CN118210361A - Notebook computer radiator based on environment detection and installation method thereof - Google Patents

Abstract

The invention discloses a notebook computer radiator based on environment detection and an installation method thereof, and the notebook computer radiator comprises a combined water-cooling heat dissipation component, wherein the combined water-cooling heat dissipation component is installed inside a notebook computer body, a CPU (central processing unit) and a GPU (graphics processing unit) are embedded and fixed on a main board of the notebook computer body, meanwhile, the surfaces of the CPU and the GPU cover a heat-conducting plate through silicone grease, and the heat-conducting plate is screwed and fixed on the surface of the main board of the notebook computer body. The notebook computer radiator based on environment detection and the installation method thereof; the heat generated by the CPU and the GPU is transferred to the surfaces of the first radiating coil and the second radiating coil through the copper heat conducting plates, and is radiated through cooling mediums inside the first radiating coil and the second radiating coil, so that efficient radiating work for the CPU and the GPU can be realized through a water cooling mode, the working efficiency of the notebook computer is improved, the clamping caused by overheating is avoided, and the service life of the notebook computer is prolonged.

Description

Notebook computer radiator based on environment detection and installation method thereof

Technical Field

The invention relates to the field of notebook computers, in particular to a notebook computer radiator based on environment detection and an installation method thereof.

Background

The notebook radiator is a fan device which directly blows heat dissipation to the bottom of the notebook computer, forcibly blows the heat of the notebook computer, introduces cold air, and increases air flow at the bottom of the notebook computer, so that each heating element in the notebook computer is enabled to dissipate heat; the internal low-temperature working environment is effectively maintained, and the device is a small device for effectively reducing the temperature of the notebook computer; however, the notebook radiator is usually only used for assisting the notebook to radiate, and most of the radiator mainly aims at reducing the external temperature of the notebook by enhancing the air flow speed of the plastic shell at the bottom, and the internal heat of the notebook is mainly forced to be carried out by convection by virtue of a CPU fan, so that the notebook radiator takes away the heat by relay to finish cooling, and therefore, the ideal state of the simple external radiating effect cannot be achieved;

regarding the patent of notebook heat sink, chinese patent with issued notice number CN206649454U discloses one; the radiator comprises a radiator shell and a fan (7), and is characterized in that: the radiator shell comprises a top plate (1), side walls (6) and a bottom plate, wherein the side walls (6) and the bottom plate are air-tight plastic plates; the side wall (6) comprises an air outlet (2), the air outlet (2) is connected with an air outlet pipeline (4), and the air outlet pipeline (4) is a plastic hose; the top plate (1) comprises more than one air inlet hole;

When the radiator is actually used, the air flow accelerated by the fan on the radiator is impacted on the bottom of the notebook computer, and the cooling medium cannot directly act on a CPU and a GPU which need to be cooled in the notebook computer, so that the cooling effect is very little;

disclosure of Invention

The invention provides a notebook computer radiator based on environment detection and an installation method thereof in order to make up market blank.

The invention aims to provide a notebook computer radiator based on environment detection and an installation method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the notebook computer radiator based on environment detection and the installation method thereof comprise a combined water-cooling heat dissipation component, wherein the combined water-cooling heat dissipation component is installed inside a notebook computer body, a CPU and a GPU are embedded and fixed on a main board of the notebook computer body, meanwhile, the surfaces of the CPU and the GPU are covered with a heat-conducting plate through silicone grease, the heat-conducting plate is screwed and fixed on the surface of the main board of the notebook computer body, and a basic heat dissipation device is installed inside the notebook computer body; the combined water-cooling heat dissipation assembly comprises a first heat dissipation coil pipe, the end part of the first heat dissipation coil pipe is communicated with a second heat dissipation coil pipe, one end of the first heat dissipation coil pipe, which is far away from the second heat dissipation coil pipe, is communicated with a water outlet end, and one end of the second heat dissipation coil pipe, which is far away from the first heat dissipation coil pipe, is communicated with a water inlet end;

The notebook computer body is erected on the fixed support, a water cooling device is arranged on the outer side of the fixed support, the water cooling device comprises a water tank, a drain pipe is arranged at the top of the water tank, a water inlet pipe is arranged at the bottom of the water tank, a first cooling disc is fixedly arranged on the upper side of the interior of the water tank, a second cooling disc is arranged on the bottom edge of the first cooling disc, a third cooling disc is arranged on the bottom of the second cooling disc, a fourth cooling disc is arranged on the bottom of the third cooling disc, a cooling space is formed between two adjacent groups of cooling discs, the cooling space is opposite to the fans, an installation frame is arranged on the outer side of the water tank, and two groups of fans are respectively installed in the installation frame;

The first cooling disc comprises an overflow disc, a plurality of groups of overflow pipes are uniformly arranged on the overflow disc, meanwhile, the top of each overflow pipe is arranged in the overflow disc, and the overflow disc is of a U-shaped structure manufactured by plastic materials.

