EP3553239A1 - Dispositif d'extraction de l'humidité d'un mur - Google Patents

Dispositif d'extraction de l'humidité d'un mur Download PDF

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Publication number
EP3553239A1
EP3553239A1 EP19175105.6A EP19175105A EP3553239A1 EP 3553239 A1 EP3553239 A1 EP 3553239A1 EP 19175105 A EP19175105 A EP 19175105A EP 3553239 A1 EP3553239 A1 EP 3553239A1
Authority
EP
European Patent Office
Prior art keywords
wall
housing
channel
hole
air
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP19175105.6A
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German (de)
English (en)
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EP3553239B1 (fr
Inventor
Cornelis Hendrikus Theodorus Johannes SCHRIJVER
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Schrijver Vochtbestrijding BV
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Schrijver Vochtbestrijding BV
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Publication of EP3553239A1 publication Critical patent/EP3553239A1/fr
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Publication of EP3553239B1 publication Critical patent/EP3553239B1/fr
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/62Insulation or other protection; Elements or use of specified material therefor
    • E04B1/70Drying or keeping dry, e.g. by air vents
    • E04B1/7069Drying or keeping dry, e.g. by air vents by ventilating
    • E04B1/7084Drying or keeping dry, e.g. by air vents by ventilating with Knappen systems, i.e. atmospheric siphons

