CA2018602C - Dehumidifier - Google Patents

Abstract

ABSTRACT
The invention relates to an air extraction apparatus for conditioning air in an enclosed space wherein the air in said enclosed space is stratified due to a temperature gradient between a ceiling and floor of the enclosed space. The apparatus includes a conduit having an inlet end and an outlet end, the conduit adapted to be arranged and installed with its outlet end in communication with an opening in a wall of the enclosure and its inlet end in proximity to the floor when in use. A fan means is located in the conduit to effect movement of air from the floor level of the enclosure through the inlet end to and outwardly of the outlet end. A control means is attached to the conduit and is associated with the fan means to selectively connect the fan means to a source of power, the control means being responsive to a selected condition eg.
relative humidity of the air in the enclosure.

Description

~ 8~7 HOUSEHOLD DEHUMIDIFIER
This invention relates to a dehumidifying apparatus specifically for use in a closed space such as a basement.

BACRGROUND OF THE INVENTION

It has often been a complaint of most home owners that basements below ground level tend to have a musty odour. Furthermore it has been found that moisture accumulates in a basement, which aontribute~ to thls musty damp odour. Molsture can ba removed from the air by cooling the air below its dew-point, which results in the condensation of the vapor and its subsequent removal as a liquid. One of the techniques that dehumidifier devices use to accomplish this is by use of a surface cooling technique in which air is passed over tubes cooled by a refrigerant flowing through them to cool the air below its dew-point and thereby cause the water vapor to condense out. As can be appreciated these processes require the expenditure of large amounts of energy in order to reach an acceptable level of relative humidity in a room. It is this cost factor that has been a deterrent to most home owners installing effective dehumidifiers in their basement.

SUMMAR~ OF T~ 3~g~TIO~

It is an object of this invention to provide a relatively inexpensive system for removing moist damp air from a basement or underground enclosed area, 6uch as a crawl space below a dwelling, wherein the air within this enclosed space is stratified due to a temperature gradient between the floor and ceiling in the enclosed space.
It is another object of this invention to provide a dehumidifier that is relatively inexpensive to operate and install.

~k ~

2~18~02 The invention in one aspect relates to an air extraction apparatus for conditioning air in an enclosed space wherein the air in said enclosed space is stratified due to a temperature gradient between a ceiling and floor of sald enclosed space. The apparatus includes a conduit h~vlng ~n lnlet end and an outlet end, sald conduit adapted to be arranged and installed with its outlet end in communi¢ation wlth an opening ~n a wall of the enolosure and lts inlet end in proximity to said floor when in use. ~ fan means is located in said conduit to effQct movement of air from said floor level of said enclosure through said inlet end to and outwardly of said outlet end. A control means is attached to said conduit and is associated with said fan means to selectively connect said fan means to a source of power, said control msans being responsive to a selected condition eg. relative humidity of said air in said enclosure.

BRIEF D~S~E~TION OF TH~ DRAWINGS

A better understanding of the invention will be obtained by reference to the detailed description below in connection with the following draWings in which:
Figure 1 is a side elevation view of one embodiment of the invention;
Figure 2 is a longitudinal section view of the embodiment shown in Figure l; and Figure 3 is a longitudinal section view of a second embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to Figure 1, a cross-sectional view of part of a basement wall is shown having a floor 1, a side wall 2 and a ceiling 3. The side wall 2 separates the 2~1860~

