A supercharge notebook computer radiator

Abstract

A supercharge notebook computer radiator is disclosed. The upper surface plate of the heat dissipation base is provided with a main heat dissipation fan, A cavity is arranged inside the heat dissipation base, The two sides of the heat dissipation base are respectively provided with an inlet fan I capable of sucking the peripheral air into the cavity, a plurality of inlet fans II capable of suckingthe peripheral air into the cavity are juxtaposed at the rear of the heat dissipation base, a sealing cotton is arranged around the upper surface plate of the heat dissipation base, and the sealing cotton is fixedly adhered to the peripheral edge of the upper surface plate through a nylon adhesive plate. On the one hand, the invention can blow the air to the bottom of the notebook computer at a higher flow rate, on the other hand, the air pressure difference between the air pressure in the cavity and the air inside the notebook can be utilized to provide a larger air intake quantity for the heat dissipation fan of the notebook itself, thereby fundamentally improving the heat dissipation capacity of the whole machine and improving the heat dissipation effect. It is not only suitable for low power consumption mobile notebook computer, but also suitable for mobile workstation with high heat dissipation requirement, which improves the operation speed and eliminates the occurrence of cardmachine condition.

Description

technical field [0001] The invention relates to a heat sink, in particular to a supercharged notebook computer heat sink. Background technique [0002] With the rapid development of science and technology, the information age has arrived, and notebook computers are more and more favored by people because of their small size, light weight and portability. At the same time, whether it is a family or an enterprise, there are high requirements for the performance of the notebook computer. Therefore, manufacturers continue to improve the performance of notebook computers to meet people's needs, but the problem of overheating of the operating temperature of notebook computers also arises thereupon. [0003] Long-term high-temperature operation of the notebook computer will reduce its service life and reduce the computing speed, which will slow down the response of the notebook computer and cause the machine to freeze. At present, the main heat dissipation method of notebook comp...

AI Technical Summary

Problems solved by technology

At present, the main heat dissipation method of notebook computers is to rely on the built-in fan to let the air flow to take away the heat generated by the hardware. Although the existing notebook computers improve the performance of the fan, they do not improve their air supply capacity, resulting in poor heat dissipation. Therefore, An external laptop radiator can be considered. However, an external radiator is only equivalent to adding an additional cooling fan to the laptop, and does not increase the air intake of the laptop's own radiator. The improvement of the cooling effect of the laptop is very limited and cannot be satisfied Mobile workstations with very high heat dissipation requirements

Images