Definitions

  • the present invention relates to a device for extracting moisture from a wall or similar structure of a house or building. By extracting moisture from the wall or similar structure, the device regulates the humidity and reduces humidity problems.
  • EP0829587A1 discloses an earlier device invented by the father of the inventor of the present invention.
  • EP587 discloses a device for extracting moisture from a wall or similar structure.
  • the device see in particular figure 1 of EP587, consists of air guide means 7 which can be applied in a hole 8 in a wall 2.
  • the device defines an air guide channel 9 between two openings 10 - 11, which extend in different directions outside the wall 2.
  • the air that flows through the air guide channel 9 carries off moisture originating from the wall 2.
  • This device is characterized by means 13 which form a cover between the air guide channel 9 and a cavity 5, possibly present in the wall 2 or similar.
  • the device of EP587 is suitable to remove moisture from the wall, including extracting moisture from a cavity which exists between an inner wall and an outer wall.
  • the cover 13 between the air guide channel and the cavity 5 in the wall is permeable to water but forms a seal against air.
  • NL2007920 discloses a further device for extracting moisture from a wall of a building.
  • the element comprises a pad 10 of a heat-insulating material at the back end of the element, see figure 2 .
  • the pad 10 is positioned against the inner wall of a cavity.
  • the element further comprises grooves 81 for improving the moisture removal capacity.
  • FR2920796 discloses a device for extracting moisture from a wall.
  • the device of FR2920796 is not very suitable for varying circumstances and is in particular not suitable for high temperature gradients.
  • EP0407290A1 discloses another device for extracting moisture from a wall.
  • the device of EP0407290A1 is not very suitable for varying circumstances and is in particular not suitable for high temperature gradients.
  • a wall that is moist may initially require a high moisture removing capacity, but once the wall has been dried sufficiently, this capacity can and should be lower.
  • a lower moisture removing capacity may result in lower heat loss of the building, which lowers the cost of heating.
  • the type of wall which is encountered may vary widely. Some walls have a cavity and other walls do not.
  • the cavity may be partially or wholly filled with heat insulation or may be completely empty.
  • the heat insulation may be fitted at the time of construction or provided in a later upgrade operation.
  • Various kinds of heat insulation are encountered in cavities.
  • walls may also be covered with heat insulation on the inside, and the heat insulation may be of various kind of materials.
  • Some walls are made from masonry, other walls from concrete, and yet other walls are form natural stone or another material.
  • the prevailing temperatures on the outside may vary enormously.
  • Mediterranean climates occur, and the average outside temperature may lie between 15 and 25 degrees. In Scandinavia, the average outside temperature is much lower. In other countries other climate conditions may occur.
  • the absolute and relative humidity of the air may also vary significantly.
  • the difference between the outside temperature and the inside temperature is substantially smaller.
  • the full temperature difference may be necessary for sufficient moisture removal. This condition may in southern Europe.
  • the wall itself has a temperature gradient, which can range from almost the outside temperature on the outer side of the wall to almost the inside temperature on the inner side of the wall.
  • the moisture removing device of the invention works on the principle of providing a cold spot which attracts moisture and removes the moisture from this cold spot with an air flow.
  • the moisture removing device itself has a single temperature throughout the device, it works very well on the inside of the wall, but may not work very well on the outside of the wall. More in particular, the device extends into the wall and comes into contact with a part of the wall which is heated from the inside. The heat coming from inside may heat up the entire moisture removing device, including an outer portion of the moisture removing device. This results in a situation wherein the outer part of the device becomes warmer than the outer portion of the wall which surrounds it. In such a situation, the moisture removing device locally no longer forms a cold spot in this area and locally stops functioning as a moisture removal device, or at least functions to a lesser degree.
  • the moisture in the cavity can result in various phenomena, such as repeated condensation in different places within the cavity.
  • the moisture inside the cavity has the tendency to move about.
  • the moisture condenses and appears as droplets on the thermal insulation.
  • the moisture may evaporate again and move through the cavity to a different location where it again condenses and reappears as droplets.
  • EP587 and NL920 have as a stated goal that they are capable of removing moisture from a cavity which exists between an inner wall and an outer wall, but the capacity to do so was found to be quite low.
  • a house or building may also vary.
  • the users often close ventilation means in order to reduce cold or draft. This deteriorates the moisture situation, because moisture is removed with draft.
  • double glazing may be present or not, and this significantly influences the moisture situation. Double glazing may prevent condensation from occurring, but it does not remove moisture. The moisture just becomes invisible.
  • the moisture removing devices of the prior art may become a nest for animals or insects such as spiders or may become a gathering place for dust and dirt. This hampers the functioning of the moisture removal device.
  • the various phenomena are quite complex. The complexity is increased even further by the fact that in practice it is not always clear what the source of the moisture is.
  • the moisture may be generated inside the house or building. Alternatively, the moisture may have been trapped and enclosed in a space without exit. Alternatively, the moisture may rise from the ground into the wall via capillary action. The moisture may also be a result from a leakage or from condensation of water from an unexpected source.
  • the invention aims to solve at least one of the problems mentioned above.
  • the invention provides a device for extracting moisture from a wall or similar structure, the device being configured to be positioned in a hole in said wall, the device comprising:
  • the device may comprise at least one partition wall which divides the chamber into a first chamber which is in open connection with the outside via the openings and a second chamber which is substantially closed.
  • the partition wall reduces the heat loss of the device and creates different temperature zones inside the device. This improves the moisture removing capabilities near the outer side of the wall, because here the temperature of the device will be lower due to the fact that the partition wall prevents heat from inside from the building from warming up the entire device.
  • the device allows the device to completely penetrate a wall without losing the capability of moisture removal for the outer part of the wall, or at least to penetrate the wall deeper than known devices. In this way the device can remove moisture better than known devices across the width of the wall.
  • the partition wall also allows the device to penetrate the entire wall or at least deeper than known devices, without creating excess heat loss and avoiding the dew point. This allows the device to be used to remove moisture from inside the living space.
  • Said partition wall may be movable in a longitudinal direction of the device in order to vary the size of the first and second chamber. This creates versatility, and makes the device customizable to varying conditions and demands.
  • the partition walls extend substantially transverse to a main longitudinal direction and can be indicated as a transverse partition wall.
  • a chamber 44 is located at the end of the device and is defined by a wall.
  • the chamber 44 does not have a function with regard to the moisture, but only serves to store an electric cable.
  • the chamber 44 does not create different temperature zones inside the device, because the air flow flows around the entire chamber both inside and outside of the housing. The air flow also reaches the back of the rear wall 17, see figure 2 .
  • the chamber 44 therefore is surrounded by the air flow on all sides and will adopt the temperature of that air flow.
  • EP0407290 at first sight appears to disclose a wall 18 (see fig. 3 ) and a separate chamber behind that wall. However EP0407290 discloses that channels (cannelures) extend through element 18, see column 4, lines 29-33. These channels put the space behind the element 18 in fluid communication with the space in front of element 18. Therefore, EP0407290 does not disclose a second chamber which is substantially closed.
  • the device further comprises an intermediate part which interconnects the housing and the front part, wherein the intermediate part is separate from the front part.
  • the intermediate part allows a more cost-effective production, and/or better customization of the front part to match the colour of the building.
  • the intermediate part may also provide easier placement and/or a better sealing of the hole around the device in order to prevent ventilation.
  • the front part is connected to the rest of the device via a releasable coupling which allows the front part to be removed by a user, wherein in particular the front part is connected to the intermediate part via the releasable coupling.
  • the releasable coupling allows maintenance, inspection, cleaning and/or repositioning of the partition wall and/or exchanging the partition wall for one with a different insulation value.
  • the device further comprises a flow controller for varying the airflow after installation of the device in a wall.
  • the flow controller may be formed by a central air guide having a variable position.
  • the flow controller makes the device more versatile so that it can be customized to local requirements or requirements which vary in time.
  • the device further comprises a second partition wall which together with the first partition wall divides the chamber into a first chamber, a second chamber and a third chamber part, and wherein in particular the first and second partition wall are movable.
  • This embodiment provides an advantage of creating a cold spot throughout the entire width of a wall.
  • the device further comprises a first housing part and a second housing part which are coaxially arranged.
  • This embodiment allow an easy adjusting of the length of the device to various widths of the wall.
  • the first and second part may be two short parts, a long part and a short part or two long parts. Each combination results in a different total length.
  • a ring of a different material than the material of the housing parts may be provided between the first and second housing parts.
  • the ring may be manufactured from a heat-insulating material.
  • the ring may be provided with air channels which extend through the ring and allow moisture to travel from the second housing part to the first housing part.
  • the housing wall is not only permeable to moisture but also comprises air channels which extend through the housing from the outside to the inside in order to let an air flow permeate from the outside of the device through the housing wall into the chamber, and wherein the air channels have an average diameter of at least 0.5 mm.
