A heat-dissipating split hard disk shockproof notebook computer

By adopting a heat dissipation-dedicated, shockproof hard drive design, and using a sliding connection and fan system, the laptop achieves efficient heat dissipation, solving the problem of insufficient heat dissipation performance in high-energy-consuming work, improving heat dissipation effect and protecting hard drive safety.

CN122086218BActive Publication Date: 2026-07-14SHENZHEN QINGFEN TINGXIU INFORMATION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SHENZHEN QINGFEN TINGXIU INFORMATION TECH CO LTD
Filing Date
2026-04-27
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing laptops have poor heat dissipation performance, especially during high-energy-consuming work, they are prone to heat buildup leading to performance degradation.

Method used

It adopts a heat dissipation-separated hard drive shockproof design, including a basic heat dissipation mechanism, an extended heat dissipation mechanism and a hard drive mounting mechanism. Hot air is circulated and cooled through sliding connections and a fan system, and the movable hard drive mounting bay prevents hard drive vibration damage.

Benefits of technology

It significantly improves the heat dissipation of laptops, prevents performance degradation caused by heat buildup during long-term operation, and effectively protects the hard drive from vibration damage.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the technical field of notebook computers, and discloses a shockproof notebook computer with a split hard disk and a heat dissipation function, which comprises a computer body, a computer display screen rotatably arranged outside the computer body, a basic heat dissipation mechanism arranged at the bottom of the computer body, a computer support pad arranged at the bottom of the computer body, an extended heat dissipation mechanism arranged at the bottom of the computer body, and a hard disk mounting mechanism arranged in the computer body. The extended heat dissipation mechanism is in sliding connection with the bottom of the computer body, and the extended heat dissipation mechanism is in sliding connection with the bottom and the side of the basic heat dissipation mechanism. The application actively realizes the circulation of air in the basic heat dissipation mechanism through the extended heat dissipation mechanism, effectively prevents the accumulation of hot air in the basic heat dissipation mechanism, significantly improves the heat dissipation effect of the notebook computer, and prevents the performance of the notebook computer from being reduced due to heat accumulation during long-time work.
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Description

Technical Field

[0001] This invention relates to the field of notebook computer technology, specifically to a heat-dissipating, split-hard drive, shockproof notebook computer. Background Technology

[0002] The most notable feature of a laptop is its portability. It integrates the main unit, monitor, keyboard, mouse, and speakers of a traditional desktop computer into a foldable chassis, and its built-in battery allows it to work without an external power source, which is its biggest difference from a desktop computer.

[0003] Chinese patent CN119987510B discloses a laptop computer, belonging to the field of electronic device technology. The laptop computer includes a display screen, a main unit, and an air vent mechanism. The main unit is rotatably connected to the display screen. An air inlet is provided at the bottom of the main unit, and an air outlet is provided at the end of the main unit near the rotatably connected to the display screen. The air vent mechanism includes a baffle for opening or closing the air inlet. The baffle is supported on the main unit. The air inlet includes a first side and a second side opposite to each other. The second side is closer to the air outlet than the first side. The baffle can extend out of the main unit and rotate away from the second side.

[0004] Among the aforementioned patents and existing technologies, the biggest limitation on laptop performance during use is its heat dissipation performance. Existing technologies often have short cooling ducts and low air intake efficiency, resulting in poor heat dissipation performance and making it difficult to perform high-energy-consuming tasks for extended periods. Summary of the Invention

[0005] To address the shortcomings of existing technologies, this invention provides a heat-dissipating, split-hard drive, shockproof laptop.

[0006] A heat-dissipating, split-type hard drive shockproof laptop includes a computer body, a computer display screen is rotatably mounted on the outside of the computer body, a basic heat dissipation mechanism is provided at the bottom of the computer body, a computer support pad is installed at the bottom of the computer body, an extended heat dissipation mechanism is installed at the bottom of the computer body, and a hard drive installation mechanism is installed inside the computer body.

