RU106487U1 - POWER SUPPLY - Google Patents

Abstract

 A power supply unit comprising a metal case, mounting supports, an input connector, an output connector, an earthing terminal, cooling fans, characterized in that the housing is made in the form of a shell, with mounting tabs, a cover closed on the underside, closed with an upper radiator, on which a power supply module, a temperature sensor, an electronic fan control module that controls turning on and off the fans located on the U-shaped cover are fixed in a closed dust and moisture-proof space, ennoy over the outer surface of the heat sink forming turbomodul cooling.

Description

The utility model relates to electronic equipment, in particular to the design of power supplies.

Known electronic power supply (Patent for a utility model of the Russian Federation No. 46140, IPC N05K 7/00, 2005), comprising a housing, a circuit board with electronic components, a radiator in which mounting holes are made with insulators installed in them, in which are made between the gasket and the board, fixed together with the gasket and the board to the supporting surface of the base by means of fasteners passing through the insulators, while the surface of the radiator in contact with the board is made stepwise, and in the board at the location of the most heat-generating electric The windows of the electronic components are made in which the radiator protrusions are placed, the most heat-generating electrode components are located and fixed on the horizontal surface of the protrusions, in turn, the surface of the board in contact with the radiator is heat-dissipating, in addition, the gasket is made with perforated holes filled with heat-conducting material.

This power supply has the disadvantage that the radiator is installed in a closed space of the housing, while there is no natural convection. Partly heat is transferred to the base, but this is not enough to cool powerful power supplies.

The closest in technical essence to the claimed technical solution is the 800 Watt Diagel power supply unit (Alexander electric, - Access mode: http://doc.chipfind.ru/aeps/dg800a220s27cl.htm (accessed 01/27/2011); Power supply units, series Dyagel 800 Watt), containing a metal case, support for mounting, connector for input, connector for output, cooling fans.

This power supply has the following disadvantages:

1. The power supply module located on the radiator is protected on four sides, since the fans are located on the front side, purging the power supply unit in a pipe. Therefore, it can not be used in conditions of high dust, humidity.

2. The fan cooling system operates continuously when the power supply unit is turned on, which does not allow the power supply unit to be operated in conditions with low ambient temperature (up to minus 50 ° С).

The technical solution is aimed at creating a power supply with an output power of up to 900 W, designed to work in conditions of high dust, humidity and low ambient temperatures.

The technical result is achieved by the fact that the product housing provides a high degree of dust and moisture resistance, consists of a shell with mounting tabs, the lower side of which is covered by a cover, and the upper side is closed by a radiator, on which are mounted the power supply module, temperature sensor, electronic module for controlling the operation of fans, located on a U-shaped cover mounted above the outer surface of the radiator and forming a turbo cooling module.

The essence of the utility model is illustrated by drawings.

Figure 1 shows a front view, figure 2 shows a side view, figure 3 shows a top view.

The power supply unit consists of a shell 5, which has tabs 6. The shell 5 is covered by a cover 7 from the bottom, and a heat sink 3 on top of which is mounted and are in a dust - moisture-proof space 12, power supply module 9, electronic control module 10 for operation of fans 1 and a sensor temperature 11. The U-shaped cover 2, on which the fans 1 are located, is mounted above the outer surface of the radiator 3, forming a turbo cooling module 8. On the shell 5 there is a connector 15 for primary power supply, 13 for secondary power output niya, ground terminal 14 and indicator 4, indicating the presence of the supplied primary power supply.

The power supply using the legs 6 can be mounted in any spatial position.

The power supply operates as follows. A cable with an input voltage of 220 V (not shown in the drawing) is connected to connector 15, and a cable for an output voltage of 27 V (not shown in the drawing) is connected to terminal 13, a ground wire (not shown) is connected to terminal 14. When applying an input voltage of 220 V to connector 15, the indicator 4 informs about this, the power supply module 9 generates a voltage of 27 V, passing it to connector 13. The power supply can be turned on at temperatures up to minus 50 ° С while the fans 1 are in off state. During operation of the power supply, the heat generated by the power supply module 9 is transferred to the radiator 3. In this case, the temperature of the radiator 3 is continuously monitored by the temperature sensor 11. Upon reaching the maximum permissible temperature, the value of which is programmed in the electronic control module 10. The electronic control module 10 includes fans 1, which blow air by blowing radiator 3 in turbo-module 8. Fans 1, blowing radiator 3, remove heat by lowering the temperature of radiator 3. When the temperature drops to the level ogrammirovannogo electronic control module 10 turns off the fans 1. Turning on and off the fan 1 occurs sporadically as a heating and cooling radiator.

This technical solution allows you to use the power supply in extreme conditions, characterized by increased dust and humidity, and the same low (up to minus 50 ° C) ambient temperature.

Claims (1)

A power supply unit comprising a metal case, mounting supports, an input connector, an output connector, an earthing terminal, cooling fans, characterized in that the housing is made in the form of a shell, with mounting tabs, a cover closed on the underside, closed with an upper radiator, on which a power supply module, a temperature sensor, an electronic fan control module that controls turning on and off the fans located on the U-shaped cover are fixed in a closed dust and moisture-proof space, ennoy over the outer surface of the heat sink forming turbomodul cooling.