Further, the first heat dissipation coil pipe and the second heat dissipation coil pipe are both S-shaped formed by manufacturing metal copper materials, the first heat dissipation coil pipe covers the upper position of the GPU, and the second heat dissipation coil pipe covers the upper position of the CPU.

Furthermore, the first heat dissipation coil pipe and the second heat dissipation coil pipe are fixedly adhered to the surfaces of the heat conducting plates, and heat generated by the CPU and the GPU is transferred to the surfaces of the first heat dissipation coil pipe and the second heat dissipation coil pipe through the heat conducting plates made of copper materials, and heat is dissipated through cooling mediums inside the first heat dissipation coil pipe and the second heat dissipation coil pipe.

Further, offer on the lateral wall of notebook computer body to the interface, and go out the water end and pass the lateral wall to the interface and advance water piping tip spiro union fixed, advance the water end simultaneously and pass the lateral wall to the interface and advance water piping tip spiro union fixed, install on the inlet tube and increase the pump, and the inside coolant liquid of water tank enters into the inside of first heat dissipation coil pipe, second heat dissipation coil pipe from increasing the pump through inlet tube, play water end to from the inside of water inlet end, drain pipe circulation backward flow to the water tank.

Furthermore, the cutting is all fixed mounting in the back both sides of water tank, and offer the slot on the support body of fixed bolster, the size looks adaptation of slot and cutting simultaneously to the cutting is pegged graft in the inside of slot.

Furthermore, the water tank is positioned and installed on the fixed support through the slot and the cutting, the water tank is detachable on the fixed support, the section of the slot and the cutting is in a dovetail shape, and the water inlet of the water tank is in threaded connection with the sealing cap.

Furthermore, the water tank is of a flat structure manufactured by plastic materials, the whole water tank is in an L-shaped structure, two groups of positioning seats are fixedly arranged on the front surface of the water tank, and positioning blocks are fixedly arranged at two ends of the mounting frame.

Furthermore, the installation frame is positioned and installed on the front surface of the water tank through the positioning seat and the positioning block, the distance between the installation frame and the water tank is 1.2cm, and the dovetail block at the end part of the positioning block is arranged in the dovetail groove formed in the positioning seat in a sliding manner.

Furthermore, the environment detection sensor, the controller and the buzzer are installed in the notebook computer body, the environment detection sensor is a temperature sensor, and the controller is respectively and electrically connected with the environment detection sensor and the buzzer.

The method for installing the notebook computer radiator based on the environment detection comprises the following steps:

S1: opening a back cover of the notebook computer body, smearing low-temperature tin paste on the back surfaces of the first heat dissipation coil pipe and the second heat dissipation coil pipe, and performing acceleration low Wen Xijiang to solidify through a hot air gun, so that the first heat dissipation coil pipe and the second heat dissipation coil pipe are quickly adhered to the surfaces of the heat conducting plates;

S2: the water outlet end penetrates through the side wall of the butt joint and is fixedly connected with the end part of the water inlet pipe in a threaded manner, and the water inlet end penetrates through the side wall of the butt joint and is fixedly connected with the end part of the water outlet pipe in a threaded manner;

s3: erecting the notebook computer body at the bottom of the fixed support, suspending the bottom of the notebook computer body, and inserting the cutting into the slot; the water tank can be positioned and installed on the fixed bracket;

S4: after the equipment is installed, cooling water enters the inside of the water inlet end from the drain pipe, and then enters the inside of the first radiating coil and the inside of the second radiating coil, heat generated by the CPU and the GPU is transferred to the surfaces of the first radiating coil and the second radiating coil through the copper heat conducting plate, and is radiated through cooling media inside the first radiating coil and the second radiating coil, and efficient radiating work of the CPU and the GPU can be realized through a water cooling mode.