  • the size of the pores which form the air channels may be chosen at the manufacturing stage of the housing. In this way the air permeability of the housing can be controlled at the manufacturing stage.
  • the housing is provided with an endplate at an end thereof, wherein the endplate comprises air channels which extend through the end wall in order to let a second permeable flow of air flow through the endplate into the chamber, and wherein the air channels have an average diameter of at least 0.5 mm.
  • the endplate may be manufactured from the same material as the housing, however in some cases the endplate might be manufactured from aluminium when a maximal drop in temperature is required.
  • the endplate may be integral with the housing.
  • the endplate allows moisture removal from inside the living space in addition to moisture removal from the wall, and allows a deeper penetration of the device into the wall, which improves moisture removal from the inner part of the wall.
  • the housing has a circular cross-section and wherein the front part has a square cross-section or a rectangular cross-section, wherein in particular the intermediate part provides a transition from a circular cross-section to a rectangular cross section.
  • the device can have a similar form and colour as the bricks in the wall.
  • the front part overlaps the housing and any cement with which the housing is connected to the wall. This improves the visual characteristics of the device in that the cement is invisible from the outside.
  • the cement used to fix the device often has a different appearance from the cement of the wall itself.
  • the device may comprise an annular outer front piece which in particular extends substantially around the housing and/or the intermediate part, wherein an air entry and an air exit of a front outer channel are defined between the annular outer front piece and the intermediate part, wherein the front outer channel extends around the housing and is in open communication with the outside and which acts as a second airflow channel, wherein the front outer channel is configured to remove moisture from a front part of the wall, and wherein in top view the front outer channel traverses the main channel.
  • This embodiment is especially suitable to dry the outer part of the wall.
  • the device has no endplate and the second chamber has an open rear end.
  • the air inside a room can be dried, in particular of the open end is placed directly against an inner panel or cover layer which covers the inside of a wall.
  • the housing comprises an outer housing part and an inner housing part, wherein the outer housing part extends around the inner housing part and defines an annular space between them, wherein the annular space forms an ingoing part of the airflow channel and the inner housing part defines an outgoing part of the air flow channel, wherein a U-turn is defined at an end of the ingoing channel.
  • the outer housing part is relatively short and is only provided at the front end of the device.
  • the wall forms the annular cavity around the inner housing and over the greater portion of the length of the device, there is no outer housing part. The incoming air directly dries the wall without a barrier of an outer housing part reducing the drying effect.
  • the device may comprise at least one support configured to support the inner housing part at a distance from the inner surface of the hole in order to create the annular space.
  • the end wall of the device has a thickness of more than five times a thickness of a side wall of the housing. It was found that this embodiment may be an alternative to the partition wall, in that two temperature zones are created within the device, and the outside air is prevented from reaching the end wall. The moisture can travel through the thick end wall.
  • the present invention further relates to a wall of a house or similar structure, the wall comprising a hole and a device according to claim 1, the device being positioned in the hole.
  • the wall is a double wall comprising a first, inner wall, a second, outer wall and a cavity between the inner and outer wall, and wherein the housing wall comprises air channels which extend through the housing and connect the cavity with the chamber, so that in use a permeable air flow flows from the cavity through the housing wall into the chamber.
  • the air channels allow a better moisture removal from the cavity than known devices achieve.
  • the material of the housing is pervious concrete, i.e. concrete with an open structure. Pervious concrete was found to enable good moisture removal from a cavity. Pervious concrete is a concrete in which a substantial part of the fine aggregates (i.e. the sand) has been left out. In an embodiment, 25 to 40 percent of the volume may consist of gaps. At least 25 percent of the volume may consist of interconnected gaps.
  • the material of the housing may have a high thermal insulation value.
  • the material of the housing may have a constant grain size.
  • the material of the housing is durable and strong.
  • the material of the housing may be a natural material which can be produced in a sustainable manner.
  • the device has an endplate at an end of it, wherein the endplate comprises air channels which extend through the end wall in order to let a second permeable air flow flow through the endplate into the chamber, and wherein the air channels have an average diameter of at least 0.5 mm.
  • This embodiment allows good moisture removal from the living space or from an inner part of a wall.
  • the endplate is manufactured from the same material as the housing.
  • a layer of insulation is connected to the wall, and the insulation has an opening near an end of the device so that air containing moisture can flow through the opening in the insulation and continue as a permeable air flow through the endplate and into the chamber. In this way moisture from inside the living space can advantageously be removed.
  • a panel such as a gypsum panel comprising the layer of insulation is connected to the inside of the wall, the insulation engaging the wall, wherein the device extends through the wall, wherein the opening is provided in the insulation so that an end of the device directly engages the panel.
  • the present invention further relates to a method of improving the damp situation in a house or similar structure, the method comprising:
  • the method provides substantially the same advantages as the device.
  • the device is initially installed with a partition wall in a first position or without a partition wall, and wherein after a certain time period the partition wall is moved to a second position, removed or inserted, such that in the second time period the device has a different moisture removing capacity than in the first time period.
  • the device can be adjusted to varying requirements and circumstances.
  • the device is initially installed with a first partition wall in a first position and second partition wall in a second position, and wherein after a certain time period at least one partition wall is moved or removed. In this way the device can be adjusted to varying requirements, in particular to a wall that becomes dry over time.
  • the device comprises an intermediate part which interconnects the housing and the front part, wherein the intermediate part is separate from the front part, wherein the housing is manufactured from a ceramic material and wherein the front part and the intermediate part are manufactured from a synthetic material, and wherein the housing is fixed to the wall with cement and the intermediate part is fixed with a different connection method.
  • This embodiment provides amongst others the benefit of a good seal to prevent ventilation of the cavity.
  • the longitudinal partition wall or the partition wall may be provided with a spacer projection which prevents the partition wall to be positioned in direct contact with the longitudinal partition wall. If this would happen, the air flow channel would be closed at the U-turn, and the device would not work.
  • the projection may have various forms and define an opening at the end of the longitudinal partition wall.
  • the front part is connected to the rest of the device via a releasable coupling which allows the front part to be removed by a user, wherein in particular the front part is connected to the intermediate part via the releasable coupling, and wherein the front part is removed from time to time for:
  • the device comprises a flow controller for varying the airflow after installation of the device in a wall, wherein in particular the flow controller is formed by a central air guide having a variable position, and wherein after a certain time period the air flow is adjusted with the flow controller in order to increase or decrease the moisture removing capacity.
  • the airflow can be adjusted to varying requirements.
  • an air flow flows through the air channels in the housing wall from the cavity in the wall into the chamber, thereby removing moisture from the cavity. It is noted that the device of the prior art allow moisture to flow through the housing wall via the capillary action but at the same time block a direct air flow. It was found that a better result is obtained with the air channels.
  • the housing is provided with an endplate, wherein the endplate comprises air channels in order to let a second permeable flow of air flow from the outside of the device through the endplate and into the chamber, wherein a wall comprises a panel, in particular a gypsum panel, which is connected to the inside of the wall, wherein the hole extends all the way through the wall, wherein the endplate of the device directly engages the panel, and wherein moisture is removed from the panel by a second permeable air flow which flows through the endplate.
  • the endplate comprises air channels in order to let a second permeable flow of air flow from the outside of the device through the endplate and into the chamber
  • a wall comprises a panel, in particular a gypsum panel, which is connected to the inside of the wall, wherein the hole extends all the way through the wall, wherein the endplate of the device directly engages the panel, and wherein moisture is removed from the panel by a second permeable air flow which flows through the endplate.
  • the present invention further relates to a device for extracting moisture from a wall or similar structure, the device being configured to be positioned in a hole in said wall, the device comprising:
  • the wall and the device i.e. the wall of claim 12 and the method of claim 16 can also be provided with a device which does not comprises the partition wall but comprises one or more of the other features of the claims.
  • a device for removing moisture from the air in a room in a house or building, the device comprising:
  • This invention is suitable to remove moisture from the air inside the living space of a house.
  • Many houses suffer from lack of ventilation. A result is that the air inside the house becomes moist, and condensates against the windows or even worse, against the walls.
  • the inhabitants of a house may try to prevent loss of energy in order to save costs, and close existing ventilation ducts. This is in particular an issue in rented houses.
  • the channel forms a cold spot within the living space. Moisture condensates on the cold spot and travels through the channel wall. When the moisture arrives on the inside of the channel, it evaporates into the cold outside air which flows through the channel. Gradually, the air in the room becomes dry.
  • the channel wall may be relatively closed to air in order to prevent air from the living space to enter the channel.
  • the channel may have the appearance of a baseboard. In this way, the channel is invisible for a person inside the room.
  • the channel may comprise a fan for blowing outside air through the channel.
  • the fan guarantees a certain discharge through the channel.
