NO311145B1 - Method and apparatus for reducing or avoiding mold formation and bad odors in buildings - Google Patents

Description

THE FIELD OF INVENTION

The present invention relates to a method for reducing or avoiding mold formation and bad odors in a building, the method being of the type specified in the introduction to patent claim 1.

The invention also relates to a device that works according to the specified method.

The problem of mold and bad odors in buildings, especially those with "homestead foundations", i.e. one of a foundation in the form of stone, cement or concrete walls surrounded by space under a bottom beam layer of wood in the building, has become increasingly noticeable in recent times.

High humidity prevails, especially in summer, when the hot outside air is cooled by the cold ground and the foundation when it flows into the crawl space between the ground and the floor. As a result, the wooden structure becomes mouldy, and a strong odor is created which spreads inside the building.

STATE OF THE ART

In order to solve this serious problem, it has previously been proposed to use a dehumidifier in the crawl space, which keeps the air in it dry and heats it, as well as the use of fans that suck out air from the crawl space, so that a negative pressure is created which means that the odors do not rise up in building. Instead, air flows from the building downwards as a result of the negative pressure created in the crawl space.

For satisfactory function, both a dehumidifier and a fan are required today, as the dehumidifier's wet air volume, for which a typical value is 50 m<3>/hour, is not large enough to provide a satisfactory negative pressure.

PURPOSE OF THE INVENTION

One purpose of the invention is to provide a method and a device which, at low cost, offers a satisfactory solution to the stated problem.

BRIEF DESCRIPTION OF THE INVENTION

The characterizing features of the invention stated in the characterizing part of patent claim 1 solve the problem in an astonishingly simple way. A special fan to maintain negative pressure in the crawl space can thus be dispensed with, as care is taken that part of the process air that is supplied to the dehumidifier and pressurized by its fan - without passing the dehumidifier's rotor - is led away from the dehumidifier and led out of the crawl space.

In practice, this division can take place so that of a flow of 600 m<3>/hour supplied to a "normal-sized" dehumidifier, 350 m<3>/hour passes through the dehumidifier's rotor during heating and dehumidification, while 50 m<3>/hour in the form of wet air leaves the dehumidifier's outlet opening for wet air and is led out to the atmosphere outside the crawl space together with 200 m<3>/hour of process air pressurized by the dehumidifier's fan and as "leakage air" without passing the dehumidifier's rotor via one or more leakage openings in the dehumidifier's cover is discharged into the atmosphere.

This takes place appropriately so that the pressurized leakage air is led away via a line which, at least initially, runs in connection with the dehumidifier's outlet line for wet air.

According to a preferred embodiment, the method according to the invention also offers the possibility to regulate the negative pressure in the crawl space in a simple way by arranging a damper in the dehumidifier's outlet for dried and heated air. An influence of the damper in the closing direction thereby means that a relatively larger amount of leakage air is led away to the atmosphere, which results in a higher negative pressure in the crawl space. The amount of added process air can also be regulated - in the usual way - by means of a damper in the dehumidifier's process air inlet.

The invention also relates to a device which works in the manner stated, the essential characterizing features of the device being set out in patent claim 5.

Further features and advantages of the invention appear from the following description in connection with the attached drawings.

BRIEF DESCRIPTION OF THE DRAWING FIGURES

Fig. 1 is a partially cross-sectional side view of a building, where under the building's bottom beam layer there is a crawl space equipped with a device according to the invention. Fig. 2 is a cross-section through a dehumidifier belonging to the device which is arranged to work in order to utilize the method according to the invention. Fig. 3 is a cross-section corresponding to a part of fig. 2 and which shows a modified version of the outlet from the dehumidifier.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

Fig. 1 shows a building 1 provided with side walls 1a and with a bottom beam layer 1b of wood, the building resting on a cement or concrete foundation 1c (so-called "household foundation") which surrounds a crawl space 2 below the bottom beam layer 1b.

In order to create a negative pressure in the crawl space 2, so that air from the building is sucked into it, there is a dehumidifier 3 with a housing or cover 3a, an inlet nozzle 3b, an outlet nozzle 3c for heated and dried air and an outlet nozzle 3e which is located in connection with the external atmosphere in the dehumidifier separated wet air. In the inlet connection 3b there is a damper 10 for regulating the amount of process air supplied to the dehumidifier's fan 4.

