CN209911907U - High-efficiency radiator for notebook - Google Patents

Abstract

The application discloses a high-efficiency radiator for notebooks, which belongs to the field of radiators and is used for heat dissipation of notebooks. A cooling liquid tank is installed on one side of the casing, a cover plate is arranged on one side of the cooling liquid tank, a circulating liquid pump is distributed on the cover plate, and a cooling pipe is installed on the side of the cooling liquid tank opposite to the circulating liquid pump. It is connected with the outlet of the circulating liquid pump, the middle of the heat dissipation pipe is wound with a spiral coil, a heat dissipation fan is arranged below the coil, and the heat dissipation fan is installed on the bottom surface of the casing. In view of the above technical solutions, the present application can improve the heat dissipation effect of the notebook by improving the structure of the fan heat dissipation base.

Description

High-efficiency radiator for notebook

technical field

The present application belongs to the field of radiators, and in particular, particularly relates to a high-efficiency radiator for notebooks.

Background technique

With the improvement of people's living standards and the gradual popularization of electronic equipment, the number of notebook computers has gradually increased. Due to the limitation of the space structure of the notebook itself and the improvement of the performance of the notebook, the heat dissipation of the notebook computer is more serious when the cooling system of the notebook itself encounters a situation with a large amount of calculation or a slightly high usage environment.

In order to solve the above technical problems, there are heat dissipation bases on the market. The heat dissipation base mainly uses a fan to increase the distance between the bottom of the notebook, the desktop and the workbench, and improve the heat dissipation effect of the notebook. However, it has been found in practice that the above heat dissipation structure cannot effectively improve the heat generation of the notebook.

SUMMARY OF THE INVENTION

The purpose of the present application is to provide a high-efficiency radiator for notebooks, which can improve the cooling effect of notebooks by improving the structure of the fan cooling base.

To achieve the above purpose, the application is achieved through the following technical solutions:

The high-efficiency radiator for notebooks described in this application includes a casing, a number of heat dissipation holes are machined on the upper surface of the casing, air inlet holes are machined on the side of the casing, and a coolant tank is installed on one side of the casing to cool the One side of the liquid tank is provided with a cover plate, a circulating liquid pump is distributed on the cover plate, and a cooling pipe is installed on the side of the cooling liquid tank opposite to the circulating liquid pump, and the cooling pipe is connected with the outlet of the circulating liquid pump. A helical coil tube is wound in the middle, a cooling fan is arranged below the coil tube, and the cooling fan is installed on the bottom surface of the casing.

Further, the radiating pipes and the coils connected to them in the present application are both flat-shaped hollow plate structures, and the longitudinal sections of the radiating pipes and the coils are both rectangular.

Further, the cooling liquid tank described in this application is a hollow rectangular plate structure, and a power interface is also installed on the cover plate connected to the cooling liquid tank, and the power interface is connected to the cooling fan through wires.

Further, at least four fan blades are distributed on the cooling fan described in this application.

Further, the longitudinal section of the housing described in the present application increases with increasing distance from the coolant tank.

Compared with the prior art, the beneficial effects of the present application are:

The present application can improve the heat dissipation efficiency of the fan by improving the structure of the fan heat dissipation base, thereby improving the heat dissipation efficiency of the notebook placed on the base.

Description of drawings

FIG. 1 is a schematic structural diagram of the present application.

FIG. 2 is a schematic structural diagram of a heat pipe in the present application.

In the figure: 1. Shell; 2. Air inlet; 3. Coolant tank; 4. Cover plate; 5. Circulating liquid pump; 6. Radiator pipe; 7. Coil pipe; 8. Radiator fan; 9. Fan blade; 10. Power interface.

Detailed ways

The technical solutions described in the present application will be further described below with reference to the accompanying drawings and embodiments. It should be noted that the orientation nouns that may be involved in the following paragraphs, including but not limited to "up, down, left, right, front, rear", etc., are based on the orientations shown in the corresponding drawings in the description. The orientation should not and should not be regarded as a limitation on the protection scope or technical solutions of the present application, and its purpose is only to facilitate those skilled in the art to better understand the technical solutions described in the present application.