[0007] The basic heat dissipation mechanism is provided with ventilation openings on the bottom and sides. The extended heat dissipation mechanism can be slidably connected to the bottom of the computer body. When the extended heat dissipation mechanism is slidably connected to the bottom of the computer body, it can be connected to the ventilation openings on the bottom and sides of the basic heat dissipation mechanism.

[0008] The hard drive mounting mechanism can move the hard drive and fix its position. The extended heat dissipation mechanism can be connected to the basic heat dissipation mechanism when it slides at the bottom of the computer body. When the extended heat dissipation mechanism is connected to the basic heat dissipation mechanism, it can increase the heat dissipation effect of the computer body. The bottom of the computer body contacts the desktop through the computer support pad. When the extended heat dissipation mechanism moves, it can cause the computer support pad to extend, which can increase the height of the computer body.

[0009] Preferably, the computer support pad includes a transmission connecting strip, which is slidably installed inside the computer body. A compression transmission block is installed on the outside of the transmission connecting strip. Lower compression transmission blocks are provided at both ends of the transmission connecting strip. An upper compression transmission block is slidably installed inside the computer body. A support pad is connected to the top of the upper compression transmission block.

[0010] Preferably, the lower extrusion transmission block is provided with an inclined structure on its exterior, the upper extrusion transmission block is provided with an inclined structure on its exterior, and the exterior of the transmission connecting bar contacts the extended heat dissipation mechanism through the extrusion transmission block;

[0011] When the extended heat dissipation mechanism moves, it can drive the transmission connecting bar to move inside the computer body by contacting the extrusion transmission block. When the transmission connecting bar moves, it can drive the upper extrusion transmission block to move upward by contacting the inclined surface on the lower extrusion transmission block with the inclined surface on the upper extrusion transmission block. When the upper extrusion transmission block moves upward, it can drive the support pad to move upward.

[0012] Preferably, the extended heat dissipation mechanism includes a central connecting frame, a central cooling fan installed inside the central connecting frame, an air outlet connecting frame connected to one side of the central connecting frame, an air outlet fan installed inside the air outlet connecting frame, a hot air outlet provided outside the air outlet connecting frame, an air inlet connected to the other side of the central connecting frame, a connecting plug provided outside the air inlet, an air inlet fan installed inside the air inlet, and a cold air inlet opened outside the air inlet.

[0013] Preferably, the interior of the central connecting frame is connected to the interior of the air outlet connecting frame, the interior of the central connecting frame is connected to the interior of the basic heat dissipation mechanism, and the interior of the air outlet connecting frame is connected to the outside through a hot air outlet.

[0014] When the central cooling fan rotates, it can extract heat from the interior of the basic cooling mechanism, and when the exhaust frame fan rotates, it can expel heat from the interior of the central connecting frame.

[0015] Preferably, the air inlet chamber is connected to the interior of the basic heat dissipation mechanism via a connector plug. The connector plug has an opening on the side near the middle connecting frame, and the opening on the connector plug is connected to the ventilation opening on the side of the basic heat dissipation mechanism.

[0016] When the intake fan rotates, it can drive external air into the interior of the intake chamber from the cold air inlet. The air inside the intake chamber can enter the interior of the basic heat dissipation mechanism from the ventilation opening on the side of the basic heat dissipation mechanism.

[0017] Preferably, the hard drive installation mechanism includes a hard drive storage compartment, which is fixedly installed inside the computer body. A connection cable inlet is provided on the outside of the hard drive storage compartment. A hard drive fixing plate is installed inside the hard drive storage compartment. A hard drive partition plate is connected to the outside of the hard drive fixing plate. A hard drive sliding groove is provided on the inside of the hard drive partition plate. The hard drive fixing compartment is slidably installed inside the hard drive partition plate. A fixing connector is provided on the outside of the hard drive fixing compartment.

[0018] Preferably, there is a space between the hard drive mounting plate and the cable inlet, and the hard drive mounting plate has a groove and a cable passage hole inside, so that the cable inlet and the hard drive mounting plate can guide and distribute the hard drive cable.

[0019] Preferably, rollers are provided on both sides of the hard drive mounting compartment, and the hard drive mounting compartment is slidably connected to the hard drive sliding groove inside the hard drive partition plate through the externally provided rollers. The outside of the hard drive mounting compartment is inserted into the inside of the hard drive mounting plate through a fixed connector.