  • an entrance and/or exit with a suitable shape to guide through the channel may be used.
  • the device may comprise a filter at the entrance to keep out dirt.
  • the fan might also create a vacuum effect which is beneficial for a drop in the temperature and attraction of humidity
  • the device is intended to be installed in a room of a house or building.
  • the room comprises one or more walls comprising a device according to the invention.
  • the channel may extend at least partially along a wall of the living space.
  • the appearance of the channel may be similar or the same as the appearance of the other baseboards in said room.
  • the channel may extend at least partially in a horizontal direction along a foot of a wall of the living space where the wall meets the floor in the same way as the baseboards.
  • the channel comprises one or more vertical sections and a horizontal section wherein said one or more vertical sections extend in particular along a vertical line where two walls of the house or building meet one another. In this way the vertical sections are made inconspicuous.
  • the channel may extend along an upper end of a wall of the living space where said wall meets the ceiling.
  • the room may be a cellar of a house or building, wherein the entry tube and the exit tube are located near the ceiling of the cellar, so that they are near the ground on the outside of the house or building.
  • the entry tube and exit tube may be located near the ceiling of the cellar, and the channel may comprise two vertical sections located at a distance from one another and extending along respective vertical lines where walls of the cellar meet to respective corners where the respective vertical lines meet the floor, and comprising a horizontal section extending along the foot of a wall between said corners.
  • At least one wall comprises one or more holes which extend into the wall from the side of the room, wherein the channel comprises:
  • both the air and the wall of the room can be dried with the same device.
  • the parallel channel sections dry the air and the wall piercing sections dry the wall.
  • the wall is dried from the inside.
  • the device may have multiple entrances and/or multiple exits.
  • the holes may be blind holes, wherein each of the wall piercing channel sections comprises an air guide which extends into the hole and divides the wall piercing channel section into an ingoing part and an outgoing part which are parallel to one another, and wherein the air guide defines a U-turn at the end of the hole.
  • the room may comprise a plurality of holes and a plurality of associated air guides.
  • the holes may be positioned in a linear configuration along said wall in order to remove moisture from said wall. Typically, the holes will be located near the foot of the wall.
  • the invention also relates to a method of modifying an existing house or building in order to dry the air within a room of said house or building, the method comprising making at least a first through hole and a second trough hole in an outer wall of the house or building, placing the entry tube and exit tube in said through holes, installing the air entrance and the air exit on the outside of the house or building and installing the channel along a wall inside the room.
  • the method comprises drilling multiple holes in the wall from the inside, and installing multiple wall piercing channel sections inside said holes and multiple parallel channel sections which extend along the wall and interconnect the multiple wall piercing channel sections.
  • the invention further relates to a method of drying the air within a room of a house or building, the method comprising:
  • the wall 12 comprises an inner wall 62, an outer wall 64 and a cavity 66 between the inner wall and the outer wall.
  • the cavity is partially filled with thermal insulation 69.
  • the wall 12 may also be a solid wall.
  • the device is configured to be positioned in a hole 14 in said wall.
  • the device comprises a front part 15 which defines two openings 16 which extend in different directions 18, 19.
  • the front part may be manufactured from a glass fibre reinforced composite or another suitable material.
  • the front part 15 comprises a central air guide 21 which projects outwardly from the wall.
  • the front part may mimic the appearance of a brick.
  • the central air guide defines the air intake 16A and the air exit 16B.
  • the central air guide has a curved shaped to create a fluent air guide and to create dynamic overpressure on the side of the air intake 16A and dynamic underpressure on the side of the air exit 16B, thereby increasing the speed of the air flow through the device.
  • the air intake 16A and the air exit 16B have a same shape and are exchangeable in use, the function depending on the direction of the wind.
  • the speed of the air flow within the chamber is considerable, and typically higher than the speed of the wind which flows along the openings, i.e. along the outside of the wall.
  • a housing 28 which forms a housing wall 30 of the chamber is connected to the front part 15 via an intermediate part 17.
  • the housing wall 30 is air permeable.
  • the air permeable housing 28 defines air channels 40 which extend through the air permeable housing wall 30 from the outside to the chamber 22, the air channels being configured to let a permeable air flow 42A flow from the outside 44 of the device through the housing wall into the chamber, where the permeable air flow merges with the main air flow.
  • the permeable airflow allows in particular the extracting of moisture from a cavity 66 of a wall 12 comprising an inner wall 62, an outer wall 64 and a cavity 66 between the inner wall and the outer wall.
  • the cavity may be filled with thermal insulation 69.
  • the air channels connect the cavity with the inner region 22 of the chamber, so that in use a permeable air flow flows from the cavity through the air channels into the chamber.
  • the housing may be manufactured from a porous material such as pervious concrete which defines air channels having an average diameter which lies between 0.05 mm and 1 mm and extend through the housing wall.
  • the housing defines a chamber 22 therein.
  • the device further comprises a partition wall 60 which divides the inner space in a first chamber 22A and a second chamber 22B.
  • the first and second chamber may also be indicated as first and second chamber part, but in this situation "chamber” is considered a clearer term than "chamber part".
  • the central air guide 21 projects into the chamber.
  • the partition wall 60 extends transverse to the longitudinal direction of the device.
  • the partition wall 60 is manufactured from a ceramic material.
  • the partition wall 60 may substantially close the second chamber 22B, so that the second chamber 22 is not fluidly connected to the first chamber 22A.
  • a groove 55 extends longitudinally along the inside of the housing wall.
  • a spacer element 56 is positioned in the groove 55 in order to keep the partition wall 60 at a defined distance from the end wall 46. When a spacer element of a different length is used, the partition wall can be positioned at a different distance from the end wall.
  • the air intake 16A and air exit 16B are channels extending through the front part 15 and being in open communication with the first chamber 22A.
  • the cross section of the inner space is circular, i.e. the chamber 22 has a substantially cylindrical shape.
  • An air flow channel 24 for a main air flow 26 extends through the first chamber 22A between the air intake and the air exit.
  • a longitudinal partition wall 25 extends in a longitudinal direction from a rear end 78 of the central air guide 21 further into the chamber, and extends the length of the air flow channel 24.
  • the air flow channel 24 has a general U-shape.
  • the air flow channel 24 comprises an ingoing part 80 and an outgoing part 82, wherein the flow has respectively an ingoing direction and an outgoing direction.
  • the ingoing direction and the outgoing direction are roughly opposite to one another.
  • the air flow channel 24 comprises a U-turn 31 at the end of the longitudinal partition wall 25, i.e. at the transition between the ingoing part and the outgoing part.
  • the U-turn 31 is located between the end of the longitudinal partition wall 25 and the partition wall 60 which divides the chamber into two chamber parts.
  • the main air flow 26 flows through the air intake 16A, through the air flow channel 24, carries off moisture from the wall 12, and exits the device through the air exit 16B.
  • the housing is provided with an air permeable end wall 46 at an end 48 which is opposite to the front part 15.
  • the air permeable endplate defines further air channels 40 which extend through the air permeable endplate from the outside of the device to the inner space of the chamber.
  • the air channels of the endplate connect the inner wall 64 with the inner region of the chamber, so that in use a second permeable air flow 42B flows from the inner wall through the air channels 40 into the chamber.
  • the air permeable end wall 46 allows a better controlled extracting of moisture from the wall 12 or from the living space inside the house or building.
  • the air channels 40 of the end wall 46 may have an average diameter which lies between 0.05 mm and 1 mm. By varying the size of the channels, the extracting of moisture may be controlled.
  • a wall of a house may be completely punctured. This means that the end wall 46 of the device according to the invention may become visible from the inside. The end wall 46 may also puncture the wall of the house, but not the insulation that is attached to the inside of the wall of the house.
  • the end wall 46 may be mounted flush or substantially flush with the inside of the wall.
  • the endplate may be integral with the air permeable housing. In a different embodiment, the endplate may be a separate part.
  • a wall becoming moist can be a fast process.
  • the drying of a wall is generally a slow process. It generally takes a long time before a moist wall dries.
  • the distance between the end wall 46 and the partition wall 60 may variable by the user or by the installing company. This may be executed by taking the front part off the device, removing the partition wall, installing different spacer elements 56 having a different size and re-installing the partition wall. If desired, the movable partition wall can be positioned against the fixed end wall by the user.
  • the movable partition wall 60 allows the user to control the rate at with which the moisture is removed. This improvement is based on the insight that for houses and other buildings which have just been built, the moisture situation needs to be improved quite quickly. In this situation, the movable end wall will be positioned against or close to the fixed end wall so that the second chamber is relatively small.
  • the first chamber is relatively large.
  • the first chamber is in open connection with the outside and for this reason is relatively cold.
  • the second chamber is substantially closed or entirely closed and for this reason is warmer than the first chamber.
  • the first chamber creates a cold spot 22A which attracts moisture.
  • the second chamber 22B is also a cold spot, but a cold spot having a higher temperature than the first cold spot. For this reason the second chamber attracts moisture at a lower rate.
  • the second chamber has a benefit in that it protects the inner wall from an extreme cold spot which would otherwise be created with a single chamber which is in direct contact with the outside.
  • the invention provides the option to reduce the moisture removing capacity of the device by increasing the distance 110 between the fixed end wall and the movable end wall. This increases the size of the second chamber which has a higher temperature and a lower moisture removing capacity and decreases the size of the first chamber which has a lower temperature and therefore a higher moisture removing capacity.