Compared with the prior art, the invention has the beneficial effects that:

1. The cooling water enters the water inlet end from the drain pipe, and then enters the first radiating coil and the second radiating coil, heat generated by the CPU and the GPU is transferred to the surfaces of the first radiating coil and the second radiating coil through the copper heat conducting plate, and is radiated through cooling mediums in the first radiating coil and the second radiating coil, and the efficient radiating work of the CPU and the GPU can be realized in a water cooling mode, so that the working efficiency of the notebook computer is improved, the clamping caused by overheating is avoided, and the service life of the notebook computer is prolonged;

2. The cutting is inserted into the slot; the water tank can be positioned and installed on the fixed bracket, and the notebook computer body is arranged on the fixed bracket;

the fixed bracket, the notebook computer body and the water tank are integrated together, so that the number of external cables and equipment can be reduced, and the whole body is simpler and easy to carry and manage; the convenience of integrated design is realized;

3. The water body impacts the surface of the first cooling disc and falls down in a four-time overflow mode; in the falling process, the contact area of the water body and the air in the inner space of the water tank is increased, and the falling water body is subjected to efficient heat dissipation and cooling under the action of the fan; the water tank is the flat structure of off-set that plastic material made, and the design of off-set can increase the area of contact of water outside and water tank front lateral wall, and the air current that is through fan acceleration strikes the surface at water tank front lateral wall, through increasing the heat transfer area of air current and water outside, improves the radiating effect to the inside coolant liquid of water tank.

Drawings

FIG. 1 is a schematic elevational view of the structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure of the present invention at A in FIG. 1;

FIG. 3 is a schematic view of the surface structure of a heat conducting plate according to the present invention;

FIG. 4 is a schematic view of a water-cooled heat sink and a mounting structure of a fixing bracket according to the present invention;

FIG. 5 is a schematic view of a water-cooled heat sink according to the present invention;

FIG. 6 is a schematic view of the internal structure of the water tank according to the structure of the present invention;

FIG. 7 is a side view of the structure of FIG. 5 of the present invention;

FIG. 8 is a schematic view of a notebook computer of the structure of the present invention placed on a fixed stand;

fig. 9 is a schematic diagram of a notebook computer with the structure of the present invention and water inlet pipe and water outlet pipe thereon.

In the figure: 1. a notebook computer; 11. an interface; 2. a combined water-cooling heat dissipation assembly; 21. a water outlet end; 22. a water inlet end; 23. a first heat dissipating coil; 24. a second heat dissipating coil; 25. a heat conductive plate; 26. a CPU; 27. a GPU; 3. an environment detection sensor; 31. a controller; 32. a buzzer; 4. a base heat sink; 5. a water-cooling heat dissipation device; 51. a water inlet pipe; 52. a drain pipe; 53. a water tank; 531. a slot; 532. cutting; 54. a mounting frame; 55. a fan; 56. a positioning seat; 57. a positioning block; 58. a sealing cap; 59. a first cooling plate; 5911. an overflow tray; 5912. an overflow pipe; 5913. cooling space; 591. a second cooling plate; 592. a third cooling plate; 593. a fourth cooling plate; 6. a fixed bracket; 61. a frame body.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The first embodiment is as follows: referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a notebook computer radiator based on environmental detection, includes combination formula water-cooling heat dissipation subassembly 2, and combination formula water-cooling heat dissipation subassembly 2 installs in notebook computer body 1's inside, and inlay fixed CPU26, GPU27 on notebook computer body 1's the mainboard, simultaneously CPU26, GPU 27's surface covers heat-conducting plate 25 through the silicone grease, and heat-conducting plate 25 spiro union is fixed in notebook computer body 1's mainboard surface, notebook computer body 1's internally mounted basis heat abstractor 4; the combined water-cooling heat dissipation assembly 2 comprises a first heat dissipation coil pipe 23, wherein the end part of the first heat dissipation coil pipe 23 is communicated with a second heat dissipation coil pipe 24, meanwhile, one end of the first heat dissipation coil pipe 23 far away from the second heat dissipation coil pipe 24 is communicated with a water outlet end 21, and one end of the second heat dissipation coil pipe 24 far away from the first heat dissipation coil pipe 23 is communicated with a water inlet end 22;