[0020] When the hard drive mounting bay moves along the inside of the hard drive sliding groove, it can cooperate with the hard drive mounting plate to fix the position of the hard drive. When the hard drive mounting bay moves, it can be fixed in position by inserting a fixing connector into the inside of the hard drive mounting plate.

[0021] Compared with the prior art, the present invention provides a heat dissipation split hard drive shockproof laptop, which has the following beneficial effects:

[0022] 1. This type of heat dissipation, split-type hard drive shockproof laptop features a central cooling fan that actively draws hot air from the base cooling mechanism into the central connecting frame through vents at the bottom. The interior of the central connecting frame is connected to the interior of the exhaust connecting frame. When the exhaust frame fan rotates, it draws hot air from the central connecting frame into the exhaust connecting frame, which is then exhausted through the hot air vents. Simultaneously, the intake fan draws external air into the intake chamber, which is connected to the base cooling mechanism through vents on its side. This extended cooling mechanism actively circulates air within the base cooling mechanism, effectively preventing hot air buildup and significantly improving the laptop's heat dissipation. This prevents heat buildup and performance degradation during prolonged use.

[0023] 2. This type of heat dissipation, split hard drive, shockproof laptop requires the following steps when installing the hard drive: First, slide and rotate the hard drive bay so that the opening of the bay faces upwards. Then, place the hard drive inside the bay with the interface facing upwards. Next, rotate and slide the bay until the hard drive interface side inside the bay contacts and firmly abuts against the hard drive mounting plate. While the bay is sliding, a fixing connector can be inserted into the hard drive mounting plate to secure the hard drive's position. After the hard drive is in place, connect it to the laptop. The movable hard drive bay allows for easy movement and positional fixation of the hard drive, preventing damage from vibrations. Attached Figure Description

[0024] Figure 1 This is a three-dimensional structural diagram of a heat-dissipating, split-hard drive, shock-resistant laptop according to the present invention. Figure 1 ;

[0025] Figure 2 This is a three-dimensional structural diagram of a heat-dissipating, split-hard drive, shock-resistant laptop according to the present invention. Figure 2 ;

[0026] Figure 3 This is a three-dimensional structural diagram of the bottom of a heat-dissipating, split-hard drive, shockproof laptop according to the present invention.

[0027] Figure 4 This is a schematic diagram of the internal structure of a heat dissipation split hard drive shockproof laptop according to the present invention;

[0028] Figure 5 This is a three-dimensional structural diagram of a heat dissipation split hard drive shockproof laptop hard drive mounting mechanism according to the present invention;

[0029] Figure 6This is a three-dimensional structural diagram of a laptop support pad for a heat dissipation split hard drive shockproof laptop according to the present invention.

[0030] Figure 7 This is a three-dimensional structural diagram of an extended heat dissipation mechanism for a shockproof laptop with a split-type hard drive and heat dissipation function, according to the present invention.

[0031] Figure 8 This is a schematic diagram of the internal structure of the extended heat dissipation mechanism of a heat dissipation split hard drive shockproof laptop according to the present invention.

[0032] In the diagram: 1. Computer chassis; 2. Computer monitor; 3. Basic heat dissipation mechanism; 4. Computer support pad; 41. Transmission connecting bar; 42. Extrusion transmission block; 43. Extrusion transmission block; 44. Upper extrusion transmission block; 45. Support pad; 5. Extended heat dissipation mechanism; 51. Middle connecting frame; 52. Middle cooling fan; 53. Exhaust connection frame; 54. Exhaust frame fan; 55. Hot air outlet; 56. Air inlet; 57. Connecting plug; 58. Intake fan; 59. Cold air inlet; 6. Hard drive installation mechanism; 61. Hard drive storage compartment; 62. Connecting cable entry point; 63. Hard drive mounting plate; 64. Hard drive partition plate; 65. Hard drive sliding groove; 66. Hard drive mounting compartment. Detailed Implementation

