged at one end of the brush rod 507, and a compression rod 509 is slidably connected to the inner wall of the through hole 508, the outer surface of the pressure lever 509 is symmetrically and fixedly provided with a limiting block 510.
In this embodiment: when a worker uses the heat dissipation mechanism, firstly, the inserting rod 503 is aligned to the inserting hole 501, then the inserting rod 503 is inserted into the inserting hole 501, the inserting rod 503 compresses the ejection spring 502, meanwhile, the inner wall of the inserting hole 501 extrudes the sliding block 505, the two groups of sliding blocks 505 move towards the middle and extrude the connecting spring 506, when the connecting spring 506 moves to the final position, the sliding block 505 of the connecting spring 506 is directly ejected into the clamping hole, so that the brush rod 507 is fixedly connected with the rotating shaft 3, then the worker opens the micro motor 2, at the moment, the rotating shaft 3 rotates along with the rotating shaft, the rotating shaft 3 drives the brush rod 507 to move together while rotating, and the air guide hole is cleaned, so that the normal heat dissipation of the whole mechanism is ensured, when the brush rod 507 needs to be replaced or cleaned, at the worker only needs to press the pressure rod 509, the pressure rod can extrude the connecting spring 506, and the sliding block 505 can be separated from the clamping hole, the ejecting spring 502 is restored immediately, so that the whole brush rod 507 is ejected, the air guide hole can be automatically cleaned by arranging the auxiliary mechanism 5, the air guide hole is ensured to be ventilated smoothly when the heat dissipation mechanism is used, the situation that the heat dissipation efficiency of the whole mechanism is reduced due to the blockage of the air guide hole is avoided, and the normal use of the heat dissipation mechanism is ensured.
Specifically, the rotating shaft 3 penetrates through the inside of the mounting plate 1 and extends to the outer surface of the mounting plate 1, the fan blades are sleeved on the outer surface of the rotating shaft 3, and the air guide hole is formed in one side, away from the mounting plate 1, of the shell 4.
In this embodiment: the fan blades can rotate along with the rotating shaft 3 to generate wind power, and then the SSD is cooled through the wind guide holes.
Specifically, a matching hole is formed in one end, away from the brush rod, of the inserting rod 503, the pressing rod 509 penetrates through the through hole 508 and extends into the matching hole, a limiting groove is symmetrically formed in the inner wall of the through hole 508, and the limiting block 510 is connected with the inner wall of the limiting groove in a sliding mode.
In this embodiment: the pressing rod 509 penetrates through the through hole 508 and extends into the matching hole, so that the pressing rod 509 can normally press the connecting spring 506, and the limiting groove can limit the limiting block 510 to prevent the pressing rod 509 from being separated from the through hole 508.
Specifically, the inner wall of the insertion hole 501 is symmetrically provided with a clamping hole, the slider 505 is matched with the clamping hole in size, and the outer surface of the slider 505 is sleeved with a connecting disc.
In this embodiment: the interaction of the sliding block 505 and the clamping hole can fixedly connect the brush rod 507 and the rotating shaft 3 together, and the connecting disc can ensure that the sliding block 505 cannot slide from the positioning hole 504.
Specifically, the inside of mounting panel 1 is provided with buffer gear 6, and buffer gear 6 includes ring channel 601, and ring channel 601 has been seted up to the inside of mounting panel 1, and fixed mounting has connecting rod 602 between the inner wall of ring channel 601, and the outer surface cover of connecting rod 602 is equipped with buffer spring 603, and the outer surface cover of mounting panel 1 is equipped with packing ring 604.
In this embodiment: when the heat dissipation mechanism is used by a worker, when the micro motor 2 starts to work, the whole mechanism vibrates, if the micro motor is not timely processed, the components of the whole mechanism are easy to loosen due to continuous vibration, the worker can utilize the buffer mechanism 6 to absorb the vibration, when the micro-motor 2 starts to operate, the mounting plate 1 vibrates, the gasket 604 on the outer surface of the mounting plate 1 is pressed, the pressure is directly transmitted into the annular groove 601, the connecting rod 602 and the buffer spring 603 are both pressed, while the link 602 and the buffer spring 603 generate a reaction force, thereby canceling the pressing force, and then reduce the vibrations of mounting panel 1, through setting up this buffer gear 6, can slow down the vibrations of mounting panel 1 effectively, avoided because vibrations lead to the not hard up condition emergence of whole mechanism's component, prolonged the life of whole mechanism.
Specifically, the number of the connecting rods 602 is six, the six groups of connecting rods 602 are arranged in a circumferential equidistant manner, and the gasket 604 is made of rubber.
In this embodiment: the six groups of connecting rods 602 correspond to the six groups of buffer springs 603, so that the buffer effect of the whole buffer mechanism 6 is greatly improved, and the gasket 604 is made of rubber which can also provide a certain buffer effect.