The notebook computer body 1 is erected on a fixed support 6, a water cooling device 5 is arranged on the outer side of the fixed support 6, the water cooling device 5 comprises a water tank 53, a drain pipe 52 is arranged on the top of the water tank 53, a water inlet pipe 51 is arranged at the bottom of the water tank 53, a first cooling disc 59 is fixedly arranged on the upper side of the interior of the water tank 53, a second cooling disc 591 is arranged at the bottom edge of the first cooling disc 59, a third cooling disc 592 is arranged at the bottom of the second cooling disc 591, a fourth cooling disc 593 is arranged at the bottom of the third cooling disc 592, a cooling space 5913 is formed between two adjacent groups of cooling discs, the cooling space 5913 is opposite to the fans 55, a mounting frame 54 is arranged on the outer side of the water tank 53, and two groups of fans 55 are respectively arranged in the mounting frame 54;

the first cooling plate 59 includes an overflow plate 5911, and a plurality of groups of overflow pipes 5912 are uniformly installed on the overflow plate 5911, meanwhile, the top of the overflow pipe 5912 is arranged in the overflow plate 5911, and the overflow plate 5911 is of a U-shaped structure manufactured by plastic materials.

Working principle: when the CPU26 and the GPU27 in the notebook computer body 1 are required to be subjected to high-efficiency heat dissipation, the switch for adding the pump is started at the moment, cooling water enters the water inlet end 22 from the water outlet pipe 52, then enters the first heat dissipation coil 23 and the second heat dissipation coil 24, heat generated by the CPU26 and the GPU27 is transferred to the surfaces of the first heat dissipation coil 23 and the second heat dissipation coil 24 through the heat conducting plate 25 made of copper materials, heat is dissipated through cooling media in the first heat dissipation coil 23 and the second heat dissipation coil 24, high-efficiency heat dissipation work for the CPU26 and the GPU27 can be realized through a water cooling mode, the working efficiency of the notebook computer is improved, clamping is avoided due to overheating, and the service life of the notebook computer is prolonged.

The second embodiment is as follows: this embodiment is further defined as the first embodiment, in which the first heat dissipation coil 23 and the second heat dissipation coil 24 are both formed of a metallic copper material and are disposed in an "S" shape, and the first heat dissipation coil 23 is covered on the upper portion of the GPU27, while the second heat dissipation coil 24 is covered on the upper portion of the CPU 26.

As shown in fig. 1-3:

The first heat-dissipating coil 23 covers the upper position of the GPU 27;

The second heat-dissipating coil 24 covers the upper position of the CPU 26;

the two groups of heat dissipation coils are arranged in an S shape, and the heat dissipation efficiency of the GPU27 and the CPU26 is increased by increasing the contact area with the heat conduction plate 25.

And a third specific embodiment: in this embodiment, the first heat dissipation coil 23 and the second heat dissipation coil 24 are fixedly adhered to the surface of the heat conducting plate 25, and the heat generated by the CPU26 and the GPU27 is transferred to the surfaces of the first heat dissipation coil 23 and the second heat dissipation coil 24 through the copper heat conducting plate 25, and is dissipated through the cooling medium inside the first heat dissipation coil 23 and the second heat dissipation coil 24.

As shown in fig. 1-3: the cooling water inside the first heat dissipation coil 23 and the second heat dissipation coil 24 flows on the surface of the heat conducting plate 25, so that heat on the surface of the heat conducting plate 25 can be reduced, and meanwhile, the heat dissipation work of the CPU26 and the GPU27 is realized through the cooling work of the heat conducting plate 25.

The specific embodiment IV is as follows: the present embodiment is further limited by the first embodiment, the side wall of the notebook computer body 1 is provided with the butt joint 11, the water outlet end 21 passes through the side wall of the butt joint 11 and is screwed and fixed with the end part of the water inlet pipe 51, meanwhile, the water inlet end 22 passes through the side wall of the butt joint 11 and is screwed and fixed with the end part of the water outlet pipe 52, the water inlet pipe 51 is provided with the adding pump, and the cooling liquid in the water tank 53 enters the first heat dissipation coil 23 and the second heat dissipation coil 24 from the adding pump through the water inlet pipe 51 and the water outlet end 21, and circularly flows back to the inside of the water tank 53 from the water inlet end 22 and the water outlet pipe 52.