[0033] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0034] As described in the background section, there are shortcomings in the existing technology. In order to solve the above-mentioned technical problems, this application proposes a heat dissipation split hard drive shockproof laptop. Example

[0035] Please see Figure 1 - Figure 8 A heat dissipation split hard drive shockproof laptop includes a computer body 1, a computer display screen 2 externally mounted on the computer body 1, a basic heat dissipation mechanism 3 at the bottom of the computer body 1, a computer support pad 4 at the bottom of the computer body 1, an extended heat dissipation mechanism 5 at the bottom of the computer body 1, and a hard drive installation mechanism 6 internally mounted on the computer body 1.

[0036] The basic heat dissipation mechanism 3 has ventilation holes on its bottom and sides. The extended heat dissipation mechanism 5 can be slidably connected to the bottom of the computer body 1. When the extended heat dissipation mechanism 5 is slidably connected to the bottom of the computer body 1, it can be connected to the ventilation holes on the bottom and sides of the basic heat dissipation mechanism 3.

[0037] The hard drive mounting mechanism 6 can move the hard drive and fix its position. When the extended heat dissipation mechanism 5 slides at the bottom of the computer body 1, it can connect with the basic heat dissipation mechanism 3. When the extended heat dissipation mechanism 5 is connected with the basic heat dissipation mechanism 3, it can increase the heat dissipation effect of the computer body 1. The bottom of the computer body 1 contacts the desktop through the computer support pad 4. When the extended heat dissipation mechanism 5 moves, it can cause the computer support pad 4 to extend. When the computer support pad 4 extends, it can increase the height of the computer body 1.

[0038] During operation, the hard drive can be placed inside the hard drive mounting mechanism 6. The hard drive mounting mechanism 6 can move and fix the position of the hard drive. When the laptop is placed on the desktop, the bottom of the computer support pad 4 contacts the desktop and dissipates heat from the inside of the computer body 1 through the basic heat dissipation mechanism 3. When high-energy-consuming work is required, the extended heat dissipation mechanism 5 is slidably installed on the bottom of the computer body 1. When the extended heat dissipation mechanism 5 is slidably installed, it can cause the computer support pad 4 to extend. After the extended heat dissipation mechanism 5 is installed, the computer body 1 and the extended heat dissipation mechanism 5 are stacked together, increasing the thickness. After the computer support pad 4 is extended, it can continue to contact the desktop. After the extended heat dissipation mechanism 5 is installed, it can connect with the ventilation holes on the bottom and sides of the basic heat dissipation mechanism 3. After the extended heat dissipation mechanism 5 is connected to the basic heat dissipation mechanism 3, it can increase the amount of air entering the basic heat dissipation mechanism 3 and also increase the amount of hot air escaping from the basic heat dissipation mechanism 3. By increasing the air intake and exhaust volume of the basic heat dissipation mechanism 3 through the extended heat dissipation mechanism 5, the heat dissipation effect of the basic heat dissipation mechanism 3 can be improved, allowing the computer body 1 to maintain high power consumption at all times. Example

[0039] The difference from the above embodiments is that, please refer to [link / reference needed]. Figure 1 - Figure 8 The computer support pad 4 includes a transmission connecting strip 41, which is slidably installed inside the computer body 1. A compression transmission block 42 is installed on the outside of the transmission connecting strip 41. Lower compression transmission blocks 43 are provided at both ends of the transmission connecting strip 41. An upper compression transmission block 44 is slidably installed inside the computer body 1. A support pad 45 is connected to the top of the upper compression transmission block 44.

[0040] The lower extrusion transmission block 43 has an inclined structure on its exterior, the upper extrusion transmission block 44 has an inclined structure on its exterior, and the transmission connecting bar 41 contacts the extended heat dissipation mechanism 5 through the extrusion transmission block 42.

[0041] When the extended heat dissipation mechanism 5 moves, it can contact the extrusion transmission block 42 to drive the transmission connecting bar 41 to move inside the computer body 1. When the transmission connecting bar 41 moves, it can contact the inclined surface on the lower extrusion transmission block 43 with the inclined surface on the upper extrusion transmission block 44 to drive the upper extrusion transmission block 44 to move upward. When the upper extrusion transmission block 44 moves upward, it can drive the support pad 45 to move upward.

