RU73580U1 - PERSONAL COMPUTER COOLING SYSTEM - Google Patents

Abstract

The utility model relates to electronics and heat engineering based on heat pipes, namely to the design of a cooling system for heating elements of personal computers. EFFECT: design work in any spatial orientation by providing directed motion of the coolant, increasing the stability of work, increasing the cooling efficiency of the system by reducing the thermal resistance of its elements. This is achieved by the fact that the cooling system of the elements of the personal computer is made in the form of a contour heat pipe, consisting of an evaporator block, including a compensation cavity, a capillary pump, a steam channel and outlet pipes, a condensation block made in the form of a thin-walled hollow radiator with a developed heat removal surface in in the form of fins with an upper pipe for supplying steam and a lower pipe for draining condensate, flexible pipelines connected to the evaporator and condenser for steam and liquid small diameter, intended to move the vapor from the evaporator to the condenser, and the heat supply from the condenser to the evaporator.

The evaporator is mounted on the cooled element with a spring tie; the condenser is mechanically mounted inside the system unit.

Description

The utility model relates to electronics, namely, to the design of a cooling system for heating elements of personal computers. The technical level of the claimed object:

The technical level of the claimed utility model is known from the device - "The cooling system of the elements of electronic equipment", which includes a system made in the form of a cooling circuit, which consists of an evaporator filled with coolant and a condenser interconnected by two elastic thermally insulated hoses. One of the hoses is designed to move steam from the evaporator to the condenser, the second is designed to drain the condensate. One end of the first hose is fixed in the upper part of the evaporator, its second end is fixed in the middle of the condenser. One end of the second hose is fixed at the bottom of the condenser, the other end is fixed at the middle of the evaporator. The capacitor is mounted on the metal wall of the housing of electronic equipment using magnets. The evaporator is mounted on a cooled element of electronic equipment using a spring-loaded coupler. The evaporator and condenser are made in the form of containers having equal volumes, and the area of the evaporator exceeds the area of the cooled element. The walls of the evaporator and the condenser in contact with parts of the electronic equipment are made of copper. The surface of the evaporator, in addition to the wall in contact with the cooled element, and the surface of the condenser, except for its upper part, are covered with a heat-insulating material. (Application No. 2005123253) The disadvantages of this system are:

- insufficient stability of the cooling system of the elements;

- the impossibility of the system in different spatial positions.

The claimed system is aimed at increasing the stability of the cooling system of the elements of a personal computer and the operability of the cooling system in any spatial positions. The technical result achieved in the process of solving the problem is:

- the possibility of the system in different spatial positions;

- improving the stability of the cooling system of the elements of the personal computer.

The specified technical result is achieved by the cooling system of the elements of personal computers, consisting of an evaporator unit, including a compensation cavity, a capillary pump, a steam channel, outlet pipes and a condensation unit, made in the form of a thin-walled hollow radiator with a developed heat removal surface in the form of finning with an upper pipe for steam supply and lower pipe for condensate drain, pipelines connected to

an evaporator and a condenser for steam and liquid with a small diameter, designed to move steam from the evaporator to the condenser, and supply coolant from the condenser to the evaporator. The evaporator is mounted on the cooled element with a spring tie; the condenser is mechanically mounted inside the system unit. A causal relationship between the set of essential features of the claimed system and the achieved result is achieved in the following.

The work of the structure in various spatial positions is ensured by the use of a capillary pump in the evaporation unit, a compensation cavity and a steam channel, which provide heat transfer in one direction, which improves stability. The essence of the invention is illustrated in the drawing, where the numbers indicate the following:

1 - capillary pump;

2 - compensation cavity;

3 - steam channel;

4 - pipe outlet steam;

5 - pipe supply coolant;

6 - a flexible hose of the steam pipeline;

7 - flexible coolant supply hose;

8 - pipe outlet coolant;

9 - pipe inlet steam;

10 - radiator type capacitor.

The inventive system operates as follows.

With increasing temperature on the surface of the cooled PC element above the working one, the coolant (alcohol, ether) in the form of a film inside the steam channel (3) evaporates and through the steam outlet pipe (4) through a flexible steam pipe (6) connected to the steam inlet pipe (9), enters the radiator-type condenser (10), where it condenses, and, through the flexible coolant supply pipe (8), passing through the flexible coolant supply hose (7) through the coolant supply pipe (5), is pumped into the compensation cavity (2) by pumping capillary pump (1), providing directional movement of the coolant (diode), which allows the cooling system to work in various spatial positions. The evaporator is mounted on the surface of the heating radio element using a spring-loaded coupler. A radiator-type capacitor (10) is mechanically mounted inside the casing of the product housing on the purged part of the power supply. The efficiency of the cooled element is ensured by a high rate of transfer of thermal energy to the environment through a phase transition of the coolant inside the inventive system. The phase transition of the coolant occurs without the use of electrical energy and units for the forced pumping of the coolant, which leads to the elimination of noise. Also, this system is characterized by a quick "exit" basking

element at the operating temperature, because the evaporation-condensation reaction begins to occur from the moment the radio element reaches the "working" temperature.

Claims (1)

The cooling system of the elements of a personal computer is made in the form of a contour heat pipe, characterized in that the cooling circuit consists of an evaporator unit including a compensation cavity, a capillary pump, a steam channel and outlet pipes, a condensation unit made in the form of a thin-walled hollow radiator with a developed surface heat removal in the form of fins with an upper pipe for supplying steam and a lower pipe for draining condensate, flexible pipelines connected to the evaporator and condenser for I steam and fluid with a small diameter, intended to move the vapor from the evaporator to the condenser and the heat supply from the condenser to the evaporator, wherein the evaporator is attached to the cooling element by means of a spring coupler, capacitor mechanically fastened inside the system purged at part power supply.