Hot water from the inside of the drain pipe 52 enters the inside of the water tank 53, and the water body impacts the surface of the first cooling plate 59, enters the lower part of the first cooling plate 59 in an overflow manner, enters the surface of the second cooling plate 591, and enters the surface of the third cooling plate 592 again in an overflow manner; and enter the surface of the fourth cooling plate 593 again through the overflow mode, the water body is in the process of falling, through increasing the area of contact of the water body and the air in the inner space of the water tank 53, and under the effect of the fan 55, the efficient heat dissipation cooling work is carried out to the falling water body.

As shown in fig. 3-8: the cooling liquid in the water tank 53 enters the first heat dissipation coil 23 and the second heat dissipation coil 24 from the adding pump through the water inlet pipe 51 and the water outlet end 21, after the liquid in the first heat dissipation coil 23 and the second heat dissipation coil 24 is heated by the heat conducting plate 25, the hot water is recirculated to the water tank 53 from the water inlet end 22 and the water outlet pipe 52, and when the hot water flows in the water tank 53, the air cooling heat dissipation work can be performed by the two groups of fans 55.

Fifth embodiment: in this embodiment, as a further limitation of the first embodiment, the insert 532 is fixedly installed on both sides of the back surface of the water tank 53, and the frame 61 of the fixing bracket 6 is provided with the slot 531, and meanwhile, the slot 531 is matched with the size of the insert 532, and the insert 532 is inserted into the slot 531.

As shown in fig. 4 and 7: the cutting 532 is inserted into the slot 531; the water tank 53 can be positioned and installed on the fixed bracket 6, and the notebook computer body 1 is arranged on the fixed bracket 6;

The fixed bracket 6, the notebook computer body 1 and the water tank 53 are integrated together, so that the number of external cables and equipment can be reduced, and the whole body is simpler and easy to carry and manage; and convenience of integrated design is realized.

Specific embodiment six: the present embodiment is further limited to the first embodiment, the water tank 53 is positioned and installed on the fixing support 6 through the slot 531 and the cutting 532, and the water tank 53 is detachable on the fixing support 6, and meanwhile, the sections of the slot 531 and the cutting 532 are all in a dovetail shape, and the water inlet of the water tank 53 is screwed with the sealing cap 58.

Through the sealing cap 58, the water replenishing operation can be performed inside the water tank 53, the water tank 53 is detachable on the fixing support 6, the water tank 53 is convenient to separate on the fixing support 6, and the water tank 53 can be separately stored.

Seventh embodiment: the present embodiment is further limited to the first embodiment, the water tank 53 is of a flat structure made of plastic material, the water tank 53 is integrally provided in an "L" shape, two sets of positioning seats 56 are fixedly provided on the front surface of the water tank 53, and positioning blocks 57 are fixedly provided on both ends of the mounting frame 54.

As shown in fig. 5-8: the water tank 53 is a flat structure made of plastic materials, and the flat design can increase the contact area between the outside of the water body and the front side wall of the water tank 53, and the air flow accelerated by the fan 55 impacts the surface of the front side wall of the water tank 53, so that the heat dissipation effect of the cooling liquid in the water tank 53 is improved by increasing the heat exchange area between the air flow and the outside of the water body.

Eighth embodiment: the present embodiment is further limited to the seventh embodiment, the mounting frame 54 is positioned and mounted on the front surface of the water tank 53 by the positioning seat 56 and the positioning block 57, and the distance between the mounting frame 54 and the water tank 53 is 1.2cm, and the dovetail block at the end of the positioning block 57 is slidably disposed in the dovetail groove formed in the positioning seat 56.

The space between the mounting frame 54 and the water tank 53 is 1.2cm, the accelerated air flow is impacted on the side wall of the front face of the water tank 53 to perform air cooling and heat dissipation on the cooling liquid in the water tank 53,

Detailed description nine: the present embodiment is further limited to the first embodiment, and the environment detection sensor 3, the controller 31 and the buzzer 32 are installed in the notebook computer body 1, and the environment detection sensor 3 is a temperature sensor, and the controller 31 is electrically connected to the environment detection sensor 3 and the buzzer 32, respectively.

The environment detection sensor 3 is a temperature sensor, the temperature sensor can detect the environment temperature inside the notebook computer body 1, when the temperature exceeds the threshold value set by the controller 31, the controller 31 starts the switch of the micro booster pump and the fan 55 at the moment, so that the water cooling and heat dissipation work of the notebook computer body 1 is realized, and the stability of the notebook computer body 1 is improved by improving the heat dissipation performance of the notebook computer body 1, so that the notebook computer body has a larger over-frequency space.