[0042] When the extended cooling mechanism 5 is installed, it can slide along the bottom of the computer body 1. As it slides, it contacts the pressing transmission block 42, causing the transmission connecting bar 41 to move to both sides. When the transmission connecting bar 41 moves to both sides, it contacts the inclined surface of the lower pressing transmission block 43 with the inclined surface of the upper pressing transmission block 44, causing the upper pressing transmission block 44 to move upwards. When the upper pressing transmission block 44 moves upwards, it causes the support pad 45 to move upwards. After the extended cooling mechanism 5 is installed on the computer body 1, the thickness of both the computer body 1 and the extended cooling mechanism 5 increases. The position of the support pad 45 can also change to continue contacting the desktop. After the extended heat dissipation mechanism 5 is removed, the compression transmission block 42 no longer contacts the extended heat dissipation mechanism 5. Under the downward pressure of the computer body 1, the inclined structure between the lower compression transmission block 43 and the upper compression transmission block 44 can drive the transmission connecting bar 41 to move towards the center of the computer body 1. The upper compression transmission block 44 moves downward inside the computer body 1. When the upper compression transmission block 44 moves, the position of the support pad 45 can be lowered. By installing the extended heat dissipation mechanism 5, the support pad 45 can be moved up and down to adjust the height of the computer support pad 4, so that the computer body 1 can always maintain a suitable heat dissipation height. Example

[0043] The difference from the above embodiments is that, please refer to [link / reference needed]. Figure 1 - Figure 8 The extended heat dissipation mechanism 5 includes a central connecting frame 51, a central cooling fan 52 installed inside the central connecting frame 51, an air outlet connecting frame 53 connected to one side of the central connecting frame 51, an air outlet fan 54 installed inside the air outlet connecting frame 53, a hot air outlet 55 provided outside the air outlet connecting frame 53, an air inlet 56 connected to the other side of the central connecting frame 51, a connecting plug 57 provided outside the air inlet 56, an air inlet fan 58 installed inside the air inlet 56, and a cold air inlet 59 opened outside the air inlet 56.

[0044] The interior of the middle connecting frame 51 is connected to the interior of the air outlet connecting frame 53, the interior of the middle connecting frame 51 is connected to the interior of the basic heat dissipation mechanism 3, and the interior of the air outlet connecting frame 53 is connected to the outside through the hot air outlet 55.

[0045] When the central cooling fan 52 rotates, it can extract the heat from inside the basic cooling mechanism 3, and when the exhaust fan 54 rotates, it can expel the heat from inside the central connecting frame 51.

[0046] The air inlet 56 is connected to the interior of the basic heat dissipation mechanism 3 via a connector 57. The connector 57 has an opening on the side near the middle connector 51, and the opening on the connector 57 is connected to the ventilation opening on the side of the basic heat dissipation mechanism 3.

[0047] When the intake fan 58 rotates, it can drive external air into the air intake chamber 56 from the cold air intake 59. The air inside the air intake chamber 56 can enter the basic heat dissipation mechanism 3 from the ventilation port on the side of the basic heat dissipation mechanism 3.

[0048] During operation, the extended heat dissipation mechanism 5 can be slidably mounted on the bottom of the computer body 1. When the extended heat dissipation mechanism 5 slides, the connector 57 on the air intake chamber 56 can be inserted into the basic heat dissipation mechanism 3. After the connector 57 is inserted into the basic heat dissipation mechanism 3, the bottom of the middle connecting frame 51 coincides with the position of the basic heat dissipation mechanism 3. When the middle cooling fan 52 rotates, it can actively draw hot air from inside the basic heat dissipation mechanism 3 into the middle connecting frame 51 through the ventilation port at the bottom of the basic heat dissipation mechanism 3. The interior of the middle connecting frame 51 is connected to the interior of the exhaust connecting frame 53. When the exhaust frame fan 54 rotates, it can drive... Hot air inside the middle connecting frame 51 enters the air outlet connecting frame 53 and is discharged through the hot air outlet 55. When the intake fan 58 rotates, it can drive external air into the air intake chamber 56. The air intake chamber 56 is connected to the interior of the basic heat dissipation mechanism 3 through the ventilation port on the side of the basic heat dissipation mechanism 3. By actively circulating the air inside the basic heat dissipation mechanism 3 through the extended heat dissipation mechanism 5, the accumulation of hot air inside the basic heat dissipation mechanism 3 can be effectively prevented, thereby significantly improving the heat dissipation effect of the laptop and preventing the laptop from accumulating heat and causing performance degradation during long-term operation. Example