3 --interior basement from the outside environment. The dehumidifying device as shown generally by numeral 4 is shown installed along the side wall 2. The dehumidifying device 4 exhausts air through an air outlet opening 5 in the sidewall 2, which opening is connected via a conduit 6 to receive air via an air inlet 7 positioned at the floor level 1 of the enclosure. A fan 8 attached to the inside of the conduit 6 caUses air to be sucked through the lnlet opening and to be exhausted out of the basement via the outlet opening 5. The air outlet 5 as noted above is ln a side wall of the basement, preferably a hole defined by an exiting window or any other suitable opening that leads external to the basement. A detailed description of the dehumidifier device will be provided later.
The principle of operation of the dehumidifier will now be explained. In a typical below ground basement, air at the floor level is much cooler than air at the ceiling level of the basement. The air at the raof level is warmer due to conduction through the floor slab of the upper building supported by the basement. Based on well known thermodynamic principles the warm air will be relatively less humid than the cooler air. By removing thls cool damp air from the lower portions of the enclosure a circulation is induced in the enclosure, whereby the cool air is sucked out the building and exhausted external to the basement while the warmer relatively dry air is then forced to circulate down to the floor level and thus replace the humid cool air thereby reducing the average relative humidity of the room. A suitably positioned humidity control switch 10 serves to control the humidity in the room by turning off the fan when the humidity reaches an acceptable level in the room.
A detailed description of the device will be discussed with reference to the view of the dehumidifier as shown in Figure 2. The body of the dehumidifier device 4 . _ . ...

20~8~2

- 4 -$s made from extruded aluminium tube, of rectangular cross section, which forms the vertical conduit 6. This vertical conduit is divided into an upper and lower section 21 and 22 respectively. The upper section 21 is closed at one end and open at the other end. The lower conduit section 22 is telescopically slidable in the upper conduit 21. As can be seen from Figure 2 the upper and lower sections 21 and 22 are attached to the vertlcal sido wall 2 of the basement.
The talescopi~ally slidable seot~ons allow the height of the dehumldlfler to be ad~usted to accommodate varying ceiling to floor heights ln a basement. A typical length chosen for the lower section is 4 feet and a typical length for the upper section i8 5 feet; thus with the units completely extended, the distance between the air inlet and outlet is approximately 9 feet. The lower section conduit 22 as noted above is made of extruded aluminum tublng of rectangular cross sectlon and ls open at both ends. One end is inserted into the open end oS the upper condult section 21. The other end of the lower section 22 l.e. the air inlet 7 is enclosed by a screen whlch prevents undesirable items such as pieces of paper and fluff being sucked up through the conduit 6. It is preferred that the air inlet 7 is within 12" of the floor.
The upper condult section 21 has an outlet opening 25 in its side wall near its upper closed end 24.
The position of this opening is chosen to face in the direction of the side wall 2 when the unit is installed in a basement. A flexible conduit 28 is attached to the opening 25 in the upper conduit section 21 and extends through the outlet opening 5 in the side wall of the basement leading outside the basement, preferably above ground level 32, as illustrated in Figure 2. A suitable outlet screen or louvre 30 prevents entry of small animals and insects into the system.
An AC electric fan 8 connected to operate from a 110 volt electrical supply, is mounted on the inside wall of the upper conduit section 21. It has been found that a i;