Embodiment 1: A high-efficiency radiator for notebooks, comprising a base body formed by a cooling liquid tank 3 and a casing 1 that can place a notebook. The casing 1 is a hollow plate structure, and there are several The through hole used for heat dissipation is provided with a longitudinal rectangular air inlet hole 2 on the side of the casing 1 . A cover plate 4 is installed on one side of the cooling liquid tank 3, and a circulating liquid pump 5 is arranged on the cover plate 4. The liquid inlet of the circulating liquid pump 5 is located in the cooling liquid tank 3, and the liquid outlet of the circulating liquid pump 5 is connected to the cooling liquid tank 3. The heat dissipation pipe 6 is connected, and the heat dissipation pipe 6 is connected with the coil pipe 7 , and the coil pipe 7 is connected to the end of the heat dissipation pipe 6 away from the cooling liquid tank 3 . The coil 7 is a helical tube structure, which can form a circuit with the radiating pipe 6 , so that the cooling liquid flows between the cooling liquid tank 3 and the radiating pipe 6 . A cooling fan 8 is installed in the bottom space of the coil tube 7 , and the cooling fan 8 at least includes a driving motor and a fan blade 9 connected with the driving motor. The fan blade 9 can be driven by the driving motor to rotate at a high speed, thereby causing the flow of air, sending the outside air into the interior of the casing 1 through the air inlet hole 2, and making the air flow through the position where the coil 7 is located. through the upper vias.

On the basis of the above embodiments, the present application continues to describe in detail the technical features involved and the functions and functions of the technical features in the present application, so as to help those skilled in the art to fully understand the technical features of the present application. technical solutions and reproduce them.

In this application, it is realized by cooling pipeline and air cooling structure. Specifically, in the present application, the cooling liquid tank 3 and the circulating pipelines (including the radiating pipe 6 and the coil 7 ) matched with it constitute the above-mentioned cooling pipeline, and the radiating pipe 6 and the coil 7 adopt Made of brass material, it can effectively absorb and transfer heat, and conduct heat through the internal cooling liquid (such as water, etc.), and the cooling liquid tank 3 can be used to store the cooling liquid. Provides power for the circulation of coolant in the above-mentioned lines. The circulating liquid pump 5 described in this application is realized by the SC-P60A water-cooled circulating pump. The above-mentioned circulating pump generates very little noise during operation, which ensures that the working volume of the entire radiator is in a reasonable level range, and will not affect people's impact on work and life.

The air cooling structure described in this application is mainly realized by at least one cooling fan 8 installed on the inner bottom surface of the casing 1 . That is to say, the cooling fan 8 is located below the coil tube 7 , and the air it feeds needs to flow through the coil tube 7 and then escape through the through holes on the upper surface of the casing 1 . The cooling fan 8 is composed of a driving motor and a fan blade 9 which is connected and fixed with the output shaft of the driving motor. The fan blade 9 rotates at a high speed with the output shaft of the drive motor and drives the air inside the casing 1 to flow upward, and drives the outside air to flow through the air inlet 2 into the casing 1 along with the air flow in the inner space of the casing 1 .

In the present application, a power supply interface 10 for external power supply is also provided. The function of the power supply interface 10 is to send electrical energy to the power supply interfaces of the circulating liquid pump 5 and the cooling fan 8 through wires, so as to drive the above two to work normally.

Claims (5)

1. A high-efficiency radiator for notebooks, comprising a shell (1), a plurality of heat dissipation holes are machined on the upper surface of the shell (1), and air inlet holes (2) are machined on the side of the shell (1), characterized in that : a cooling liquid tank (3) is installed on one side of the casing (1), a cover plate (4) is arranged on one side of the cooling liquid tank (3), and a circulating liquid pump (5) is distributed on the cover plate (4). , a heat dissipation pipe (6) is installed on the side of the coolant tank (3) relative to the circulating liquid pump (5), and the heat dissipation pipe (6) is connected with the outlet of the circulating liquid pump (5). A spiral coil tube (7) is wound in the middle, a cooling fan (8) is arranged below the coil tube (7), and the cooling fan (8) is installed on the bottom surface of the casing (1). 2 . The high-efficiency radiator for notebooks according to claim 1 , wherein the radiating pipe ( 6 ) and the coil pipe ( 7 ) connected to it are both flat-shaped hollow plate structures, and the radiating pipe ( 6 ) ) and the longitudinal section of the coil (7) are rectangular. 3. The high-efficiency radiator for notebooks according to claim 1, characterized in that: the cooling liquid tank (3) is a hollow rectangular plate structure, and the cover plate (4) connected to the cooling liquid tank (3) A power supply interface (10) is also installed on the power supply interface (10), and the power supply interface (10) is connected with the cooling fan (8) through wires. 4. The high-efficiency radiator for notebooks according to claim 1, wherein at least four fan blades (9) are distributed on the cooling fan (8). 5. The high-efficiency radiator for notebooks according to any one of claims 1 to 4, wherein the longitudinal section of the casing (1) increases as the distance away from the coolant tank (3) increases .

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