[0049] The difference from the above embodiments is that, please refer to [link / reference needed]. Figure 1 - Figure 8 The hard drive installation mechanism 6 includes a hard drive storage compartment 61, which is fixedly installed inside the computer body 1. The hard drive storage compartment 61 has a connection cable inlet 62 on its exterior. A hard drive fixing plate 63 is installed inside the hard drive storage compartment 61. A hard drive partition plate 64 is connected to the exterior of the hard drive fixing plate 63. A hard drive sliding groove 65 is provided on the inner side of the hard drive partition plate 64. A hard drive fixing compartment 66 is slidably installed inside the hard drive partition plate 64. A fixing connector is provided on the exterior of the hard drive fixing compartment 66.

[0050] There is space between the hard drive mounting plate 63 and the cable inlet 62. The hard drive mounting plate 63 has a groove and a cable passage hole inside. The cable inlet 62 and the hard drive mounting plate 63 can guide and distribute the hard drive cable.

[0051] Rollers are provided on both sides of the hard drive mounting compartment 66. The hard drive mounting compartment 66 is slidably connected to the hard drive sliding groove 65 inside the hard drive partition plate 64 through the externally provided rollers. The outside of the hard drive mounting compartment 66 is inserted into the inside of the hard drive mounting plate 63 through a fixed connector 67.

[0052] When the hard drive mounting bay 66 moves along the inside of the hard drive sliding groove 65, it can cooperate with the hard drive mounting plate 63 to fix the position of the hard drive. When the hard drive mounting bay 66 moves, it can be fixed in position by inserting the fixing connector 67 into the inside of the hard drive mounting plate 63.

[0053] When installing the hard drive, first slide and rotate the hard drive mounting bay 66 so that the opening of the hard drive mounting bay 66 faces upward. Then place the hard drive inside the hard drive mounting bay 66 with the hard drive interface facing upward. Then rotate and slide the hard drive mounting bay 66 so that the hard drive interface side inside the hard drive mounting bay 66 contacts and abuts against the hard drive mounting plate 63. While the hard drive mounting bay 66 is sliding, the position of the hard drive mounting mechanism 6 can also be fixed by the fixing connector 67 connecting to the inside of the hard drive mounting plate 63. After the hard drive is fixed in position, connect the hard drive to the laptop. The hard drive can be moved by the movable hard drive mounting bay 66 and its position can be fixed to prevent the hard drive from being damaged by basic vibrations.