20~86~

240 cubic feet/minute (CFM) fan is of adequate size to effectively dehumidify an average sized basement. The fan 8 is connected to a source of electrical power via an electrical power cord 18 terminated in a plug 34.
A humidity control switch 10, commonly known as a humidistat, serves to adjust the level of humidity within the basement by sensing the humidity in the air at a particular level, in thls case, about 1 1/2 to two metres from the floor level and pro~ldes an eleatrical signal which is used to switch off the fan 5 when the humidity reaches a preset level. This humidity level is normally set by a graduated dial on the humidistat 10. The humidity control switch 10 is attached to the upper conduit section 21.
It has been found that the principle used by the apparatus as described in Figures 1 and 2 to dehumidify a basement, can also be used to dehumidify other enclosed areas, such as crawl spaces below homes. Referring to Figure 3, a crawl space dehumidifying unit is shown generally by numeral 40. The crawl space is defined as the space between the ground 42 and an elevated floor 44 wherein a side wall 46 extends between the floor 44 and the ground 42.
The dehumidifier unit aompris~s a housing 47 ha~ing typical outer dimensions of 24 inches deep, 7 inches wide and a height of about 8 feet which is enclosed at both ends. As can be seen from Figure 3, the unit is attached to the side wall 46 similarly to the unit described in Figure 2. The upper end of the housing 47 has an air outlet opening 48 in the side facing the side wall 46, and the lower end of the housing has an air inlet opening 50 on the side opposite the air outlet 48. This arrangement allows the unit to be attached directly against the side wall. An AC electric fan 52 is attached to the inside of the housing adjacent outlet opening 48. The fan is connected to a source of electric power via an electric power cord. Air is sucked out of the crawl space by the fan and exhausted through the outlet opening 48 by the fan. A humidistat 54 and a frost control switch 53 are attached to the outer side wall of the housing 47, and together provide an electrical signal to operate the fan.
The operation of these controls can be explained as follows. The ~ontrol of the humidity is maintained by ad~usting the humidity control switch to the required humidity setting. When the humidity level in the crawl ~pace is high, the humldistat will activate the fan motor to draw air away from the crawl space. However lf th~
temperature in this area is below 40-F, any operation of the fan would only serve to reduce the temperature in the crawl space, thus possibly freezing any plumbing system in this space. Hence, the frost control switch 53 prevents the operation of the fan unit below a preset temperature, in this case 40-F.
}t will be appreciated that the foregoing embodiments are presented by way of example only and are not intended to limit the scope of the present invention.

_

Claims (19)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. An air extraction apparatus for conditioning air in an enclosed space such as a basement of a house wherein relatively warm, dry air, which is heated by conduction from the rest of the house, tends to be located at a ceiling level, while relatively cool, humid air tends to be located at a floor level, said apparatus comprising:
- a conduit having an air inlet end and an air outlet end, said conduit adapted to be arranged and installed with its outlet end in communication with an opening in a wall of said enclosed space, and its inlet end in close proximity to said floor when in use;
- a fan means disposed in said conduit to effect movement of air from the level of said floor through said inlet end, to and, outwardly of said outlet end;
- control means associated with said fan means, said control means being responsive to the humidity of said air in said basement to selectively connect said fan means to a source of power, so that said relatively cool humid air is drawn to the inlet end from the level of said floor causing said relatively warm, dry air to be circulated downwardly to the floor, thereby reducing the overall humidity of said air in said enclosed space.

2. A device as defined in claim 1, wherein said conduit has an upper section and lower section, said upper section being closed at one end and open at an opposite end, and said lower section is telescopically movable within said open end of the upper section conduit to accommodate different heights.

3. A device as defined in claim 2, wherein said upper and lower section conduits are rectangular cross-section tubes.

4. A device as defined in claim 3, said upper section conduit has an air outlet opening in close proximity to said closed end and said lower section has said air inlet opening at one end on a side of said conduit opposite to said air outlet opening.

5. A device as defined in claim 1, said inlet end being substantially less than one foot from said floor when in use.

6. A device as defined in claim 1, wherein said control means is a humidistat adapted to be attached to the outside of said conduit.

7. A device as defined in claim 6, wherein said humidistat includes a temperature control means for preventing the operation of said humidistat below a preset temperature.

8. A device as defined in claim 7, wherein said temperature control means is a thermostat.

9. An air extraction apparatus for conditioning air in an enclosed space such as a basement of a house wherein relativelyh warm, dry air, which is heated by conduction from the rest of the house, tends to be located at a ceiling level, while relatively cool, humid air tends to be located at a floor level, said apparatus comprising:
- a conduit having an inlet end and an outlet end, said conduit adapted to be arranged and installed with its outlet end in communication with an opening in the enclosed space, and said conduit having its inlet end in close proximity to said floor in use, said conduit has an upper section and a lower section, said upper section being closed at one end thereof and open at an opposite end, and said lower section istelescopically movable within said open end of the upper section;
- a fan means adapted to be installed in said conduit to effect movement of air from said floor level of said enclosed space through said inlet end to said outlet end;
- control means associated with said fan means to connect said fan means to a source of power, said control means being responsive to the humidity of said air in said enclosed space.

