RU2258181C2 - Heat removing device - Google Patents

Abstract

FIELD: computer engineering.

SUBSTANCE: invention is designed for use in ventilation with forced circulation of air, for instance, to cool heated elements of computer, in particular, microprocessor. Proposed device contains electric motor, axial-flow fan, ribbed radiator, and it is furnished additionally with axial-flow fan located on elongated axle under existing fan and fairing. Ribs of radiator are rectangular or cylindrical, or flat, or trapezium-like in form of truncated pyramid or truncated cone. Ribs in form of truncated cone are provided with thread. Ribs of radiator are provided with longitudinal slots in height. Blades of both axial-flow fans are made to turn through 180°.

EFFECT: increased velocity of air flow in central zone along axis.

2 cl, 7 dwg

Description

The invention relates to ventilation with forced air circulation, for example, to remove heat from heated elements of a computer, in particular a microprocessor, by heat and mass transfer through a radiator and air flow.

A device is known (SU 1298960, IPC Н 05 К 7/20 Device for cooling electronic devices / Bychkov V.E. - publ. 03.23.1987, B.I. No. 9), comprising a housing, an electric motor, blades, a radiator.

The disadvantage of this device is the "failure" of the air velocity in the central zone (along the axis), located opposite the heat source.

The aim of the invention is to increase the air flow rate in the Central zone (along the axis).

This goal is achieved by installing an additional axial fan in the Central zone on the axis of the existing fan.

The essence of the invention is that the device is equipped with an additional axial fan located on the elongated axis of the electric motor under the existing fan, and a fairing, and the radiator fins are rectangular, cylindrical, flat, trapezoidal in the form of a truncated pyramid or a truncated cone, and the last ribs are provided with threads, all fins of the radiator have longitudinal (in height) slots, and the blades of both axial fans are made rotary 180 degrees.

The drawing shows a diagram of a device for removing heat, including a housing 1, in which an axial fan 2 is mounted, mounted on an axis 3, which rotates on bearings 4 inside the stator 5, which is mounted on the control circuit board 6, the blades 7 of the axial fan 2 rotate around the stator 5. At the bottom of the control circuit board 6 are installed: a fairing 8 with fastening elements 9, a housing 10 of an additional axial fan with blades 11. The housing 1 of the main axial fan is combined with a radiator 13 having fins 12.

The proposed device operates as follows.

If the device for removing heat operates in the boost mode, then part of the air after the main axial fan 2 in the form of an annular jet enters the peripheral part of the ribs 12 of the radiator 13, and the other part of the air is deflected due to lateral expansion and fairing 8 and enters the blades 11 of the additional axial fan, and then into the central zone of the fins 12 of the radiator 13, carrying out heat removal from the central zone.

The presence of an additional fan increases the heat removal in the central zone opposite the heat source.

If the device for removing heat is operating in the suction mode, then the heat from the radiator 13 from the ribs 12 in the form of convective flow enters the blades 11 of the additional axial fan and, through the fairing 8, enters the blades 7 of the main axial fan 2. From the peripheral part of the radiator 13 and fins 12, air enters the blades of both the auxiliary and the main axial fans. Since the additional axial fan is located closer to the fins of the radiator, the maximum heat removal occurs from the central zone of the radiator.

Due to the fact that the axial fans are installed in series, the heat removal is significantly increased.

The presence of longitudinal (in height) slots on the ribs, made in the form of a truncated pyramid or a truncated cone, or thread on the radiator fins, made in the form of a truncated cone, will allow you to save the heat transfer area.

Thus, the proposed device with an additional axial fan works more efficiently both in boost mode and in suction mode, while reducing the number of revolutions of the axial fan blades, which reduces noise, reduces energy consumption, that is, improves ergonomic and sanitary conditions in the interaction ("Man is a machine").

Claims (8)

1. A device for removing heat, including an electric motor, an axial fan, a radiator with fins, characterized in that the device is equipped with an additional axial fan, which is located on an elongated axis under the existing fan and fairing. 2. The device for removing heat according to claim 1, characterized in that the radiator fins are made rectangular. 3. The device for removing heat according to claim 1, characterized in that the radiator fins are cylindrical. 4. The device for removing heat according to claim 1, characterized in that the radiator fins are made flat. 5. The device for removing heat according to claim 1, characterized in that the radiator fins are made trapezoidal in the form of a truncated pyramid or a truncated cone. 6. The device for removing heat according to claim 5, characterized in that the radiator fins made in the form of a truncated cone are threaded. 7. A device for removing heat according to any one of claims 1 to 5, characterized in that the radiator fins are provided with longitudinal (height) slots. 8. The device for removing heat according to claim 1, characterized in that the blades of both axial fans are made rotary 180 degrees.