[0054] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A heat-dissipating, split-hard drive, shockproof laptop, comprising a computer body, characterized in that: The computer body has a computer display screen mounted on its exterior, a basic heat dissipation mechanism at the bottom, a computer support pad at the bottom, an extended heat dissipation mechanism at the bottom, and a hard drive installation mechanism inside. The basic heat dissipation mechanism is provided with ventilation openings on the bottom and sides. The extended heat dissipation mechanism can be slidably connected to the bottom of the computer body. When the extended heat dissipation mechanism is slidably connected to the bottom of the computer body, it can be connected to the ventilation openings on the bottom and sides of the basic heat dissipation mechanism. The hard drive mounting mechanism can move the hard drive and fix its position. The extended heat dissipation mechanism can be connected to the basic heat dissipation mechanism when it is slidably connected to the bottom of the computer body. When the extended heat dissipation mechanism is connected to the basic heat dissipation mechanism, it can increase the heat dissipation effect of the computer body. The bottom of the computer body contacts the desktop through the computer support pad. When the extended heat dissipation mechanism moves, it can cause the computer support pad to extend. When the computer support pad extends, it can increase the height of the computer body. The computer support pad includes a transmission connecting strip, which is slidably installed inside the computer body. A compression transmission block is installed on the outside of the transmission connecting strip. Lower compression transmission blocks are provided at both ends of the transmission connecting strip. An upper compression transmission block is slidably installed inside the computer body. A support pad is connected to the top of the upper compression transmission block. The lower extrusion transmission block has an inclined structure on its exterior, the upper extrusion transmission block has an inclined structure on its exterior, and the transmission connecting bar contacts the extended heat dissipation mechanism through the extrusion transmission block. When the extended heat dissipation mechanism moves, it can drive the transmission connecting bar to move inside the computer body by contacting the extrusion transmission block. When the transmission connecting bar moves, it can drive the upper extrusion transmission block to move upward by contacting the inclined surface on the lower extrusion transmission block with the inclined surface on the upper extrusion transmission block. When the upper extrusion transmission block moves upward, it can drive the support pad to move upward. The extended heat dissipation mechanism includes a central connecting frame, a central cooling fan installed inside the central connecting frame, an air outlet connecting frame connected to one side of the central connecting frame, an air outlet fan installed inside the air outlet connecting frame, a hot air outlet provided outside the air outlet connecting frame, an air inlet connected to the other side of the central connecting frame, a connecting plug provided outside the air inlet, an air inlet fan installed inside the air inlet, and a cold air inlet opened outside the air inlet; The interior of the central connecting frame is connected to the interior of the air outlet connecting frame, the interior of the central connecting frame is connected to the interior of the basic heat dissipation mechanism, and the interior of the air outlet connecting frame is connected to the outside through a hot air outlet. When the central cooling fan rotates, it can extract heat from the interior of the basic cooling mechanism, and when the exhaust frame fan rotates, it can expel heat from the interior of the central connecting frame.

2. The heat dissipation split hard drive shockproof laptop according to claim 1, characterized in that: The air intake chamber is connected to the interior of the basic heat dissipation mechanism via a connector plug. The connector plug has an opening on the side near the middle connecting frame, and the opening on the connector plug is connected to the ventilation port on the side of the basic heat dissipation mechanism. When the intake fan rotates, it can drive external air into the interior of the intake chamber from the cold air inlet. The air inside the intake chamber can enter the interior of the basic heat dissipation mechanism from the vent on the side of the basic heat dissipation mechanism.

3. A heat-dissipating, split-hard drive, shockproof laptop according to claim 2, characterized in that: The hard drive installation mechanism includes a hard drive storage compartment, which is fixedly installed inside the computer case. A connection cable inlet is provided on the outside of the hard drive storage compartment. A hard drive fixing plate is installed inside the hard drive storage compartment. A hard drive partition plate is connected to the outside of the hard drive fixing plate. A hard drive sliding groove is provided on the inside of the hard drive partition plate. The hard drive fixing compartment is slidably installed inside the hard drive partition plate. A fixing connector is provided on the outside of the hard drive fixing compartment.

4. A heat-dissipating, split-hard drive, shockproof laptop according to claim 3, characterized in that: There is a space between the hard drive mounting plate and the cable inlet. The hard drive mounting plate has a groove and a cable passage hole inside. The cable inlet and the hard drive mounting plate can guide and distribute the hard drive cable.

5. A heat-dissipating, split-hard drive, shockproof laptop according to claim 4, characterized in that: Rollers are provided on both sides of the hard drive mounting compartment. The hard drive mounting compartment is slidably connected to the hard drive sliding groove inside the hard drive partition plate through the externally provided rollers. The outside of the hard drive mounting compartment is inserted into the inside of the hard drive mounting plate through a fixed connector. When the hard drive mounting bay moves along the inside of the hard drive sliding groove, it can cooperate with the hard drive mounting plate to fix the position of the hard drive. When the hard drive mounting bay moves, it can be fixed in position by inserting a fixing connector into the inside of the hard drive mounting plate.