A main quantity of the process air that is supplied to the dehumidifier and pressurized by the fan 4 is allowed to pass the dehumidifier's rotor 5 on the other side of which there is a protective cover 5a which houses heat-emitting devices (not shown), so that dried and heated air leaves the dehumidifier via the outlet nozzle 3c. Wet air separated in the rotor 5 leaves the dehumidifier via a collection cover 5b which is located on the primary side of the rotor and which has an associated outlet pipe 3d for wet air.

The pipe 3 opens into the outlet nozzle 3e and around this pipe there is an annular opening which is occupied in the housing or shell 3a, so that an outlet opening is formed for leakage air from the dehumidifier pressurized by the fan 4. In this way the dehumidifier's fan 4 can maintain the necessary negative pressure in crawl space 2, i.e. that the special fan for this purpose, which has been necessary until now, can be dispensed with.

An outlet line 12 is connected to the outlet nozzle 3e from the dehumidifier, through which both wet air from the pipe 3d and the aforementioned leakage air via the opening 6 are led out to the atmosphere outside the crawl space 2.

In the dehumidifier's outlet connection 3c for dried and heated air, there is a damper 11 which allows a simple possibility to regulate the negative pressure in the crawl space. An influence of the damper 12 in the closing direction thus results in an increase in the amount of leakage air emitted via the annular opening 6, and this results in an increase in the negative pressure in the crawl space 2.

Fig. 3 is a cross-section through part of it in fig. 2 showed a dehumidifier where the outlet for wet air shows a modified design. The outlet pipe 3d for wet air runs suitably concentrically inside the outlet line 12 for pressurized leakage air all the way to the atmosphere which is located outside the foundation 1c.

The method and device according to the invention can also be expressed in other ways within the scope of the protection area according to the subsequent patent claims. For example, the outlet pipe 1d for wet air does not need to run concentrically in the outlet line 12. Alternatively, a completely separate line for pressurized leakage air from the dehumidifier can be led to the atmosphere outside the crawl space 2.

Claims (9)

1. Method for reducing or avoiding mold formation and bad odor in a building (1) provided with a room (2) that is located below a bottom beam layer (1b) and is limited by a surrounding foundation (1c) or similar limitation from which air is blown out to maintain a negative pressure, so that air from the building is sucked down into the room, where the air in the room is additionally dehumidified and dried using a dehumidifier (3) equipped with a fan and from which separated wet air is led away to the environment outside the room, characterized by air from the room (2) being blown out so that the negative pressure in it is maintained by a part of the process air that is supplied to the dehumidifier (3), after being pressurized by the dehumidifier's fan (4), before the dehumidification is led away from it and carried out from the room. 2. Method according to claim 1, characterized in that the pressurized leakage air is led away via a line (3e, 12) which at least initially runs in connection with the outlet line (3d) from the dehumidifier. 3. Method according to claim 1 or 2, characterized in that the negative pressure in the room is regulated with a damper (11) in the dehumidifier's outlet (3c) for dried and heated air. 4. Method according to one of claims 1-3, characterized in that the negative pressure in the room is regulated by a damper (10) in the inlet (3b) of the dehumidifier (3). 5. Device for reducing or eliminating mold formation and bad odor in a building (1) provided with a room (2) located below a bottom beam layer (1b) and limited by a surrounding foundation (1c) or equivalent, comprising a) device to maintain a negative pressure in the room, b) a dehumidifier (3) equipped with fan (4) and rotor (5) for added process air, c) an outlet line (3d, 3e, 12) for wet air from the dehumidifier, as this line is led through an opening in the foundation (1c) or equivalent, characterized in that the dehumidifier (3) presents an outlet or leakage opening (6) for part of the process air pressurized by the dehumidifier's fan (4), as this opening is in connection with the surroundings outside the room (2), so that the negative pressure in this is at least for a significant part maintained by blowing out the mentioned part of the supplied process air, as this part does not pass the dehumidifier's rotor (5). 6. Device according to claim 5, characterized in that a discharge line (3e, 12) is connected to the dehumidifier's leakage opening (6) which at least initially runs in connection with the dehumidifier's discharge line (3d) for wet air. 7. Device according to claim 5, characterized in that the pressurized leakage air is blown out into the atmosphere outside the room (2) via a line separate from the exhaust line (3d) for wet air. 8. Device according to one of claims 5-7, characterized in that the dehumidifier's opening (3c) for the exit of dried and heated air presents a damper (11) for regulating the negative pressure in the room. 9. Device according to one of claims 5-8, characterized in that the dehumidifier's inlet (3b) for process air exhibits a damper (10) for regulating the negative pressure in the room.