  • the second chamber 22B is warmer than the first chamber 22A and therefore to a certain degree provides heat-insulation, thereby reducing the loss of heat.
  • the partition wall itself may be permeable to moisture and allows moisture to travel through the partition wall.
  • the moisture also travels through the wall of the housing in a forward direction, i.e. towards the front where it is colder.
  • the air channels 40 are defined by pores 50 in the chamber wall.
  • the pores are connected to form the air channels.
  • the air channels form a criss-cross network through the housing wall.
  • the porosity of the air permeable housing wall, and in case of an air permeable endplate, the air permeable endplate, may be at least twenty five percent. It was found in practice that above this limit, the effect of the air channels is in particularly good.
  • the device 10 is positioned in an existing wall of a house or similar structure. First a hole 14 is made by drilling with a drill to the desired depth and subsequently the device is inserted. The device is fixed with cement. The device 10 may also be positioned during the forming of a brick wall, and be positioned as a brick in the wall during the forming thereof.
  • the housing 28 may have a rectangular cross-section as is indicated with dashed lines. Multiple devices 10 are provided in the wall at regular distances.
  • the housing 28 may also have a circular cross-section as is indicated with dashed lines.
  • the front part 15 has a rectangular or square cross-section. This provides the benefit that the hole in the wall can be manufactured with a conventional drill, which allows fast installation of the device. At the same time, the front part 15 can have the same shape as the surrounding brickwork, making the front part 15 less visible to the eye. This avoids the disadvantage of having circular front parts which is in particular disadvantageous with historic or daunting buildings.
  • the intermediate part 17 provides the transition from circular to square or rectangular.
  • the device 10 according to the invention is shown in exploded view.
  • the device comprises the housing 28, an intermediate part 17 and a front part 15.
  • the housing is circular and made from a ceramic material or from pervious concrete.
  • the front part overlaps the contour of the housing and the cement with which the device is connected to the wall. In this way the cement is invisible or less visible.
  • the cement which connects the device to the wall often has a different colour texture or in general appearance than the cement which is present in the rest of the wall. By hiding the cement behind the front part, the appearance of the wall as a whole is improved.
  • the intermediate part 17 interconnects the front part 15 and the housing 28.
  • the intermediate part 17 provides a transition from the circular cross section of the housing to the square or rectangular cross section of the front part 15.
  • the intermediate part 17 has a circular connector 90 which connects with the housing 28.
  • the circular connector 90 has grooves which enable a solid connection with the housing 28.
  • the intermediate part 17 has a square or rectangular connector 92 which connects with the front part 15.
  • the connector 92 has a bottom plate and a top plate which project forward and a click coupling 100 which will be discussed in detail further below.
  • An advantage of the intermediate part 17 is that the installation of the device becomes easier.
  • the housing 28 is installed with cement in the hole in the wall.
  • the intermediate part 17 is connected to the housing once the housing is fixed in place.
  • the intermediate part may be connected to the housing in various ways, for instance with an adhesive connection or with bolts or screws. No cement is needed. This is an advantage because cement is quite difficult to handle.
  • a further advantage of the intermediate part is that the front part becomes smaller. This makes it easier to provide various front part having different colors which are chosen to match prevailing colors of masonry.
  • the intermediate part is not visible and can have a general color such as black or white or may be manufactured from a more cost-effective material. Only the front part needs to be customized to the actual color of the wall.
  • the front part 15 comprises the central air guide 21 which defines a curved intake and a curved exit.
  • the longitudinal wall 25 extends through the intermediate part 17 and fits in a slot 106 at the end 78 of the central air guide 21.
  • the partition wall 60 is shown in dashed lines.
  • a sloping roof 120 may be provided above the openings in order to prevent rain from entering through the openings.
  • the lower side 122 of the entrance may also be provided with a slope in order to prevent rain or in general water from flowing into the device.
  • the intermediate part 17 is shown to abut a front face of the housing 28.
  • the intermediate part 17 is fixed in place with glue 118 or in another way.
  • the glue 118 acts as a seal. Sometimes, the cement with which the housing is cemented to the wall does not completely close off the hole. Then, the cavity may become ventilated, leading to a substantial heat loss.
  • the glue 118 prevents any leakage around the outside of the device 10 into the cavity of the wall.
  • the connector 92 for the front part 15 comprises a click coupling 100 comprising two ridges 112 which mate with two indentations 114 in the front part 15.
  • the front part can be clicked onto the intermediate part easily and also be removed easily. This allows easy inspection, cleaning, maintenance and repositioning of the partition wall 25. In particular it allows removal of dirt and insects such as spiders.
  • the two ridges 112 also allow the front part including the central air guide to be positioned in two different positions. In a first position shown in figure 7 the cross sectional area of the intake 16A and exit 16B is small. In a second position shown in figure 8 the cross sectional area of the intake 16A and exit 16B is larger, resulting in a greater airflow through the device and a greater moisture removing capacity.
  • the cross sectional area of the intake 16A and exit 16B varies because the central air guide tapers and defines the cross sectional area in cooperation with the intermediate part 17. In the first position, the central air guide is inserted into the intermediate part further, and the width of the intake and exit is rather small. In the second position, the width of the intake is rather large.
  • the click-coupling 100 has a double function and acts at the same time as a flow controller with which the air flow through the device 10 can be controlled. This allows a same device to be produced and to be tuned to different circumstances and different requirements.
  • Other kinds of flow controllers for varying the airflow are also possible, such as a removable insert which partially obstructs the air flow, or a gate, or by using different front parts having different central air guides
  • the present invention is installed in a wall 12 without a cavity.
  • the wall 12 comprises a panel 70 such as a gypsum panel which is placed against the inside 74 of the inner wall 62.
  • the panel 70 comprises a layer of insulation 72 which engages the inside 74 of the inner wall 62 and is provided between the gypsum and the inner wall.
  • the device 10 extends all the way through the inner wall. A part of the insulation 72 is removed so that a hole 75 is created.
  • the end wall 46 comprises small air channels to create air permeability.
  • the end wall 46 extends through the layer 72 of insulation and directly engages the panel 70.
  • the layer of insulation may have a thickness in the range of 30 mm.
  • the technical effect of engaging the end wall 46 with the panel 70 is that the damp from the interior climate can flow through the air permeable end wall 46 into the chamber 22 without hinder of damp blocking layers.
  • the relative humidity indoor will drop as a result of this and moisture problems inside may be solved.
  • the device 10 further comprises a first partition wall 60A and a second partition wall 60B.
  • the partition walls 60A, 60B create a first chamber 22A, a second chamber 22B and a third chamber part 22C.
  • the second and third chamber parts are not in direct contact with the outside.
  • the three separate chambers have an advantage in that the heat loss from the building is reduced. Furthermore, the temperature in the different chambers increases stepwise form chamber 22A to 22B to 22C. This prevents a situation in which the outer part of the device 10 would become to warm to function locally as a cold spot. In other words, the compartments prevent the outer part of the device 10 from becoming warmer than the outer part of the wall, thereby losing its function as a cold spot.
  • the device can also extend completely through an outer wall 64 and inner wall 62 of a wall 12 having a cavity 66.
  • a hole is made in the insulation 72 provided on the inside of the inner wall.
  • the end wall 46 may contact a gypsum panel 70 provided against the insulation.
  • figure 10 it is shown that in use, air will flow through the gypsum panel 70 and through the air channels inside the end wall 46 of the device 10. In this way, moisture can be removed from inside a building.
  • the device creates a cold spot 99 in the gypsum panel 70.
  • An annular insulation member 101 may be provided in order to prevent moisture coming from the inside of the building from entering the insulation 72.
  • the wall 12 comprises a single wall and a layer of gypsum 170 provided against the inside. No insulation is present.
  • the end wall 46 engages the layer of gypsum in order to remove moisture from the inside of the building.
  • FIG 12 an exploded view of another embodiment is shown.
  • This embodiment has a housing comprising a first housing part 28A and a second housing part 28B.
  • the housing parts are arranged coaxially.
  • a ring 104 is provided between the first and second housing parts.
  • the ring 104 may be manufactured from a heat-insulating material, for instance a suitable synthetic material, in order to provide a temperature barrier between the first and second housing parts 28A, 28B. This further aids in creating a temperature difference between the first and second housing parts and between the first and second chambers 22A, 22B.
  • the ring 104 may also provide a protection against damage.
  • the device may provide a rigid connection between the inner wall and outer wall of a cavity wall. When the inner wall of a cavity wall moves relative to the outer wall as a result of an earthquake, other kind of shock or as a result of setting of the walls, damage may occur due to the rigid connection.
  • the ring 104 is manufactured from a resilient material, some relative motion between the inner wall and the outer wall is allowed, thereby avoiding damage.
  • the ring may further be provided with small air channels which extend in the axial direction of the ring 104 in order to allow moisture which is present in the second housing part 28A to travel through the air channels of the ring 104 to the first housing part 28B.
  • the first and second housing parts have different lengths L1 and L2.
  • This embodiment has an advantage in that with a limited number of housing parts, various combinations can be made resulting in a device 10 having each time a different total length. This makes the device 10 versatile for walls 12 having different thicknesses.
  • This embodiment substantially avoids any cutting of housings 28 which needs to be performed in case a wall having an unusual thickness is encountered.
  • the cutting is generally performed on the job (also called in situ).