10. An air extraction apparatus for conditioning air in an enclosed space such as a basement of a house wherein relatively warm, dry air, which is heated by conduction from the rest of the house, tends to be located at a ceiling level, while relatively cool, humid air tends to be located at a floor level said apparatus comprising:

a conduit having an inlet end and an outlet end, said conduit adapted to be arranged and installed with its outlet end in communication with an opening in the enclosed space, and said conduit having its inlet end in close proximity to said floor in use, said conduit has an upper section and a lower section, said upper section being closed at one end and open at an opposite end, and said lower section is telescopically movable within said open end of the upper section, said upper and lower section conduits are rectangular cross-section pipes, said upper section conduit has an air outlet opening in close proximity to said closed end and said lower section has said air inlet opening at one end on a side of said conduit opposite to said air outlet opening;
- a fan means adapted to be installed in said conduit to effect movement of air from said floor level of said enclosure through said inlet end to said outlet end; and - control means associated with said fan means to connect said fan means to a source of power, said control means being responsive to the humidity of said air in said enclosure.

11. A device as defined in claim 10, said inlet end being substantially less than one foot from said floor when in use.

12. An air extraction apparatus for conditioning air in an enclosed space wherein the air in said enclosed space is stratified due to a temperature gradient between a ceiling and floor of said enclosed space, said apparatus comprising:
- a conduit having an air inlet end and an air outlet end, said conduit adapted to be arranged and installed with its outlet end in communication with an opening in a wall of the enclosure, and its inlet end in proximity to said floor when in use;
- a fan means disposed in said conduit to effect movement of air from said floor level of said enclosure through said inlet end to and outwardly of said outlet end;
- a control means attachable to said conduit and associated with said fan means, said control means including a humidity control means responsive to the humidity of said air in said enclosure to selectively connect said fan means to a source of power, and a temperature control means for preventing the operation of said humidity control below a preset temperature.

13. A device as defined in claim 12, wherein said conduit has an upper section and lower section, said upper section conduit being closed at one end and open at an opposite end, and said lower section conduit is telescopically movable within said open end of the upper section conduit to accommodate different enclosure heights.

14. A device as defined in claim 13 wherein said upper and lower section conduits are rectangular cross-section tubes.

15. A device as defined in claim 14, wherein said upper section conduit has an air outlet opening in close proximity to said closed end and said lower section conduit has said air inlet opening at one end on a side of said conduit opposite to said air outlet opening.

16. A device as defined in claim 12, wherein said means is a humidistat attachable to the outside of said conduit.

17. A device as defined in claim 12, wherein said temperature control means is a thermostat.

18. An air extraction apparatus for conditioning air in an enclosed space wherein the air in said enclosed space is stratified due to a temperature gradient between a ceiling and floor of said enclosed space, said apparatus comprising:
- a conduit having an air inlet end and an air outlet opening at its opposite end, said conduit adapted to be arranged and installed with its outlet end in communication with an opening in the enclosure, and said conduit having an uppersection and a lower section, said upper section being closed at one end and open at an opposite end, and said lower section being telescopically movable within said open end of the upper section, said upper and lower section conduits are rectangular cross-section tubes, said upper conduit section has an air outlet opening in close proximity to said closed end and said lower conduit section has said air inlet opening at one end in a wall of said conduit opposite to said air outlet opening;
- a fan means in said conduit to effect movement of air from said floor level of said enclosure through said inlet end to and through said outlet end;

- a humidistat adapted to be attached to an outside wall of said conduit and electrically connected to said fan means to selectively connect said fan means to a source of power, said humidistat being responsive to a condition of said air in said enclosure whereby to cause the cooler and relatively more humid air to be drawn from adjacent the floor of the enclosed space to reduce the overall relative humidity of the air in the enclosed space; and - a temperature control means associated with said humidistat for preventing the operation of the humidistat below a preset temperature.

19. A device as defined in claim 18, wherein said temperature control means is a thermostat.