The method for installing the notebook computer radiator based on the environment detection comprises the following steps:

S1: the back cover of the notebook computer body 1 is opened, low-temperature tin paste is smeared on the back surfaces of the first radiating coil 23 and the second radiating coil 24, and acceleration is carried out by a hot air gun to carry out low-speed Wen Xijiang for solidification, so that the first radiating coil 23 and the second radiating coil 24 are quickly adhered on the surface of the heat conducting plate 25;

S2: the water outlet end 21 passes through the side wall of the butt joint 11 and is in threaded connection with the end part of the water inlet pipe 51, and the water inlet end 22 passes through the side wall of the butt joint 11 and is in threaded connection with the end part of the water outlet pipe 52;

s3: erecting the notebook computer body 1 at the bottom of the fixed bracket 6, suspending the bottom of the notebook computer body 1, and inserting the cutting 532 into the slot 531; the water tank 53 can be positioned and installed on the fixed bracket 6;

S4: after the installation of the equipment is completed, cooling water enters the water inlet end 22 from the drain pipe 52, enters the first heat radiating coil 23 and the second heat radiating coil 24, heat generated by the CPU26 and the GPU27 is transferred to the surfaces of the first heat radiating coil 23 and the second heat radiating coil 24 through the copper heat conducting plate 25, and is radiated through cooling mediums in the first heat radiating coil 23 and the second heat radiating coil 24, and efficient heat radiation work of the CPU26 and the GPU27 can be realized through a water cooling mode.

Although embodiments of the present 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 therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a notebook computer radiator based on environment detection, includes combination formula water-cooling heat dissipation subassembly (2), its characterized in that: the combined water-cooling heat dissipation assembly (2) is arranged in the notebook computer body (1), a CPU (26) and a GPU (27) are embedded and fixed on a main board of the notebook computer body (1), the surfaces of the CPU (26) and the GPU (27) are covered with a heat conduction plate (25) through silicone grease, the heat conduction plate (25) is fixedly connected to the surface of the main board of the notebook computer body (1) in a threaded manner, and a basic heat dissipation device (4) is arranged in the notebook computer body (1); the combined water-cooling heat dissipation assembly (2) comprises a first heat dissipation coil (23), the end part of the first heat dissipation coil (23) is communicated with a second heat dissipation coil (24), one end of the first heat dissipation coil (23) far away from the second heat dissipation coil (24) is communicated with a water outlet end (21), and one end of the second heat dissipation coil (24) far away from the first heat dissipation coil (23) is communicated with a water inlet end (22);

The notebook computer body (1) is erected on a fixed support (6), a water cooling device (5) is arranged on the outer side of the fixed support (6), the water cooling device (5) comprises a water tank (53), a drain pipe (52) is arranged at the top of the water tank (53), a water inlet pipe (51) is arranged at the bottom of the water tank (53), a first cooling disc (59) is fixedly arranged on the upper side of the inside of the water tank (53), a second cooling disc (591) is arranged on the bottom edge of the first cooling disc (59), a third cooling disc (592) is arranged at the bottom of the second cooling disc (591), a fourth cooling disc (593) is arranged at the bottom of the third cooling disc (592), a cooling space (5913) is formed between two adjacent groups of cooling discs, the cooling space (5913) is opposite to the fans (55), a mounting frame (54) is arranged on the outer side of the water tank (53), and two groups of fans (55) are respectively arranged in the inside the mounting frame (54);

The first cooling disc (59) comprises an overflow disc (5911), a plurality of groups of overflow pipes (5912) are uniformly arranged on the overflow disc (5911), meanwhile, the top of each overflow pipe (5912) is arranged in the overflow disc (5911), and the overflow disc (5911) is of a U-shaped structure manufactured by plastic materials.

2. The notebook computer radiator based on environment detection according to claim 1, wherein: the first radiating coil (23) and the second radiating coil (24) are both in an S-shaped arrangement made of metal copper, the first radiating coil (23) covers the upper position of the GPU (27), and the second radiating coil (24) covers the upper position of the CPU (26).

3. The notebook computer radiator based on environment detection according to claim 2, wherein: the first radiating coil (23) and the second radiating coil (24) are fixedly adhered to the surface of the heat conducting plate (25), and heat generated by the CPU (26) and the GPU (27) is transferred to the surfaces of the first radiating coil (23) and the second radiating coil (24) through the copper heat conducting plate (25), and is radiated through cooling mediums inside the first radiating coil (23) and the second radiating coil (24).