  • the first housing part 28A may for instance have a length of 6 - 10 cm while the second part has a length of 2 - 6 cm. Other dimensions are also possible. It is also possible that three housing parts of a first, second and third length are provided in order to increase the versatility of the device 10. The embodiment thereby allows a faster installation process.
  • FIG 13 another embodiment of the invention is shown.
  • a portion of the wall has been removed, resulting in a front outer hole 132 which extends around or substantially around the front section 130 of the housing.
  • the front outer hole can be created by creating a wider hole around the hole 14 in which the device 10 is placed.
  • the front outer hole 132 can have a limited depth 133.
  • the front outer hole 132 defines the front outer channel 134 which is in open communication with the outside and which acts as a second airflow channel.
  • the front outer channel is a second air flow channel.
  • the front outer channel 134 receives air via the common air intake 16A and air is discharged via the common air exit 16B. It is also possible that the front outer channel 134 has a separate air intake and a separate air exit.
  • the front outer channel 134 traverses the air flow channel 24, in particular below and above the airflow channel 24.
  • the air intake 16A comprises a bifurcation zone 138 where the incoming air flow which enters via the common air entry 16A bifurcates in two flows, i.e. the main air flow which flows through the air flow channel 24 inside the housing, and an outer air flow which flows through said front outer channel 134 along the outside of the housing.
  • the air exit comprises a merge zone 140 wherein the main air flow and the outer air flow merge and leave the air exit 16B as a single flow.
  • the front outer cavity 132 may have a length 133 of 5 to 30 percent of a total thickness 135 of the wall 12.
  • the advantage of the front outer cavity 132 is that the front part of the wall 12 around the device is dried faster.
  • a rear portion of the wall has been removed, resulting in a rear outer cavity 238 which extends around or substantially around the rear section of the housing.
  • the hole may be created from the inside, for instance by drilling.
  • the hole may be covered with a plate 141 in order to make the hole invisible from the inside..
  • the rear outer cavity 238 may extend to about the partition wall 60, 60A.
  • An annular insulation member 101 is provided at an end 140 of the rear outer cavity.
  • the annular insulation member 101 closes off the end 140 of the rear outer cavity.
  • FIG 14 a similar embodiment as the embodiment of figure 13 is shown, but the device has an open end. In other words, there is no end wall 46.
  • the device 10 is placed against the inner cover layer 170 (for instance a gypsum layer) with the open end.
  • the moisture will travel through the inner cover layer 170 on the wall as condense and evaporate in the second chamber 22B.
  • the moisture will condense against the partition wall 60 and evaporate again on the other side of the partition wall 60.
  • a part of the moisture will travel through the wall of the housing 28 around the second chamber 22B and evaporate in the first chamber 22A..
  • a cavity is present in the wall, and insulation 69 is provided in the cavity on the side of the inner wall 62.
  • FIG. 15 an embodiment of the device is shown in which the hole 14 in the wall has a larger diameter than the housing. Both the housing and the cavity may have a circular shape.
  • the hole 14 extends fully through the wall 12, i.e. the cavity forms a through hole.
  • An annular insulating member (101) separates a front part 14A of the hole from a rear part 14B of the hole.
  • the device does not have a partition wall 60 and consequently no second chamber 22 B.
  • the main air flow 26 inside the device reaches the end wall 46 of the device.
  • the device has the second air flow which traverses the main airflow.
  • the device comprises an outer front piece 142 which extends substantially around the intermediate part 17, wherein an air entry 144 and an air exit 145 of the front outer channel are defined between the outer front piece and the intermediate part.
  • the intermediate part 17 has a substantially same diameter as the housing.
  • the outer front piece 142 extends substantially around the housing and defines an annulus between the outer front piece and the housing. The annulus defines the air entry 144 and the air exit 145.
  • the housing or the intermediate part or the outer front piece comprises one or two breaking zones which allow an upper piece 260 and/or a lower piece 260 of the housing or the intermediate part or the outer front piece to be broken off.
  • room which is occupied by the upper and lower piece can be filled with mortar or plaster. This improves the visual appearance of the device, because the housing or the intermediate part or the outer front piece does not protrude above or below the central air guide 21 in a visible way.
  • the outer front piece 142 is split in two pieces 142A and 142B which are connected to the front part 15 during installation by a horizontal insertion into a groove 262 as indicated by arrows 264.
  • the intermediate part 90 fits over the mating projections 268 on the front part
  • the rear part 14B of the hole 14 may be closed off with a plate 146 having holes 147, or with a gypsum panel 70 or gypsum layer 170.
  • the device does not comprise the at least one partition wall 60; 60A which divides the chamber into a first chamber 22A which is in open connection with the outside via the openings 16 and a second chamber 22B which is substantially closed.
  • the end wall 46 of the device stays at a distance 93 from a plate 146 which closes off the hole 14.
  • the rear part 14B can be regarded as a cavity which also extends behind the device 10. The distance 93 creates a clearance which performs the same function as the second chamber 22B of the embodiment having a partition wall 60.
  • FIG 17 an embodiment is shown having a front outer hole 132 which has a depth 133.
  • the depth may be at least seven centimetre.
  • This embodiment has a partition wall 60.
  • the hole 14 does not extend entirely through the wall 12 but ends at a relatively short distance of the wall. This embodiment is suitable for walls 12 without a cavity.
  • the wall has a cavity 66 and an outer wall 64 and an inner wall 62. Insulation 69 is present in the cavity on the side of the inner wall.
  • the device 10 extends through a hole 14 in the outer wall. The hole 14 does not extend into the inner wall 62.
  • the housing has an end wall 46 but no partition wall 60.
  • the device 10 i.e. the housing of the device has a greater outer surface area which is exposed to the air in the cavity. If there is excess moisture in the cavity, the greater surface area which is exposed to the air assists in the drying process.
  • a clearance 93 may be present at the rear end of the device, i.e. the rear end may stay at a distance 93 from the inner wall 62.
  • the clearance may take away a need for the partition wall inside the housing, because the inner wall does not become very cold as a result of the clearance.
  • the outside temperature is 5 degrees Celsius.
  • the inside temperature may be 20 degrees.
  • the inner wall temperature may be 13 - 14 degrees.
  • the outer wall temperature may be 6-7 degrees.
  • the temperature of the outside of the rear end of the housing may be 5 degrees.
  • the temperature of the inside of the housing may be 2 degrees as a result of the evaporation of moisture, which requires energy.
  • This embodiment is suitable for houses and building which have been insulated after constructions, i.e. as an upgrade operation.
  • a considerable amount of moisture may be present in the cavity and in the inner and outer wall and may be removed with this embodiment.
  • cavities 66 having moisture an opening in the outer wall is created to introduce outside air into the cavity for drying the cavity, However, this cools the air inside the cavity which degrades the insulating function of the cavity. With this embodiment, this disadvantage is substantially avoided.
  • the rear end may contact the inner wall.
  • the device comprises an outer housing part 28A and an inner housing part 28B.
  • the outer housing part 28A has a greater inner diameter as the outer diameter of the inner housing part 28B. In this way, an annular space is defined between the outer housing part 28A and the inner housing part 28B.
  • the outer housing part 28A and the inner housing part 28B may be coaxial.
  • the outer housing part has an end wall 46.
  • the wall 12 is provided with a through hole 14 which extends entirely through the wall 12.
  • the end wall 46 contacts an inner cover layer 170 which is provided on the inside of the wall 12.
  • a front part 153 is provided which may be manufactured from plastic.
  • the front part may comprises two concentric tubes 155A, 155B and which abut the outer housing part 28A and an inner housing part 28B .
  • a fan 150 is provided at the outer end of the inner housing part 28A.
  • the fan may be powered by a battery or by an electric cable which is connected to the electricial system of the house or building.
  • the fan 150 is configured to blow air to the outside.
  • the inner housing part 28A defines the outgoing channel and the annular space defines the ingoing channel.
  • This embodiment is particularly suitable for bedrooms upstairs in houses that have solid walls with no cavities and double glazing. On average a sleeping person produces 2 liter of moisture per night. If such a bedroom is not properly ventilated, mould and fungus may start to grow.
  • the device 10 creates a cold spot on the inner cover layer 170 (for instance a gypsum layer).
  • the cold spot attracts moisture which condenses in the gypsum layer and subsequently travel through the gypsum layer 170 into the hole 14 where it evaporates and is carried off by the outside air.
  • the fan 150 may be regulated in order to control the moisture removing capacity.
  • the power source for the fan be a battery or a wired source of electric power. The fan 150 makes the working of the device independent from the wind.
  • FIG 20 a variant of the embodiment of figure 19 is shown.
  • the outer housing part is left out except for a short tube 155A at the front of the device.
  • the hole 14 is a through hole and has a greater diameter than the inner housing part 28A.
  • the inner housing part 28A is positioned centrally in the hole 14.
  • the inner housing part is held in place by one or more supports which are provided underneath the inner housing part and which rest on the lower side of the hole 14.
  • the housing comprises an outer housing part 28A and an inner housing part 28B.
  • the outer housing part extends around the inner housing part and defines an annular space 152 between them.
  • the annular space 152 forms an ingoing part 80 of the air flow channel 24 and the inner housing part 28B defines an outgoing part 82 of the air flow channel 24, wherein a U-turn 31 is defined at an end of the ingoing channel.
  • the ingoing part extends around the outgoing part and is coaxial with the outgoing part.
  • the fan 150 is in the outgoing part so that any noise of the fan is directed outwardly.
  • the front part may have an outer concentric tube 155A which has a relatively short length.
  • the remainder of the hole 14 is not covered by a housing, but the annular space 152 is defined between the inner housing 28B and the wall.
  • FIG 21 an embodiment is shown wherein the end wall 46 of the device has a thickness 156 of more than five times a thickness 158 of a side wall 160 of the housing.
  • the thick end wall removes moisture from an inner part of the wall 12 without making the inner part too cold.