The working principle is as follows: when a worker uses the heat dissipation mechanism, firstly, the inserting rod 503 is aligned to the inserting hole 501, then the inserting rod 503 is inserted into the inserting hole 501, the inserting rod 503 compresses the ejection spring 502, meanwhile, the inner wall of the inserting hole 501 extrudes the sliding block 505, the two groups of sliding blocks 505 move towards the middle and extrude the connecting spring 506, when the connecting spring 506 moves to the final position, the sliding block 505 of the connecting spring 506 is directly ejected into the clamping hole, so that the brush rod 507 is fixedly connected with the rotating shaft 3, then the worker opens the micro motor 2, at the moment, the rotating shaft 3 rotates along with the rotating shaft, the rotating shaft 3 drives the brush rod 507 to move together while rotating, and the air guide hole is cleaned, so that the normal heat dissipation of the whole mechanism is ensured, when the brush rod 507 needs to be replaced or cleaned, at the worker only needs to press the pressure rod 509, the pressure rod can extrude the connecting spring 506, and the sliding block 505 can be separated from the clamping hole, ejecting spring 502 recovers immediately, thereby pop out whole brush-holder stud 507 can, when the staff is using this heat dissipation mechanism, when micro motor 2 begins working, whole mechanism can take place vibrations this moment, if not timely processing, it is very easy to lead to whole mechanism's component to take place not hard up to last vibrations, the staff can utilize buffer gear 6 to carry out the shock attenuation this moment, when micro motor 2 begins to operate, mounting panel 1 can vibrate, the packing ring 604 of mounting panel 1 surface can receive pressure this moment, pressure can directly transmit in annular groove 601, connecting rod 602 and buffer spring 603 all can receive the extrusion this moment, connecting rod 602 and buffer spring 603 can produce reaction force simultaneously, thereby offset pressure, and then reduce the vibrations of mounting panel 1.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in other forms, and any person skilled in the art may use the above-mentioned technical contents to change or modify the equivalent embodiments into equivalent variations to apply to other fields, but all those persons do not depart from the technical contents of the present invention, and any simple modification, equivalent variation and modification made to the above embodiments according to the technical matters of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides an all-in-one SSD heat dissipation mechanism, includes mounting panel (1), its characterized in that: a micro motor (2) is fixedly installed on one side of the installation plate (1), the output end of the micro motor (2) is rotatably connected with a rotating shaft (3), a shell (4) is fixedly installed on one side, far away from the micro motor (2), of the installation plate (1), and an auxiliary mechanism (5) is arranged on the outer surface of the rotating shaft (3);
the auxiliary mechanism (5) comprises a jack (501), the outer surface of one end of the rotating shaft (3) far away from the micro motor (2) is provided with the jack (501), an ejection spring (502) is fixedly arranged on the inner wall of the jack (501), an insertion rod (503) is connected on the inner wall of the jack (501) in a sliding manner, the outer surface of the insert rod (503) is provided with a positioning hole (504), the inner wall of the positioning hole (504) is symmetrically connected with sliding blocks (505) in a sliding way, a connecting spring (506) is fixedly arranged between one opposite sides of the two groups of sliding blocks (505), a brush rod (507) is fixedly arranged at one end of the inserting rod (503) far away from the positioning hole (504), one end of the brush rod (507) is provided with a through hole (508), the inner wall of the through hole (508) is connected with a pressure lever (509) in a sliding way, the outer surface of the pressure lever (509) is symmetrically and fixedly provided with a limiting block (510).
2. The heat dissipation mechanism of claim 1, wherein the heat dissipation mechanism comprises: the fan blade mounting structure is characterized in that the rotating shaft (3) penetrates through the inside of the mounting plate (1) and extends to the outer surface of the mounting plate (1), fan blades are sleeved on the outer surface of the rotating shaft (3), and an air guide hole is formed in one side, away from the mounting plate (1), of the shell (4).
3. The heat dissipation mechanism of claim 1, wherein the heat dissipation mechanism comprises: matching holes are formed in one end, far away from the brush rod (507), of the inserting rod (503), the pressing rod (509) penetrates through the through hole (508) and extends to the inside of the matching holes, limiting grooves are symmetrically formed in the inner wall of the through hole (508), and the limiting blocks (510) are connected with the inner wall of the limiting grooves in a sliding mode.
4. The heat dissipation mechanism of claim 1, wherein the heat dissipation mechanism comprises: the inner wall symmetry of jack (501) has seted up the card hole, slider (505) and the size of the size looks adaptation of card hole, the surface cover of slider (505) is equipped with the connection pad.
5. The heat dissipation mechanism of claim 1, wherein the heat dissipation mechanism comprises: the inside of mounting panel (1) is provided with buffer gear (6), buffer gear (6) include ring channel (601), ring channel (601) have been seted up to the inside of mounting panel (1), fixed mounting has connecting rod (602) between the inner wall of ring channel (601), the surface cover of connecting rod (602) is equipped with buffer spring (603), the surface cover of mounting panel (1) is equipped with packing ring (604).
6. The heat dissipation mechanism of claim 5, wherein the heat dissipation mechanism comprises: the number of connecting rods (602) is six, six the connecting rods (602) are the circumference equidistance and arrange, the material of packing ring (604) is rubber.
CN202022997496.8U 2020-12-14 2020-12-14 SSD heat dissipation mechanism of all-in-one machine Active CN214788087U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022997496.8U CN214788087U (en) 2020-12-14 2020-12-14 SSD heat dissipation mechanism of all-in-one machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022997496.8U CN214788087U (en) 2020-12-14 2020-12-14 SSD heat dissipation mechanism of all-in-one machine

Publications (1)

Publication Number Publication Date
CN214788087U true CN214788087U (en) 2021-11-19

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CN202022997496.8U Active CN214788087U (en) 2020-12-14 2020-12-14 SSD heat dissipation mechanism of all-in-one machine

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CN (1) CN214788087U (en)

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