SE521947C2 - Fan device with self-acting temperature sensing actuator - Google Patents

Abstract

A ventilator device (1) for cooling of heat-generating equipment (2) in a building (3), said ventilator device (1) comprising an inlet duct (4) extending from the outside of the building (3) to the inside thereof and having a first inlet, at least one ventilator (5) arranged in the inlet duct (4) and adapted to deliver outdoor air and create a positive pressure in the building (3), and an outlet (7) through which air heated by the equipment can flow to the surroundings. The ventilator device (1) has a damper means (8) arranged in the outlet (7), a second inlet (9) opening into the inlet duct (4), and a valve means (10) arranged in the second inlet (9). The valve means (10) has a self-acting temperature-sensing actuator (11), which is adapted, in a normal position, to keep the second inlet (9) closed and, when the temperature sensed by the temperature-sensing actuator (11) exceeds a predetermined value, to open the second inlet (9) for letting in air heated by the equipment (2).

Description

: uranium> »-»> 10 15 20 25 30 35 521 947 n. a o. .o 2 are let into the house. However, the use of heating elements means an increased energy consumption and thus an increased operating cost.

According to U.S. Patent No. 6,142,866, another way of solving the problem has been to close the air intake when the outdoor air is too cold, which thus means that no cooling air is supplied to the house at all and the components are thus not cooled with the risk of overheating.

SUMMARY OF THE INVENTION The object of the invention is to provide a fan device with as few and as reliable components as possible, which fan device is capable of cooling a heat-generating equipment in a house with suitable temperature air even at outdoor temperatures below approx. + 5 ° C with minimal energy consumption.

This object is achieved according to the invention with a fan device of the type mentioned in the introduction, which fan device is characterized by a damper means arranged in the outlet opening, a second inlet opening which opens into the inlet duct, and a valve means arranged in the second inlet opening, which has a valve means self-acting temperature sensing actuator, which is arranged to keep the second inlet opening closed in a normal position and that, when the temperature sensed by the temperature sensing actuator falls below a predetermined value, open the second inlet opening for intake of air, which is heated of the equipment. In this context, self-acting refers to a body that works without a motor. Those skilled in the art will appreciate that there are a variety of ways to design a self-acting temperature sensing actuator.

Preferably, the second inlet opening of the fan device is directly connected to the inside of the housing for recirculation of air, which is heated by the equipment, and the damper means is designed such that the overpressure in the housing is balanced in cooperation with the second inlet opening.

The second inlet opening is most suitably arranged in the head 10 15 20 25 30 35 5 21 9 4 7 f? . _ 3 sets of wall, but could alternatively also be arranged in an outlet duct.

The valve means of the fan device are preferably arranged to gradually open the second inlet opening at a lowering temperature from the temperature sensed by the temperature sensing actuator below the predetermined value for a stepless regulation of the temperature of the inflowing air.

The temperature sensing actuator of the fan device is further arranged to sense the temperature of the outdoor air flowing into the inlet duct, but it would of course also be possible to sense the temperature of the indoor air.

The predetermined value is preferably about + 9 ° C, since already temperatures at + 5 ° C can lead to too low a working temperature for parts of the heat-generating equipment.

Brief description of the drawing The invention will be described in more detail below with the aid of a preferred but not limiting embodiment and with reference to the accompanying drawing.

Fig. 1 is a side view and shows partly in section a fan device according to the invention.

Description of a preferred embodiment The fan device 1 shown is arranged on a wall 6 in a housing 3, which in particular is a base station in a mobile telephone network and which contains a heat-generating equipment 2, which is to be cooled and which is only shown schematically in the figure.

The fan device 1 comprises an inlet duct 4, which extends from the outside of the housing 3 to its inside, and a fan 5 arranged in the inlet duct 4, which is arranged to blow outdoor air into the housing. The inlet duct 4 also contains a filter 13, which prevents particles from following the air into the housing.

The fan device further comprises an outlet opening 7 formed in the wall 6 of the housing, through which heated air can flow from the housing to the surroundings through an outlet duct 12, as shown by the equipment un | un; un; ||> a 10 15 20 25 30 35 521 947 4. of arrows U. The outlet opening 7 is provided with a self-acting damper 8.

The outdoor air is sucked into the inlet duct 4, in the direction shown by arrows I, passes the filter 13 and the fan 5, and flows into the housing 3 via a grated mouth 14 in the wall 6. In the inlet duct 4, upstream of the mouth 14 and the fan 5, a second inlet opening 9 is formed in the wall 6, in which a valve 10 is arranged. This has a self-acting temperature-sensing actuator 11 in the form of a wax-filled piston 11. A valve plate 15 connected to the piston 11 opens and closes the valve 10 depending of the expansion and contraction of the piston and thus the sensed temperature. The valve 10 is in the preferred embodiment so constructed that it is completely closed at + 9 ° C and opens linearly and steplessly with decreasing outdoor temperature so that it is completely open at -5 ° C. The valve 10 is a fresh air valve of standard model, which valve in its conventional mode of use is mounted in such a way that it is open at high temperature and closes with decreasing temperature, ie in a manner reversed in relation to the invention.

In Fig. 1, the valve 10 is in an open position, i.e. the outdoor temperature is low, whereby a part of the air heated by the equipment is recirculated to the inlet duct 4, as shown by arrows F, and preheats the colder outdoor air flowing in from outside.

The non-return damper 8 is designed so that there is a suitable overpressure in the housing 3 when outdoor air is blown in by the fan 5. The overpressure means that part of the air heated by the equipment will flow out through the valve 10 when it is open instead of through the outlet opening 7. The overpressure also means that air can only enter the house via the mouth 14. vuunu: 521 9 4 7 š .: En: äng å? . : reach E: - 'E .. 5 Regardless of the temperature of the outdoor air, outdoor air is always blown through the house and thus the heat-generating equipment in the house is constantly cooled.

The fan device according to the invention contains few components and is controlled completely without electronics and its only energy-consuming part is a fan motor.

Claims (5)

10 15 20 25 30 35 521 947. -....; 'I U I IQ 6 PATENT REQUIREMENTS A fan device (1) for cooling heat generating equipment (2) in a housing (3), which fan device (1) (4), outside to its inside and has a first, comprises an inlet duct of the housing (3) extending from the inlet opening , at least one fan (5) arranged in the inlet duct (4), create an overpressure in the housing, which is arranged to blow in outdoor air and (7), which air heated by the equipment can flow from an outlet opening through the housing to the surroundings, a in the outlet opening (7) (9), which opens into the inlet channel (4), and one in the other (10), has a arranged damper means (8), a second inlet opening has the inlet opening (9) arranged valve means characterized in that the self-acting temperature sensing actuator (11), which is arranged to keep the second inlet opening (9) closed in a normal position and that, when the temperature sensed by the temperature sensing actuator (11) falls below a predetermined value, , open the second inlet opening (9 ) for the intake of air heated by the equipment (2). Fan device according to claim 1, in which the second inlet opening (9) has a direct connection with the inside of the housing and the damper member (8) is designed such that the overpressure in the housing (3) is balanced in cooperation with the second inlet opening (9). Fan device according to claim 1 or 2, wherein the valve means (10) is arranged to gradually open the second inlet opening (9) at falling temperature from the temperature sensed by the temperature sensing actuator (11) below the predetermined value. Fan device according to one of Claims 1 to 3, in which the temperature-sensing actuator (11) is arranged to sense the temperature of the outdoor air flowing into the inlet duct. 521 947 o n ~. ,, 7 A fan device according to any one of claims 1-4, wherein the predetermined value is about + 9 ° C.