  • This embodiment provides an alternative to the embodiment having a partition wall 60, in the sense that the embodiment creates different temperature zones within the device and prevents the inner part of the wall from becoming too cold.
  • the embodiment also has the second air flow channel at the front of the device and on the outside of the housing.
  • FIG 22 a further invention is shown which relates to a device 200 with which the air inside a room 201 of a house or building 202 can be dried in a simple and effective manner.
  • the device comprises a channel 204 having a channel wall 206 which is porous to moisture in order to allow moisture to travel through said channel wall.
  • the channel wall is at least partially exposed to the air inside said room.
  • the channel may extend through the room.
  • the device further comprises an air entrance 208 which is configured to be located on the outside of the house or building.
  • the device further comprises an entry tube 210 which is constructed to extend through a first through hole 212 in the outside wall 214 of the house or building to the channel.
  • outside air is drawn in through the entrance and travels through the entry tube to the channel.
  • the device may comprise a fan 220 for blowing outside air through the channel.
  • the fan 220 may be provided at the downstream end of the channel. This results in an underpressure in the channel 204.
  • the underpressure assists in letting the moisture travel through the channel wall 206 from the interior space into the channel
  • a substantial air speed through the channel may assist in providing the required capacity and results in a shorter travel time of the air through the channel. This limits any warming up of the air inside the channel.
  • the position at the downstream end also prevents noise from the fan from entering the house or building.
  • the device may comprise a filter 222 at the entrance.
  • the device further comprises an air exit 216 which is configured to be located on the outside of the house or building. In use, the air is released back into the outside via the exit.
  • An exit tube 218 extends through a through hole 213 in the outside wall 214 from the channel 204 to the exit.
  • the channel wall is relatively closed to air in order to prevent air from the living space to enter the channel. In this way, moisture can be carried off without excessive loss of heat.
  • relatively cold air is blown from the outside through said channel.
  • Moisture in the air of the room condenses in the wall of the channel as a result of the cold outside air.
  • the moisture travels as liquid particles through the channel from the outside of the channel wall to the inside of the channel wall and subsequently evaporates inside the channel into the cold outside air which passes through said channel.
  • the air including the moisture is discharged via the air exit.
  • the device can be installed in a room of an existing house or building in order to dry the air within a room of said house or building.
  • the installation method comprises making at least a first through hole 212 and a second trough hole 213 in an outer wall of the house or building, placing the entry tube 210 and exit tube 218 in said through holes, installing the air entrance 208 and the air exit 216 on the outside of the house or building and installing the channel along a wall 214 inside the room.
  • the method is in particular suitable for houses or buildings which do not have sufficient ventilation, or which have users who have the tendency to close the ventilation to save energy. With the method, excess moisture can be removed without excessive heat loss.
  • the channel has the appearance of a baseboard 211, in particular of other baseboards in the same room. In this way, the channel can be made invisible for a person inside the room.
  • the channel is more or less camouflaged.
  • the channel may extend along one or more walls 224 of the room.
  • the channel may comprise one or more vertical sections 226 and a horizontal section 228 wherein said one or more vertical sections extend in particular along a vertical line where two walls 224 of the house or building meet one another. In this way, the channel can be made inconspicuous.
  • the channel may extend along an upper end of a wall of the living space where said wall meets the ceiling.
  • the channel may extend at least partially in a horizontal direction along a foot 225 of a wall of the living space where the wall meets the floor.
  • the room may be a cellar of a house or building.
  • the entry tube and the exit tube may be located near the ceiling of the cellar.
  • the channel comprises two vertical sections 226 located at a distance from one another and extending along respective vertical lines where walls of the cellar meet to respective corners where the respective vertical lines meet the floor.
  • the channel comprises a horizontal section 228 which extends along the foot of a wall between said corners.
  • FIG. 25 an embodiment is shown wherein the channel is inside the room and surrounded on all sides by the air inside the room.
  • FIG 27 another embodiment is shown which combines the drying of air inside the room with the drying of air in the inner part of a wall.
  • At least one wall is provided with one or more holes 230 which extend into the wall from the side of the room.
  • the holes can be blind holes and may be arranged in a row.
  • the channel comprises one or more parallel channel sections 232 which extend parallel to the wall and along the wall from one hole 230 to the next hole 230.
  • Each parallel channel section has a channel wall 206 which is porous to moisture in order to allow moisture to travel through said channel wall.
  • the channel wall is at least partially exposed to the air in the room.
  • the device 200 further comprises one or more wall piercing channel sections 234, each of which is associated with one of said holes 230.
  • the one or more wall piercing channel sections are constructed to guide the air from a parallel channel section 232 through said hole and from said hole back into a next parallel channel section 232 in order to remove moisture from the part of the wall which surrounds said hole. In this way both the room and the wall are dried.
  • Each of the wall piercing channel sections may comprises an air guide 235 which extends into the hole and divides the wall piercing channel section into an ingoing part 80 and an outgoing part 82 which are parallel to one another.
  • the air guide defines a U-turn at the end of the hole.
  • the room may comprise a plurality of holes and a plurality of associated air guides, the holes being positioned in a linear configuration along said wall in order to remove moisture from said wall.
  • the method of installation may comprise drilling multiple holes in the wall 224 from the inside, and installing multiple wall piercing channel sections inside said holes and multiple parallel channel sections 232 which extend along the wall and interconnect the multiple wall piercing channel sections.
  • FIGS 28A, 28B, 28C, 28D and 28E different possible cross-sections of channels 204 of figures 22-27 are shown.
  • Figures 28A, 28B show a channel 204 formed as a baseboard which can be positioned at the foot of a wall.
  • the baseboard defines a single channel and in figure 28B the baseboard defines a double channel.
  • Figures 28C, 28D show a channel 204 in the form of a wall ornament. This channel 204 can be positioned higher up against the wall.
  • An embodiment which can be positioned where the wall meets the ceiling is also possible.
  • the channel 204 is located in a groove 209 on the inside of the wall 214.
  • the groove 209 and the channel 204 may be horizontal, vertical or diagonal and may comprise turns.
  • An advantage of this embodiment may be that the channel is made completely invisible.
  • the groove may be covered with a suitable material. Even if the channel is not covered, it may be inconspicuous.
  • the channel 204 can be installed vertically at a corner of a room where two walls meet.
  • the groove 209 is made in the wall first, and subsequently the channel 204 is installed.
  • the embodiments of 28A-28E can be combined with the embodiment shown in figures 23 , 24 , 25 26 and 27 . It is also possible to place channel 204 partially in the groove 209 and to let the channel 204 partially protrude from the groove 209. This provides the benefit of needing a relatively small groove 209, but the channel will be less inconspicuous.
  • the longitudinal partition wall 25 is provided with at least one spacer projection 250 which prevents the longitudinal partition wall 25 from being positioned so close to the partition wall 60 that a U-turn 31 in the airflow channel 24 would be closed off.
  • two spacer projections 250 are provided, one near the top and another near the bottom of the longitudinal partition wall.
  • a single spacer projection is also possible.
  • the spacer projection(s) 250 define(s) an opening 252 together with the end ridge 255 of the longitudinal partition wall which opening always stays open. In this way it is impossible for the installation operator to make a mistake with the position of the longitudinal partition wall.
  • the opening 252 may have the shape of a rectangle, a half circle or a half moon, and other shapes are also possible.
  • the length L1 of the longitudinal partition wall may vary as well.
  • Special breaking lines 254 are provided which extend across the longitudinal partition wall.
  • the breaking lines are weakened lines of the longitudinal partition wall. The breaking lines allow a front part 256 to be broken from the rest of the longitudinal partition wall, thereby allowing the longitudinal partition wall to be set to the required length with ease.
  • the spacer projections 250 comprise notches 258 for holding the partition wall 60.
  • the notches cooperate with recesses in the partition wall 60. In this way a fixed distance between the partition wall 60 and the longitudinal partition wall is guaranteed.
  • the notches 258 may not be present and the spacer projection on the longitudinal partition wall 25 or the partition wall 60 is of an abutting type.
  • FIG. 31A, 31B another embodiment is shown, in which the housing has breakable ridges 270 on the outside.
  • the ridges may extend longitudinally. It was found that during the making of the hole 14 in the wall, the diamond core drill gradually wears off.
  • the diamond core drill generally has an outer diameter of 78 mm. However, during the making of the holes 14, the diameter decreases from 78 mm to about 74 mm as a result of wear. The diameter of the hole 14 also decreases. If the housing fits in a hole of 78mm, it does not fit in a hole of 74 mm. If the housing fits in a hole of 74mm, it is too small to properly be installed in a hole of 78mm. It is not very attractive to replace the diamond core drill sooner, because they are very expensive.
  • the ridges project from the housing over a distance of a few millimetres.
  • the outer diameter defined by the ridges may be in the order of 77-79mm.
  • the ridges on the outside are strong enough to support the device 10 and weak enough to be broken if the housing is pushes into a hole which is smaller than the diameter defined by the ridges 274.
  • the ridges may be applied for every embodiment which is configured to contact the wall.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Building Environments (AREA)
  • Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
EP19175105.6A 2013-12-30 2014-12-23 Mur et procédé avec un dispositif d'extraction de l'humidité du mur Active EP3553239B1 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
NL2012035A NL2012035C2 (en) 2013-12-30 2013-12-30 Device for extracting moisture from a wall.
EP14828350.0A EP3090105B1 (fr) 2013-12-30 2014-12-23 Dispositif conçu pour extraire l'humidité d'un mur
PCT/NL2014/050904 WO2015102486A2 (fr) 2013-12-30 2014-12-23 Dispositif conçu pour extraire l'humidité d'un mur