4. The notebook computer radiator based on environment detection according to claim 1, wherein: offer on the lateral wall of notebook computer body (1) to interface (11), and go out water end (21) and pass the lateral wall to interface (11) and inlet tube (51) tip spiro union is fixed, simultaneously inlet end (22) pass the lateral wall to interface (11) and drain pipe (52) tip spiro union is fixed, install the increase pump on inlet tube (51), and the inside coolant liquid of water tank (53) enters into the inside of first heat dissipation coil pipe (23), second heat dissipation coil pipe (24) from increasing the pump through inlet tube (51), play water end (21), and from inlet end (22), drain pipe (52) circulation backward flow to the inside of water tank (53).

5. The notebook computer radiator based on environment detection according to claim 1, wherein: the two sides of the back of the water tank (53) are fixedly provided with the cutting (532), the frame body (61) of the fixed support (6) is provided with the inserting groove (531), the inserting groove (531) is matched with the cutting (532) in size, and the cutting (532) is inserted into the inserting groove (531).

6. The notebook computer radiator based on environment detection according to claim 1, wherein: the water tank (53) is positioned and installed with the cutting (532) through the slot (531) on the fixed support (6), the water tank (53) is detachable on the fixed support (6), meanwhile, the sections of the slot (531) and the cutting (532) are dovetail-shaped, and the water inlet of the water tank (53) is connected with the sealing cap (58) in a threaded mode.

7. The notebook computer radiator based on environment detection according to claim 1, wherein: the water tank (53) is of a flat structure manufactured by plastic materials, the water tank (53) is integrally L-shaped, two groups of positioning seats (56) are fixedly arranged on the front surface of the water tank (53), and positioning blocks (57) are fixedly arranged at two ends of the mounting frame (54).

8. The environment detection-based notebook computer radiator according to claim 7, wherein: the mounting frame (54) is positioned and mounted on the front surface of the water tank (53) through the positioning seat (56) and the positioning block (57), the distance between the mounting frame (54) and the water tank (53) is 1.2cm, and the dovetail block at the end part of the positioning block (57) is arranged in the dovetail groove formed in the positioning seat (56) in a sliding mode.

9. The notebook computer radiator based on environment detection according to claim 1, wherein: the environment detection sensor (3), the controller (31) and the buzzer (32) are arranged in the notebook computer body (1), the environment detection sensor (3) is a temperature sensor, and the controller (31) is electrically connected with the environment detection sensor (3) and the buzzer (32) respectively.

10. A method for installing a notebook computer radiator based on environmental detection as claimed in any one of claims 1 to 9, characterized by: the method comprises the following steps:

S1: opening a back cover of the notebook computer body (1), smearing low-temperature tin paste on the back surfaces of the first radiating coil (23) and the second radiating coil (24), and solidifying by using a hot air gun to accelerate low Wen Xijiang so that the first radiating coil (23) and the second radiating coil (24) are quickly adhered to the surface of the heat conducting plate (25);

S2: the water outlet end (21) passes through the side wall of the butt joint port (11) and is in threaded connection with the end part of the water inlet pipe (51), and the water inlet end (22) passes through the side wall of the butt joint port (11) and is in threaded connection with the end part of the water outlet pipe (52);

S3: erecting the notebook computer body (1) at the bottom of the fixed bracket (6), suspending the bottom of the notebook computer body (1), and inserting the cutting (532) in the slot (531); the water tank (53) can be positioned and installed on the fixed bracket (6);

S4: the installation frame (54) is positioned and installed on the front surface of the water tank (53) through the positioning seat (56) and the positioning block (57), after the equipment is installed, cooling water enters the inside of the water inlet end (22) from the water drain pipe (52), then enters the inside of the first cooling coil pipe (23) and the inside of the second cooling coil pipe (24), heat generated by the CPU (26) and the GPU (27) is transferred to the surfaces of the first cooling coil pipe (23) and the second cooling coil pipe (24) through the heat conducting plate (25) made of copper materials, heat is dissipated through cooling mediums inside the first cooling coil pipe (23) and the second cooling coil pipe (24), and efficient heat dissipation work on the CPU (26) and the GPU (27) can be realized through a water cooling mode.