WO2015126270A1 - Notebook cooling stand - Google Patents

Abstract

The invention relates to thermoelectric devices and can be used as a stationary external air system for actively cooling notebooks. A thermoelectric cooling device consists of a thermoelectric module (1); two radiators (heat-exchanging plates) for a hot side (2) and a cold side (3) of the module; a temperature thermostat (not shown); air conduits: an input air conduit (4), an air conduit for expelling hot air (5), an air conduit for expelling cooled air (6); an air splitter (7); a ventilator (8); a power supply; and also consists of a housing (9) where the said components are installed. The air cooling system is an active system and depends little on the surrounding environment, for instance, the outer environment can be at a temperature of 36°С, while a cold air flow exiting the system is 20°С.

Description

 NOTEBOOK COOLING STAND

The invention relates to thermoelectric devices and can be used as a stationary external air system for active cooling of laptop books.

There are many external air cooling systems for laptop computers (see http: // ww .thermaltakeusa.com / Products.aspx? C = l 135 or http://www.titan-cd.com/product C pad e.php) , but the main drawback of such systems is the warm air flow supplied by the fan from the external environment to the lower part of the laptop’s casing; the air flow temperature can reach above 36 ° С. The supplied air flow to the lower part of the laptop case, the temperature of which is higher than 27 ° С, affects the performance of laptops badly, especially during intensive work of such components as a graphic chip, processor, chipsets, high-speed memory chips, and even a hard disk. The knowbook actually heats up, for the most part, from below, as a result of which the hard disk and battery (during fast charging) are under thermal stress, and the temperature also affects the lifetime of many other components in a bad way. A common drawback of known external air cooling systems for portable computers is the high temperature dependence on the external environment. Main The objective of the claimed invention is to eliminate the disadvantage of existing external cooling systems and to ensure the temperature of the supplied air flow to the lower part of the laptop case from 20 ° C to 25 ° C, which positively affects the operation of the laptop.

 The technical result to which the invention is directed is to increase the functionality of the stand by lowering the temperature of the cooling air to 20 ° C to 25 ° C.

 To achieve a technical result, it is proposed to integrate a thermoelectric module into a standard external air system as a highly active cooling element and thermostat.

 Thus, the technical result is due to the fact that the stand for cooling the know-how of the tubes, containing at least one fan placed in a housing having an inlet duct and an outlet duct for cooling air, the power source is provided with at least one thermoelectric module and an air duct placed in the housing for exhausting hot air; moreover, one heat transfer unit plate of the thermoelectric module is connected to the inlet duct and the air duct for exhausting hot air, and the other to the inlet th duct and the outlet duct for cooling air.

The inlet duct can be made of two insulated parts, one of which is coupled to one heat transfer plate thermoelectric module, and the other with another heat exchanger plate of the thermoelectric module, with each part of the inlet duct being associated with a corresponding fan.

 To control the cold air flow, the stand is equipped with a thermos tat.

 The invention is illustrated by drawings.

 In FIG. 1 schematically shows the placement of a thermoelectric module in a support; in FIG. 2 - the same with the inlet duct of two isolated parts; in FIG. 3 - mutual position of the stand and laptop.

 Thermoelectric Cooling Device FIG. 1 and 2 consist of a thermoelectric module 1, two radiators (heat exchange plates) for the hot 2 and cold 3 sides of the module, a temperature thermostat (not shown), air ducts: inlet 4, for exhausting hot air 5, for venting cooled air 6 , an air divider 7, a fan 8 and a power source, as well as from the housing 9 (Fig. 3), where the listed components are mounted.

 The principle of operation of a thermoelectric external air system for active cooling of laptops.

The active cooling system is connected to a power source, then the fan 8 is rotating from the surrounding external environment 10 through the duct 4 through the air divider 7, at the same time to hot 2 and The cold 3 radiator of the thermoelectric unit pumps air, and the thermos is controlled by the temperature control of the cold air flow. Having passed through the cold and hot radiator of the thermoelectric unit, the air flows are redirected so that they could not mix further. Under certain ambient conditions (temperature, humidity), condensation may form on the edges of a cold radiator. Therefore, it is desirable to organize the condensate current into a loop, where various techniques can be applied for the subsequent evaporation of water, for example:

 - the fins of a hot radiator are used as such an evaporator,

 - a special flat electric heater spruce, working simultaneously with the module,

 Evaporating condensate can be discharged from the volume by the same current

 hot air after passing the fins of a hot radiator. Hot sweat approx. Air 11 is discharged through the duct 5 to the side into the external environment, and cold sweat approx. Air 12 through the duct 6 is directed upward to the lower part of the casing body 1 3 of the laptop (Fig. 3).

Thus, a cold air stream enters the lower part of the laptop case, cools it, and through the internal system When cooling the computer, part of the cold air is sucked in and cools the heated components.

 The technical achievement of the claimed invention is as follows. Since a thermoelectric module was built into an external air cooling system for laptops, it acquired new characteristics:

 The air cooling system has become active, it is little dependent on the environment, for example, the external environment has a temperature of 36 ° C and the cold air stream at the system outlet is 20 ° C.

 The air flow temperature is 20 ° C, which makes it possible to work 'laptop in more comfortable temperature conditions, and therefore extends the life of the computer.

Claims

Claim one . A laptop cooling stand containing at least one fan located in a housing having an inlet duct and an outlet duct for cooling air supply, a power supply, characterized in that it is provided with at least one m in the casing 'with a thermoelectric cooling module and an air duct for exhausting hot air, while one heat-exchange plate of the thermoelectric module is paired with an inlet duct and an air duct for exhausting hot air, and the other with an inlet air water and air duct to remove cooling air.  2. The stand according to claim 1, characterized in that the inlet duct is made of two insulated parts, one of which is coupled to one heat exchange! one with a thermoelectric module plate, and the other with another thermoelectric module heat exchange plate.  3. The backup according to claim 2, characterized in that each part of the inlet duct is associated with a corresponding fan.  4. A stand for any of items 1 to 3, characterized in that it is equipped with a thermostat for controlling cold air flow.