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
EP14828350.0A Division EP3090105B1 (fr) 2013-12-30 2014-12-23 Dispositif conçu pour extraire l'humidité d'un mur

Publications (2)

Publication Number Publication Date
EP3553239A1 true EP3553239A1 (fr) 2019-10-16
EP3553239B1 EP3553239B1 (fr) 2021-06-30

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EP19175105.6A Active EP3553239B1 (fr) 2013-12-30 2014-12-23 Mur et procédé avec un dispositif d'extraction de l'humidité du mur
EP14828350.0A Active EP3090105B1 (fr) 2013-12-30 2014-12-23 Dispositif conçu pour extraire l'humidité d'un mur

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EP14828350.0A Active EP3090105B1 (fr) 2013-12-30 2014-12-23 Dispositif conçu pour extraire l'humidité d'un mur

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EP (2) EP3553239B1 (fr)
DK (2) DK3090105T3 (fr)
NL (1) NL2012035C2 (fr)
WO (1) WO2015102486A2 (fr)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20230085424A1 (en) * 2020-02-05 2023-03-16 University Of Southern California Cooling and smog filtering building facade panel

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0407290A1 (fr) 1989-07-07 1991-01-09 Sarl Engineering Fumisterie Industrielle Et Antipollution Societe Francaise De Chemisage "E.F.I.A.P." Siphon atmosphérique pour assécher un mur
WO1993018352A1 (fr) * 1992-03-13 1993-09-16 Peronnet Francoise Dispositif destine a deshumidifier une piece ou un volume habitable
EP0829587A1 (fr) 1996-09-13 1998-03-18 Schrijver Systeem Vochtbestrijding N.V., naamloze vennootschap. Dispositif perfectionnée pour enlever l'humidité d'un mur
FR2920796A1 (fr) 2007-09-06 2009-03-13 Alize Advance Sarl Soc Respons Procede et dispositif pour extraire un gaz d'une structure maconnee
NL2007920A (en) 2011-12-02 2013-06-05 Graaf Evert Frederik A building having a cavity wall structure, an element for extracting moisture from a cavity wall structure, and a method for installing means for abstracting moisture from a cavity wall structure.

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE29808559U1 (de) * 1998-05-12 2000-09-21 Westphal Ekkehard Niederschlagfließelement für Steintrocknung an Bauwerksmauern, fugal oder steinzentral

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0407290A1 (fr) 1989-07-07 1991-01-09 Sarl Engineering Fumisterie Industrielle Et Antipollution Societe Francaise De Chemisage "E.F.I.A.P." Siphon atmosphérique pour assécher un mur
WO1993018352A1 (fr) * 1992-03-13 1993-09-16 Peronnet Francoise Dispositif destine a deshumidifier une piece ou un volume habitable
EP0829587A1 (fr) 1996-09-13 1998-03-18 Schrijver Systeem Vochtbestrijding N.V., naamloze vennootschap. Dispositif perfectionnée pour enlever l'humidité d'un mur
FR2920796A1 (fr) 2007-09-06 2009-03-13 Alize Advance Sarl Soc Respons Procede et dispositif pour extraire un gaz d'une structure maconnee
NL2007920A (en) 2011-12-02 2013-06-05 Graaf Evert Frederik A building having a cavity wall structure, an element for extracting moisture from a cavity wall structure, and a method for installing means for abstracting moisture from a cavity wall structure.

Also Published As

Publication number Publication date
DK3090105T3 (da) 2019-07-29
WO2015102486A2 (fr) 2015-07-09
NL2012035C2 (en) 2015-07-01
EP3090105A2 (fr) 2016-11-09
EP3090105B1 (fr) 2019-05-22
DK3553239T3 (en) 2021-09-20
EP3553239B1 (fr) 2021-06-30
WO2015102486A3 (fr) 2015-11-05

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